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b9a456d4f82b5e1c3a5b6c46ed6b1ad1edb7d303
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449d555969bfd7befe906877abab098c6e63a0e8
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/623/CH1/EX1.1.11/U1_C1_11.sce
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ff2627a44478400417608f443e950297c234ed26
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[] |
no_license
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FOSSEE/Scilab-TBC-Uploads
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948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
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7bc77cb1ed33745c720952c92b3b2747c5cbf2df
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refs/heads/master
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sce
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U1_C1_11.sce
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//Variable initialization
E=0.25 //Energy of photon (MeV)
Theta=(120*%pi)/180; //Scattering angle of photon (radian)
a=0.51 //Value of m0*c^2 (Mev)
//Calculation of energy of the photon
E_dash=E/(1+(E/a)*(1-cos(Theta))); //Energy of the scattered photon (MeV)
printf("\nEnergy of the scattered photon = %.3f Mev",E_dash);
|
c0df80d0da0181e524e4ac19be1239aab5d47dd2
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e04f3a1f9e98fd043a65910a1d4e52bdfff0d6e4
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/New LSTMAttn Model/.data/lemma-split/DEVELOPMENT-LANGUAGES/oto-manguean/azg.tst
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326022d2b3ccb777322da38a258181fbd1b6e6cf
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[] |
no_license
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davidgu13/Lemma-vs-Form-Splits
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c154f1c0c7b84ba5b325b17507012d41b9ad5cfe
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3cce087f756420523f5a14234d02482452a7bfa5
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refs/heads/master
| 2023-08-01T16:15:52.417307
| 2021-09-14T20:19:28
| 2021-09-14T20:19:28
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tst
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azg.tst
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n⁵ndɛʔ³⁵ V;PFV;SG;2;PST
n⁵ndɛʔ³⁵ V;SBJV;PL;1+INCL
n⁵ndɛʔ³⁵ V;IPFV;PL;3;PRS
n⁵ndɛʔ³⁵ V;PROG;PL;3;PST
n⁵ndɛʔ³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndɛʔ³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndɛʔ³⁵ V;IRR;PL;3;FUT
n⁵ndɛʔ³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndɛʔ³⁵ V;IPFV;SG;1;PRS
n⁵ndɛʔ³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndɛʔ³⁵ V;IRR;SG;1;FUT
n⁵ndɛʔ³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndɛʔ³⁵ V;PFV;PL;3;PST
n⁵ndɛʔ³⁵ V;SBJV;SG;1
n⁵ndɛʔ³⁵ V;IRR;SG;2;FUT
n⁵ndɛʔ³⁵ V;PROG;PL;3;FUT
n⁵ndɛʔ³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndɛʔ³⁵ V;PROG;SG;3;FUT
n⁵ndɛʔ³⁵ V;IPFV;SG;3;PRS
n⁵ndɛʔ³⁵ V;PROG;SG;1;FUT
n⁵ndɛʔ³⁵ V;SBJV;PL;3
n⁵ndɛʔ³⁵ V;PROG;SG;2;FUT
n⁵ndɛʔ³⁵ V;IRR;SG;3;FUT
n⁵ndɛʔ³⁵ V;PROG;SG;1;PST
n⁵ndɛʔ³⁵ V;PROG;PL;1+INCL;PST
n⁵ndɛʔ³⁵ V;PROG;SG;3;PST
n⁵ndɛʔ³⁵ V;PFV;SG;3;PST
n⁵ndɛʔ³⁵ V;SBJV;SG;2
n⁵ndɛʔ³⁵ V;IPFV;SG;2;PRS
n⁵ndɛʔ³⁵ V;SBJV;SG;3
n⁵ndɛʔ³⁵ V;PFV;SG;1;PST
n⁵ndɛʔ³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndɛʔ³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndɛʔ³⁵ V;SBJV;PL;1+EXCL
n⁵ndɛʔ³⁵ V;PFV;PL;1+INCL;PST
n⁵ndɛʔ³⁵ V;PROG;SG;2;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;SBJV;SG;2
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;SBJV;PL;3
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IRR;SG;2;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;SBJV;SG;3
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;SBJV;SG;1
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵ ʔ⁵hndíʔ⁵tzʔon³ V;PFV;PL;3;PST
n⁵ndo³ndɛ³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndo³ndɛ³⁴ V;SBJV;PL;1+INCL
n⁵ndo³ndɛ³⁴ V;PROG;PL;3;PST
n⁵ndo³ndɛ³⁴ V;PROG;SG;2;FUT
n⁵ndo³ndɛ³⁴ V;PFV;SG;1;PST
n⁵ndo³ndɛ³⁴ V;PROG;PL;1+INCL;PST
n⁵ndo³ndɛ³⁴ V;SBJV;SG;3
n⁵ndo³ndɛ³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndo³ndɛ³⁴ V;PROG;SG;1;FUT
n⁵ndo³ndɛ³⁴ V;PFV;PL;1+INCL;PST
n⁵ndo³ndɛ³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndo³ndɛ³⁴ V;IRR;SG;2;FUT
n⁵ndo³ndɛ³⁴ V;IRR;SG;1;FUT
n⁵ndo³ndɛ³⁴ V;SBJV;PL;3
n⁵ndo³ndɛ³⁴ V;PROG;SG;3;PST
n⁵ndo³ndɛ³⁴ V;IPFV;SG;2;PRS
n⁵ndo³ndɛ³⁴ V;IRR;PL;3;FUT
n⁵ndo³ndɛ³⁴ V;PFV;SG;2;PST
n⁵ndo³ndɛ³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndo³ndɛ³⁴ V;PROG;SG;3;FUT
n⁵ndo³ndɛ³⁴ V;IPFV;SG;3;PRS
n⁵ndo³ndɛ³⁴ V;IPFV;PL;3;PRS
n⁵ndo³ndɛ³⁴ V;IRR;SG;3;FUT
n⁵ndo³ndɛ³⁴ V;PFV;PL;3;PST
n⁵ndo³ndɛ³⁴ V;SBJV;PL;1+EXCL
n⁵ndo³ndɛ³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndo³ndɛ³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndo³ndɛ³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndo³ndɛ³⁴ V;PROG;SG;1;PST
n⁵ndo³ndɛ³⁴ V;SBJV;SG;2
n⁵ndo³ndɛ³⁴ V;PROG;PL;3;FUT
n⁵ndo³ndɛ³⁴ V;SBJV;SG;1
n⁵ndo³ndɛ³⁴ V;IPFV;SG;1;PRS
n⁵ndo³ndɛ³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndo³ndɛ³⁴ V;PROG;SG;2;PST
n⁵ndo³ndɛ³⁴ V;PFV;SG;3;PST
n⁵ndui³⁵ V;IRR;PL;3;FUT
n⁵ndui³⁵ V;PFV;SG;3;PST
n⁵ndui³⁵ V;PROG;PL;3;FUT
n⁵ndui³⁵ V;PFV;SG;1;PST
n⁵ndui³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndui³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndui³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndui³⁵ V;IRR;SG;2;FUT
n⁵ndui³⁵ V;IPFV;PL;3;PRS
n⁵ndui³⁵ V;SBJV;PL;3
n⁵ndui³⁵ V;PROG;SG;1;FUT
n⁵ndui³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndui³⁵ V;PROG;SG;3;PST
n⁵ndui³⁵ V;SBJV;SG;2
n⁵ndui³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndui³⁵ V;IRR;SG;3;FUT
n⁵ndui³⁵ V;SBJV;SG;1
n⁵ndui³⁵ V;IPFV;SG;1;PRS
n⁵ndui³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndui³⁵ V;IPFV;SG;2;PRS
n⁵ndui³⁵ V;PROG;PL;3;PST
n⁵ndui³⁵ V;IRR;SG;1;FUT
n⁵ndui³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndui³⁵ V;PFV;SG;2;PST
n⁵ndui³⁵ V;PROG;SG;3;FUT
n⁵ndui³⁵ V;PFV;PL;1+INCL;PST
n⁵ndui³⁵ V;SBJV;SG;3
n⁵ndui³⁵ V;SBJV;PL;1+INCL
n⁵ndui³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndui³⁵ V;PROG;SG;2;FUT
n⁵ndui³⁵ V;IPFV;SG;3;PRS
n⁵ndui³⁵ V;PROG;PL;1+INCL;PST
n⁵ndui³⁵ V;SBJV;PL;1+EXCL
n⁵ndui³⁵ V;PROG;SG;2;PST
n⁵ndui³⁵ V;PFV;PL;3;PST
n⁵ndui³⁵ V;PROG;SG;1;PST
n⁵ndí⁵nkiáʔ⁵ V;PFV;PL;3;PST
n⁵ndí⁵nkiáʔ⁵ V;IRR;PL;3;FUT
n⁵ndí⁵nkiáʔ⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵nkiáʔ⁵ V;IRR;SG;1;FUT
n⁵ndí⁵nkiáʔ⁵ V;PROG;SG;1;FUT
n⁵ndí⁵nkiáʔ⁵ V;PFV;SG;3;PST
n⁵ndí⁵nkiáʔ⁵ V;SBJV;SG;1
n⁵ndí⁵nkiáʔ⁵ V;PROG;SG;1;PST
n⁵ndí⁵nkiáʔ⁵ V;IRR;SG;3;FUT
n⁵ndí⁵nkiáʔ⁵ V;IRR;SG;2;FUT
n⁵ndí⁵nkiáʔ⁵ V;SBJV;SG;2
n⁵ndí⁵nkiáʔ⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵nkiáʔ⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵nkiáʔ⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵nkiáʔ⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵nkiáʔ⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵nkiáʔ⁵ V;SBJV;PL;3
n⁵ndí⁵nkiáʔ⁵ V;SBJV;SG;3
n⁵ndí⁵nkiáʔ⁵ V;PROG;SG;2;PST
n⁵ndí⁵nkiáʔ⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵nkiáʔ⁵ V;PROG;PL;3;PST
n⁵ndí⁵nkiáʔ⁵ V;PROG;SG;3;PST
n⁵ndí⁵nkiáʔ⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵nkiáʔ⁵ V;PFV;SG;1;PST
n⁵ndí⁵nkiáʔ⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵nkiáʔ⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵nkiáʔ⁵ V;PROG;PL;3;FUT
n⁵ndí⁵nkiáʔ⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵nkiáʔ⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵nkiáʔ⁵ V;PROG;SG;3;FUT
n⁵ndí⁵nkiáʔ⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵nkiáʔ⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵nkiáʔ⁵ V;PFV;SG;2;PST
n⁵ndí⁵nkiáʔ⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵nkiáʔ⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵nkiáʔ⁵ V;PROG;SG;2;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;SBJV;SG;3
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IRR;SG;2;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IRR;SG;3;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PFV;SG;3;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;SBJV;PL;3
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PFV;SG;2;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PFV;SG;1;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;SG;1;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IRR;SG;1;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PFV;PL;3;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;SG;2;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;PL;3;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;SG;3;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;SG;3;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;SG;1;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IRR;PL;3;FUT
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;SBJV;SG;2
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;SBJV;SG;1
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;PL;3;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵bi³⁴ nthan³ʔndyó⁵ V;PROG;SG;2;PST
n⁵ndí⁵chio³⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵chio³⁵ V;SBJV;PL;3
n⁵ndí⁵chio³⁵ V;PROG;SG;3;FUT
n⁵ndí⁵chio³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵chio³⁵ V;PROG;SG;3;PST
n⁵ndí⁵chio³⁵ V;SBJV;SG;1
n⁵ndí⁵chio³⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵chio³⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵chio³⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵chio³⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵chio³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵chio³⁵ V;PFV;SG;3;PST
n⁵ndí⁵chio³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵chio³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵chio³⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵chio³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵chio³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵chio³⁵ V;IRR;SG;1;FUT
n⁵ndí⁵chio³⁵ V;PROG;SG;2;PST
n⁵ndí⁵chio³⁵ V;IRR;PL;3;FUT
n⁵ndí⁵chio³⁵ V;IRR;SG;2;FUT
n⁵ndí⁵chio³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵chio³⁵ V;PROG;SG;1;FUT
n⁵ndí⁵chio³⁵ V;IRR;SG;3;FUT
n⁵ndí⁵chio³⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵chio³⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵chio³⁵ V;PFV;SG;2;PST
n⁵ndí⁵chio³⁵ V;PROG;PL;3;FUT
n⁵ndí⁵chio³⁵ V;PFV;PL;3;PST
n⁵ndí⁵chio³⁵ V;SBJV;SG;3
n⁵ndí⁵chio³⁵ V;PROG;SG;1;PST
n⁵ndí⁵chio³⁵ V;PFV;SG;1;PST
n⁵ndí⁵chio³⁵ V;PROG;SG;2;FUT
n⁵ndí⁵chio³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵chio³⁵ V;SBJV;SG;2
n⁵ndí⁵chio³⁵ V;PROG;PL;3;PST
n⁵ndí⁵tha⁵³ V;IRR;SG;2;FUT
n⁵ndí⁵tha⁵³ V;SBJV;PL;3
n⁵ndí⁵tha⁵³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵tha⁵³ V;IPFV;PL;3;PRS
n⁵ndí⁵tha⁵³ V;IPFV;SG;2;PRS
n⁵ndí⁵tha⁵³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵tha⁵³ V;SBJV;SG;2
n⁵ndí⁵tha⁵³ V;PFV;PL;3;PST
n⁵ndí⁵tha⁵³ V;PROG;SG;2;PST
n⁵ndí⁵tha⁵³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵tha⁵³ V;PROG;SG;1;PST
n⁵ndí⁵tha⁵³ V;PROG;SG;3;PST
n⁵ndí⁵tha⁵³ V;PROG;SG;3;FUT
n⁵ndí⁵tha⁵³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tha⁵³ V;SBJV;PL;1+EXCL
n⁵ndí⁵tha⁵³ V;IRR;SG;3;FUT
n⁵ndí⁵tha⁵³ V;IRR;SG;1;FUT
n⁵ndí⁵tha⁵³ V;PROG;PL;3;PST
n⁵ndí⁵tha⁵³ V;PFV;SG;1;PST
n⁵ndí⁵tha⁵³ V;PROG;PL;3;FUT
n⁵ndí⁵tha⁵³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵tha⁵³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵tha⁵³ V;IRR;PL;3;FUT
n⁵ndí⁵tha⁵³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵tha⁵³ V;SBJV;PL;1+INCL
n⁵ndí⁵tha⁵³ V;IPFV;SG;3;PRS
n⁵ndí⁵tha⁵³ V;PROG;SG;1;FUT
n⁵ndí⁵tha⁵³ V;IPFV;SG;1;PRS
n⁵ndí⁵tha⁵³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵tha⁵³ V;PROG;SG;2;FUT
n⁵ndí⁵tha⁵³ V;PFV;SG;3;PST
n⁵ndí⁵tha⁵³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵tha⁵³ V;PFV;SG;2;PST
n⁵ndí⁵tha⁵³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵tha⁵³ V;SBJV;SG;3
n⁵ndí⁵tha⁵³ V;SBJV;SG;1
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;SG;1;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;SBJV;PL;1+INCL
n⁵ndí⁵nké⁵ ndʔɔ³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;PL;3;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;SG;1;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;SG;3;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;SG;2;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;SBJV;SG;1
n⁵ndí⁵nké⁵ ndʔɔ³ V;PFV;SG;2;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;SBJV;PL;3
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;SG;2;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;IPFV;SG;3;PRS
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;SG;3;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;PFV;SG;1;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;SBJV;SG;3
n⁵ndí⁵nké⁵ ndʔɔ³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵nké⁵ ndʔɔ³ V;IPFV;PL;3;PRS
n⁵ndí⁵nké⁵ ndʔɔ³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;IPFV;SG;2;PRS
n⁵ndí⁵nké⁵ ndʔɔ³ V;SBJV;PL;1+EXCL
n⁵ndí⁵nké⁵ ndʔɔ³ V;IRR;SG;3;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;PFV;SG;3;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;IRR;SG;1;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;IPFV;SG;1;PRS
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;IRR;PL;3;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;IRR;SG;2;FUT
n⁵ndí⁵nké⁵ ndʔɔ³ V;SBJV;SG;2
n⁵ndí⁵nké⁵ ndʔɔ³ V;PFV;PL;3;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;PL;3;PST
n⁵ndí⁵nké⁵ ndʔɔ³ V;PROG;PL;1+EXCL;FUT
n⁵hndɛ³⁵ V;PFV;SG;1;PST
n⁵hndɛ³⁵ V;SBJV;PL;1+INCL
n⁵hndɛ³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵hndɛ³⁵ V;PROG;PL;1+INCL;PST
n⁵hndɛ³⁵ V;PROG;PL;1+EXCL;PST
n⁵hndɛ³⁵ V;IPFV;PL;1+INCL;PRS
n⁵hndɛ³⁵ V;SBJV;SG;2
n⁵hndɛ³⁵ V;SBJV;PL;1+EXCL
n⁵hndɛ³⁵ V;PFV;PL;1+EXCL;PST
n⁵hndɛ³⁵ V;IRR;PL;3;FUT
n⁵hndɛ³⁵ V;IPFV;SG;1;PRS
n⁵hndɛ³⁵ V;IRR;PL;1+EXCL;FUT
n⁵hndɛ³⁵ V;PFV;SG;2;PST
n⁵hndɛ³⁵ V;IRR;PL;1+INCL;FUT
n⁵hndɛ³⁵ V;IRR;SG;1;FUT
n⁵hndɛ³⁵ V;IRR;SG;3;FUT
n⁵hndɛ³⁵ V;PFV;PL;1+INCL;PST
n⁵hndɛ³⁵ V;SBJV;PL;3
n⁵hndɛ³⁵ V;PROG;SG;3;FUT
n⁵hndɛ³⁵ V;PROG;SG;1;PST
n⁵hndɛ³⁵ V;PROG;SG;3;PST
n⁵hndɛ³⁵ V;PFV;SG;3;PST
n⁵hndɛ³⁵ V;IPFV;SG;2;PRS
n⁵hndɛ³⁵ V;PROG;SG;2;PST
n⁵hndɛ³⁵ V;PROG;SG;2;FUT
n⁵hndɛ³⁵ V;PROG;PL;1+EXCL;FUT
n⁵hndɛ³⁵ V;PROG;PL;1+INCL;FUT
n⁵hndɛ³⁵ V;IPFV;PL;3;PRS
n⁵hndɛ³⁵ V;IRR;SG;2;FUT
n⁵hndɛ³⁵ V;PROG;PL;3;PST
n⁵hndɛ³⁵ V;PFV;PL;3;PST
n⁵hndɛ³⁵ V;SBJV;SG;1
n⁵hndɛ³⁵ V;PROG;PL;3;FUT
n⁵hndɛ³⁵ V;PROG;SG;1;FUT
n⁵hndɛ³⁵ V;SBJV;SG;3
n⁵hndɛ³⁵ V;IPFV;SG;3;PRS
n⁵ndyui³⁵ V;IPFV;SG;1;PRS
n⁵ndyui³⁵ V;PFV;SG;3;PST
n⁵ndyui³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndyui³⁵ V;PROG;SG;1;PST
n⁵ndyui³⁵ V;SBJV;PL;1+INCL
n⁵ndyui³⁵ V;IRR;SG;2;FUT
n⁵ndyui³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndyui³⁵ V;SBJV;SG;2
n⁵ndyui³⁵ V;IRR;SG;3;FUT
n⁵ndyui³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndyui³⁵ V;PROG;SG;2;FUT
n⁵ndyui³⁵ V;IPFV;SG;3;PRS
n⁵ndyui³⁵ V;PROG;SG;3;PST
n⁵ndyui³⁵ V;PROG;SG;3;FUT
n⁵ndyui³⁵ V;PFV;PL;3;PST
n⁵ndyui³⁵ V;PROG;SG;2;PST
n⁵ndyui³⁵ V;PFV;SG;1;PST
n⁵ndyui³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndyui³⁵ V;SBJV;PL;1+EXCL
n⁵ndyui³⁵ V;PROG;PL;3;FUT
n⁵ndyui³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndyui³⁵ V;IRR;PL;3;FUT
n⁵ndyui³⁵ V;PROG;SG;1;FUT
n⁵ndyui³⁵ V;SBJV;SG;3
n⁵ndyui³⁵ V;PFV;SG;2;PST
n⁵ndyui³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndyui³⁵ V;IPFV;SG;2;PRS
n⁵ndyui³⁵ V;PFV;PL;1+INCL;PST
n⁵ndyui³⁵ V;IPFV;PL;3;PRS
n⁵ndyui³⁵ V;SBJV;SG;1
n⁵ndyui³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndyui³⁵ V;PROG;PL;1+INCL;PST
n⁵ndyui³⁵ V;PROG;PL;3;PST
n⁵ndyui³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndyui³⁵ V;IRR;SG;1;FUT
n⁵ndyui³⁵ V;SBJV;PL;3
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;SG;2;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IRR;PL;3;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IRR;SG;1;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;SBJV;SG;1
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;SBJV;PL;3
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;SG;2;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;SBJV;SG;2
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;SG;1;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;SBJV;SG;3
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PFV;SG;3;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PFV;PL;3;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PFV;SG;2;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;SG;3;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IRR;SG;2;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;SG;1;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;PL;3;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;SG;3;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IRR;SG;3;FUT
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PFV;SG;1;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;PROG;PL;3;PST
n⁵ndí⁵kíʔ⁵na³ ʔndyó⁵ V;SBJV;PL;1+INCL
n⁵ndyionʔ³⁵tzʔon³ V;SBJV;SG;2
n⁵ndyionʔ³⁵tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndyionʔ³⁵tzʔon³ V;IRR;SG;2;FUT
n⁵ndyionʔ³⁵tzʔon³ V;IPFV;SG;2;PRS
n⁵ndyionʔ³⁵tzʔon³ V;IPFV;SG;1;PRS
n⁵ndyionʔ³⁵tzʔon³ V;IRR;PL;3;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndyionʔ³⁵tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndyionʔ³⁵tzʔon³ V;IRR;SG;1;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PROG;SG;2;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PROG;SG;3;PST
n⁵ndyionʔ³⁵tzʔon³ V;SBJV;PL;3
n⁵ndyionʔ³⁵tzʔon³ V;PFV;SG;2;PST
n⁵ndyionʔ³⁵tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndyionʔ³⁵tzʔon³ V;IPFV;SG;3;PRS
n⁵ndyionʔ³⁵tzʔon³ V;IPFV;PL;3;PRS
n⁵ndyionʔ³⁵tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndyionʔ³⁵tzʔon³ V;SBJV;PL;1+INCL
n⁵ndyionʔ³⁵tzʔon³ V;PFV;SG;3;PST
n⁵ndyionʔ³⁵tzʔon³ V;SBJV;SG;3
n⁵ndyionʔ³⁵tzʔon³ V;PROG;SG;3;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PFV;PL;3;PST
n⁵ndyionʔ³⁵tzʔon³ V;PROG;SG;1;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndyionʔ³⁵tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PROG;PL;3;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PROG;PL;3;PST
n⁵ndyionʔ³⁵tzʔon³ V;IRR;SG;3;FUT
n⁵ndyionʔ³⁵tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndyionʔ³⁵tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndyionʔ³⁵tzʔon³ V;SBJV;SG;1
n⁵ndyionʔ³⁵tzʔon³ V;PROG;SG;1;PST
n⁵ndyionʔ³⁵tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndyionʔ³⁵tzʔon³ V;PROG;SG;2;PST
n⁵ndyionʔ³⁵tzʔon³ V;PFV;SG;1;PST
n⁵ndyionʔ³⁵tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndyʔiù¹ V;PROG;SG;3;FUT
n⁵ndyʔiù¹ V;IRR;PL;3;FUT
n⁵ndyʔiù¹ V;IPFV;SG;1;PRS
n⁵ndyʔiù¹ V;IPFV;SG;2;PRS
n⁵ndyʔiù¹ V;SBJV;SG;1
n⁵ndyʔiù¹ V;PROG;SG;2;PST
n⁵ndyʔiù¹ V;SBJV;SG;3
n⁵ndyʔiù¹ V;PFV;PL;1+INCL;PST
n⁵ndyʔiù¹ V;PROG;SG;1;FUT
n⁵ndyʔiù¹ V;IRR;PL;1+INCL;FUT
n⁵ndyʔiù¹ V;PROG;PL;1+EXCL;PST
n⁵ndyʔiù¹ V;IPFV;PL;1+EXCL;PRS
n⁵ndyʔiù¹ V;IRR;SG;1;FUT
n⁵ndyʔiù¹ V;PROG;PL;1+EXCL;FUT
n⁵ndyʔiù¹ V;PROG;PL;3;FUT
n⁵ndyʔiù¹ V;PROG;SG;3;PST
n⁵ndyʔiù¹ V;PROG;SG;1;PST
n⁵ndyʔiù¹ V;IPFV;PL;1+INCL;PRS
n⁵ndyʔiù¹ V;PROG;PL;1+INCL;PST
n⁵ndyʔiù¹ V;IPFV;PL;3;PRS
n⁵ndyʔiù¹ V;PFV;SG;2;PST
n⁵ndyʔiù¹ V;SBJV;PL;1+INCL
n⁵ndyʔiù¹ V;PROG;PL;1+INCL;FUT
n⁵ndyʔiù¹ V;PROG;PL;3;PST
n⁵ndyʔiù¹ V;SBJV;PL;1+EXCL
n⁵ndyʔiù¹ V;PFV;SG;1;PST
n⁵ndyʔiù¹ V;SBJV;SG;2
n⁵ndyʔiù¹ V;IPFV;SG;3;PRS
n⁵ndyʔiù¹ V;PROG;SG;2;FUT
n⁵ndyʔiù¹ V;IRR;SG;3;FUT
n⁵ndyʔiù¹ V;IRR;PL;1+EXCL;FUT
n⁵ndyʔiù¹ V;IRR;SG;2;FUT
n⁵ndyʔiù¹ V;PFV;SG;3;PST
n⁵ndyʔiù¹ V;PFV;PL;1+EXCL;PST
n⁵ndyʔiù¹ V;SBJV;PL;3
n⁵ndyʔiù¹ V;PFV;PL;3;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;PL;3;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;SG;1;PST
n⁵ndí⁵na³nkoʔ³⁴ V;IRR;PL;3;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;IRR;SG;3;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;SBJV;PL;1+INCL
n⁵ndí⁵na³nkoʔ³⁴ V;IRR;SG;2;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;IPFV;SG;3;PRS
n⁵ndí⁵na³nkoʔ³⁴ V;SBJV;SG;2
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;SBJV;SG;3
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;SG;1;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;IPFV;SG;2;PRS
n⁵ndí⁵na³nkoʔ³⁴ V;PFV;SG;3;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;SG;2;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;PFV;PL;1+INCL;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;PL;1+INCL;PST
n⁵ndí⁵na³nkoʔ³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵na³nkoʔ³⁴ V;IPFV;SG;1;PRS
n⁵ndí⁵na³nkoʔ³⁴ V;PFV;SG;2;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PFV;SG;1;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;SG;2;PST
n⁵ndí⁵na³nkoʔ³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;SBJV;PL;1+EXCL
n⁵ndí⁵na³nkoʔ³⁴ V;SBJV;PL;3
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;PL;3;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;SG;3;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;IRR;SG;1;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;SBJV;SG;1
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵na³nkoʔ³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵na³nkoʔ³⁴ V;IPFV;PL;3;PRS
n⁵ndí⁵na³nkoʔ³⁴ V;PROG;SG;3;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵na³nkoʔ³⁴ V;PFV;PL;3;PST
n⁵ndí⁵kí⁵ V;PROG;SG;3;FUT
n⁵ndí⁵kí⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵kí⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵kí⁵ V;PROG;PL;3;FUT
n⁵ndí⁵kí⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵kí⁵ V;IRR;SG;1;FUT
n⁵ndí⁵kí⁵ V;SBJV;SG;1
n⁵ndí⁵kí⁵ V;IRR;PL;3;FUT
n⁵ndí⁵kí⁵ V;PFV;SG;2;PST
n⁵ndí⁵kí⁵ V;SBJV;PL;3
n⁵ndí⁵kí⁵ V;IRR;SG;2;FUT
n⁵ndí⁵kí⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵kí⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵kí⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵kí⁵ V;PROG;SG;1;FUT
n⁵ndí⁵kí⁵ V;PFV;SG;3;PST
n⁵ndí⁵kí⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵kí⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵kí⁵ V;PROG;SG;3;PST
n⁵ndí⁵kí⁵ V;PFV;PL;3;PST
n⁵ndí⁵kí⁵ V;PROG;SG;2;FUT
n⁵ndí⁵kí⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵kí⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵kí⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵kí⁵ V;PROG;SG;1;PST
n⁵ndí⁵kí⁵ V;PROG;PL;3;PST
n⁵ndí⁵kí⁵ V;SBJV;SG;2
n⁵ndí⁵kí⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵kí⁵ V;PFV;SG;1;PST
n⁵ndí⁵kí⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵kí⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵kí⁵ V;SBJV;SG;3
n⁵ndí⁵kí⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵ V;PROG;SG;2;PST
n⁵ndí⁵kí⁵ V;IRR;SG;3;FUT
n⁵ndí⁵hndɛ³ V;SBJV;PL;1+EXCL
n⁵ndí⁵hndɛ³ V;IPFV;SG;1;PRS
n⁵ndí⁵hndɛ³ V;PROG;SG;3;FUT
n⁵ndí⁵hndɛ³ V;IPFV;PL;3;PRS
n⁵ndí⁵hndɛ³ V;SBJV;SG;1
n⁵ndí⁵hndɛ³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hndɛ³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵hndɛ³ V;SBJV;SG;3
n⁵ndí⁵hndɛ³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵hndɛ³ V;SBJV;PL;1+INCL
n⁵ndí⁵hndɛ³ V;PROG;SG;2;FUT
n⁵ndí⁵hndɛ³ V;IRR;SG;1;FUT
n⁵ndí⁵hndɛ³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵hndɛ³ V;PROG;PL;3;FUT
n⁵ndí⁵hndɛ³ V;PFV;SG;3;PST
n⁵ndí⁵hndɛ³ V;PROG;SG;1;PST
n⁵ndí⁵hndɛ³ V;PROG;PL;3;PST
n⁵ndí⁵hndɛ³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hndɛ³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hndɛ³ V;PROG;SG;2;PST
n⁵ndí⁵hndɛ³ V;IPFV;SG;3;PRS
n⁵ndí⁵hndɛ³ V;PFV;PL;3;PST
n⁵ndí⁵hndɛ³ V;IRR;PL;3;FUT
n⁵ndí⁵hndɛ³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hndɛ³ V;SBJV;SG;2
n⁵ndí⁵hndɛ³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hndɛ³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hndɛ³ V;IPFV;SG;2;PRS
n⁵ndí⁵hndɛ³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hndɛ³ V;PFV;SG;2;PST
n⁵ndí⁵hndɛ³ V;PROG;SG;3;PST
n⁵ndí⁵hndɛ³ V;PROG;SG;1;FUT
n⁵ndí⁵hndɛ³ V;IRR;SG;3;FUT
n⁵ndí⁵hndɛ³ V;SBJV;PL;3
n⁵ndí⁵hndɛ³ V;PFV;SG;1;PST
n⁵ndí⁵hndɛ³ V;IRR;SG;2;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵ten³⁴tzʔon³ V;SBJV;SG;1
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ten³⁴tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ten³⁴tzʔon³ V;SBJV;SG;3
n⁵ndí⁵ten³⁴tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵ten³⁴tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵ten³⁴tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;IRR;SG;2;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;SBJV;SG;2
n⁵ndí⁵ten³⁴tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵ten³⁴tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵ten³⁴tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵ten³⁴tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵ten³⁴tzʔon³ V;SBJV;PL;3
n⁵ndí⁵ten³⁴tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PFV;PL;3;PST
n⁵ndí⁵ten³⁴tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ten³⁴tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ten³⁴tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵ten³⁴tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ten³⁴tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵ten³⁴tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hndyuá⁵ V;IRR;SG;2;FUT
n⁵ndí⁵hndyuá⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hndyuá⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵hndyuá⁵ V;PROG;SG;2;FUT
n⁵ndí⁵hndyuá⁵ V;SBJV;SG;1
n⁵ndí⁵hndyuá⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hndyuá⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hndyuá⁵ V;PFV;SG;2;PST
n⁵ndí⁵hndyuá⁵ V;IRR;SG;3;FUT
n⁵ndí⁵hndyuá⁵ V;IRR;PL;3;FUT
n⁵ndí⁵hndyuá⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵hndyuá⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵hndyuá⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵hndyuá⁵ V;PROG;PL;3;PST
n⁵ndí⁵hndyuá⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵hndyuá⁵ V;SBJV;SG;3
n⁵ndí⁵hndyuá⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hndyuá⁵ V;PROG;PL;3;FUT
n⁵ndí⁵hndyuá⁵ V;PROG;SG;2;PST
n⁵ndí⁵hndyuá⁵ V;PROG;SG;3;PST
n⁵ndí⁵hndyuá⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵hndyuá⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵hndyuá⁵ V;SBJV;PL;3
n⁵ndí⁵hndyuá⁵ V;IRR;SG;1;FUT
n⁵ndí⁵hndyuá⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hndyuá⁵ V;PROG;SG;1;PST
n⁵ndí⁵hndyuá⁵ V;PFV;PL;3;PST
n⁵ndí⁵hndyuá⁵ V;PFV;SG;1;PST
n⁵ndí⁵hndyuá⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵hndyuá⁵ V;SBJV;SG;2
n⁵ndí⁵hndyuá⁵ V;PFV;SG;3;PST
n⁵ndí⁵hndyuá⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hndyuá⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hndyuá⁵ V;PROG;SG;1;FUT
n⁵ndí⁵hndyuá⁵ V;PROG;SG;3;FUT
n⁵ndí⁵hndyuá⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IRR;SG;3;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;SG;2;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IRR;PL;1+EXCL;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;SG;2;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IPFV;SG;1;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PFV;PL;1+EXCL;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;PL;1+EXCL;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;PL;1+EXCL;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IPFV;PL;3;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IRR;PL;3;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PFV;SG;3;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;SBJV;PL;1+EXCL
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IPFV;SG;3;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;PL;1+INCL;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;SBJV;PL;1+INCL
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IRR;SG;2;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IPFV;PL;1+INCL;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;PL;3;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PFV;SG;1;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;SBJV;PL;3
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;SG;1;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;SG;1;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;PL;1+INCL;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PFV;PL;3;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;SBJV;SG;2
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IRR;PL;1+INCL;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;PL;3;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;SBJV;SG;3
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IPFV;SG;2;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IPFV;PL;1+EXCL;PRS
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;IRR;SG;1;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PFV;PL;1+INCL;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PFV;SG;2;PST
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;SG;3;FUT
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;SBJV;SG;1
n⁵ndyion³ ndʔɔ³ cheʔ¹² V;PROG;SG;3;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;SG;2;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IRR;SG;1;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;SBJV;PL;3
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PFV;SG;1;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;SBJV;SG;3
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IRR;SG;2;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PFV;PL;3;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;SG;1;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;SG;3;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PFV;SG;2;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;SG;1;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;SG;3;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;PL;3;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;SBJV;SG;2
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PFV;SG;3;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IRR;PL;3;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;SBJV;SG;1
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;PL;3;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;IRR;SG;3;FUT
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ʔndáʔ⁵nchhi³⁵ V;PROG;SG;2;PST
n⁵ndí⁵ndyoʔ³⁴ V;IPFV;PL;3;PRS
n⁵ndí⁵ndyoʔ³⁴ V;PROG;SG;3;PST
n⁵ndí⁵ndyoʔ³⁴ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ndyoʔ³⁴ V;IPFV;SG;3;PRS
n⁵ndí⁵ndyoʔ³⁴ V;IPFV;SG;2;PRS
n⁵ndí⁵ndyoʔ³⁴ V;PROG;SG;3;FUT
n⁵ndí⁵ndyoʔ³⁴ V;SBJV;SG;2
n⁵ndí⁵ndyoʔ³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ndyoʔ³⁴ V;IPFV;SG;1;PRS
n⁵ndí⁵ndyoʔ³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ndyoʔ³⁴ V;SBJV;SG;3
n⁵ndí⁵ndyoʔ³⁴ V;SBJV;PL;3
n⁵ndí⁵ndyoʔ³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ndyoʔ³⁴ V;SBJV;PL;1+INCL
n⁵ndí⁵ndyoʔ³⁴ V;PROG;SG;1;PST
n⁵ndí⁵ndyoʔ³⁴ V;IRR;SG;1;FUT
n⁵ndí⁵ndyoʔ³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ndyoʔ³⁴ V;PFV;SG;3;PST
n⁵ndí⁵ndyoʔ³⁴ V;PROG;SG;1;FUT
n⁵ndí⁵ndyoʔ³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ndyoʔ³⁴ V;PFV;SG;1;PST
n⁵ndí⁵ndyoʔ³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ndyoʔ³⁴ V;IRR;SG;2;FUT
n⁵ndí⁵ndyoʔ³⁴ V;PROG;PL;3;PST
n⁵ndí⁵ndyoʔ³⁴ V;PFV;PL;3;PST
n⁵ndí⁵ndyoʔ³⁴ V;IRR;PL;3;FUT
n⁵ndí⁵ndyoʔ³⁴ V;SBJV;SG;1
n⁵ndí⁵ndyoʔ³⁴ V;PFV;SG;2;PST
n⁵ndí⁵ndyoʔ³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ndyoʔ³⁴ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ndyoʔ³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ndyoʔ³⁴ V;PROG;SG;2;FUT
n⁵ndí⁵ndyoʔ³⁴ V;PROG;SG;2;PST
n⁵ndí⁵ndyoʔ³⁴ V;PROG;PL;3;FUT
n⁵ndí⁵ndyoʔ³⁴ V;SBJV;PL;1+EXCL
n⁵ndí⁵ndyoʔ³⁴ V;IRR;SG;3;FUT
m⁵mèʔ¹ndàʔ¹ V;PROG;PL;1+INCL;PST
m⁵mèʔ¹ndàʔ¹ V;PFV;PL;3;PST
m⁵mèʔ¹ndàʔ¹ V;PROG;PL;1+INCL;FUT
m⁵mèʔ¹ndàʔ¹ V;IRR;SG;2;FUT
m⁵mèʔ¹ndàʔ¹ V;SBJV;PL;1+INCL
m⁵mèʔ¹ndàʔ¹ V;PROG;SG;2;PST
m⁵mèʔ¹ndàʔ¹ V;PROG;SG;3;FUT
m⁵mèʔ¹ndàʔ¹ V;SBJV;PL;3
m⁵mèʔ¹ndàʔ¹ V;IPFV;SG;3;PRS
m⁵mèʔ¹ndàʔ¹ V;PROG;SG;3;PST
m⁵mèʔ¹ndàʔ¹ V;PROG;PL;1+EXCL;PST
m⁵mèʔ¹ndàʔ¹ V;SBJV;PL;1+EXCL
m⁵mèʔ¹ndàʔ¹ V;PFV;SG;2;PST
m⁵mèʔ¹ndàʔ¹ V;PROG;PL;3;PST
m⁵mèʔ¹ndàʔ¹ V;IPFV;SG;2;PRS
m⁵mèʔ¹ndàʔ¹ V;PROG;PL;3;FUT
m⁵mèʔ¹ndàʔ¹ V;IRR;PL;3;FUT
m⁵mèʔ¹ndàʔ¹ V;IRR;PL;1+EXCL;FUT
m⁵mèʔ¹ndàʔ¹ V;SBJV;SG;3
m⁵mèʔ¹ndàʔ¹ V;SBJV;SG;2
m⁵mèʔ¹ndàʔ¹ V;IPFV;SG;1;PRS
m⁵mèʔ¹ndàʔ¹ V;PFV;PL;1+EXCL;PST
m⁵mèʔ¹ndàʔ¹ V;PROG;SG;1;PST
m⁵mèʔ¹ndàʔ¹ V;IPFV;PL;3;PRS
m⁵mèʔ¹ndàʔ¹ V;IPFV;PL;1+INCL;PRS
m⁵mèʔ¹ndàʔ¹ V;IPFV;PL;1+EXCL;PRS
m⁵mèʔ¹ndàʔ¹ V;PFV;SG;1;PST
m⁵mèʔ¹ndàʔ¹ V;SBJV;SG;1
m⁵mèʔ¹ndàʔ¹ V;IRR;PL;1+INCL;FUT
m⁵mèʔ¹ndàʔ¹ V;PFV;PL;1+INCL;PST
m⁵mèʔ¹ndàʔ¹ V;PFV;SG;3;PST
m⁵mèʔ¹ndàʔ¹ V;PROG;SG;2;FUT
m⁵mèʔ¹ndàʔ¹ V;PROG;PL;1+EXCL;FUT
m⁵mèʔ¹ndàʔ¹ V;PROG;SG;1;FUT
m⁵mèʔ¹ndàʔ¹ V;IRR;SG;1;FUT
m⁵mèʔ¹ndàʔ¹ V;IRR;SG;3;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IRR;PL;1+INCL;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PFV;SG;3;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IPFV;PL;1+EXCL;PRS
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IRR;SG;3;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PFV;SG;1;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PFV;PL;1+EXCL;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;SBJV;PL;3
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IRR;SG;1;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IPFV;PL;3;PRS
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PFV;SG;2;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IPFV;PL;1+INCL;PRS
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IPFV;SG;2;PRS
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;SBJV;SG;1
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;SG;1;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PFV;PL;3;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;SG;2;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;SG;3;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;PL;1+INCL;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IRR;PL;1+EXCL;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;SG;1;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;SG;2;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;SBJV;SG;2
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IRR;PL;3;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;SBJV;PL;1+EXCL
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;PL;3;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;SBJV;SG;3
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IPFV;SG;1;PRS
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;PL;1+EXCL;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;PL;3;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;PL;1+EXCL;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;SG;3;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IPFV;SG;3;PRS
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PROG;PL;1+INCL;PST
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;SBJV;PL;1+INCL
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;IRR;SG;2;FUT
n⁵ndyiaʔ³⁵ ʔá⁵ y๠V;PFV;PL;1+INCL;PST
n⁵ndí⁵xuè¹ V;IRR;SG;2;FUT
n⁵ndí⁵xuè¹ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵xuè¹ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵xuè¹ V;PROG;SG;2;FUT
n⁵ndí⁵xuè¹ V;PFV;PL;3;PST
n⁵ndí⁵xuè¹ V;IRR;SG;3;FUT
n⁵ndí⁵xuè¹ V;PROG;SG;3;FUT
n⁵ndí⁵xuè¹ V;PROG;PL;3;FUT
n⁵ndí⁵xuè¹ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵xuè¹ V;PROG;SG;2;PST
n⁵ndí⁵xuè¹ V;IPFV;SG;1;PRS
n⁵ndí⁵xuè¹ V;SBJV;SG;3
n⁵ndí⁵xuè¹ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵xuè¹ V;IRR;PL;3;FUT
n⁵ndí⁵xuè¹ V;SBJV;PL;1+INCL
n⁵ndí⁵xuè¹ V;IPFV;SG;2;PRS
n⁵ndí⁵xuè¹ V;IPFV;SG;3;PRS
n⁵ndí⁵xuè¹ V;PFV;PL;1+INCL;PST
n⁵ndí⁵xuè¹ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵xuè¹ V;SBJV;PL;1+EXCL
n⁵ndí⁵xuè¹ V;PROG;PL;1+INCL;PST
n⁵ndí⁵xuè¹ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵xuè¹ V;PFV;SG;3;PST
n⁵ndí⁵xuè¹ V;PROG;SG;3;PST
n⁵ndí⁵xuè¹ V;PFV;SG;1;PST
n⁵ndí⁵xuè¹ V;IRR;SG;1;FUT
n⁵ndí⁵xuè¹ V;SBJV;SG;2
n⁵ndí⁵xuè¹ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵xuè¹ V;PROG;SG;1;PST
n⁵ndí⁵xuè¹ V;PFV;SG;2;PST
n⁵ndí⁵xuè¹ V;PROG;PL;3;PST
n⁵ndí⁵xuè¹ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵xuè¹ V;SBJV;SG;1
n⁵ndí⁵xuè¹ V;PROG;SG;1;FUT
n⁵ndí⁵xuè¹ V;IPFV;PL;3;PRS
n⁵ndí⁵xuè¹ V;SBJV;PL;3
n⁵ndi³nkiʔ³ xken³ V;PFV;PL;3;PST
n⁵ndi³nkiʔ³ xken³ V;IPFV;PL;1+EXCL;PRS
n⁵ndi³nkiʔ³ xken³ V;SBJV;PL;1+EXCL
n⁵ndi³nkiʔ³ xken³ V;PROG;PL;1+EXCL;FUT
n⁵ndi³nkiʔ³ xken³ V;PROG;PL;1+EXCL;PST
n⁵ndi³nkiʔ³ xken³ V;SBJV;PL;1+INCL
n⁵ndi³nkiʔ³ xken³ V;IPFV;PL;3;PRS
n⁵ndi³nkiʔ³ xken³ V;IPFV;SG;3;PRS
n⁵ndi³nkiʔ³ xken³ V;SBJV;SG;2
n⁵ndi³nkiʔ³ xken³ V;SBJV;PL;3
n⁵ndi³nkiʔ³ xken³ V;IRR;SG;3;FUT
n⁵ndi³nkiʔ³ xken³ V;PROG;SG;1;PST
n⁵ndi³nkiʔ³ xken³ V;PFV;SG;2;PST
n⁵ndi³nkiʔ³ xken³ V;PFV;SG;1;PST
n⁵ndi³nkiʔ³ xken³ V;PROG;SG;3;PST
n⁵ndi³nkiʔ³ xken³ V;PFV;PL;1+INCL;PST
n⁵ndi³nkiʔ³ xken³ V;PROG;PL;3;PST
n⁵ndi³nkiʔ³ xken³ V;IPFV;SG;1;PRS
n⁵ndi³nkiʔ³ xken³ V;PROG;SG;2;FUT
n⁵ndi³nkiʔ³ xken³ V;SBJV;SG;1
n⁵ndi³nkiʔ³ xken³ V;IRR;SG;2;FUT
n⁵ndi³nkiʔ³ xken³ V;PROG;SG;3;FUT
n⁵ndi³nkiʔ³ xken³ V;SBJV;SG;3
n⁵ndi³nkiʔ³ xken³ V;IRR;SG;1;FUT
n⁵ndi³nkiʔ³ xken³ V;PROG;PL;1+INCL;FUT
n⁵ndi³nkiʔ³ xken³ V;IRR;PL;3;FUT
n⁵ndi³nkiʔ³ xken³ V;PROG;SG;1;FUT
n⁵ndi³nkiʔ³ xken³ V;IRR;PL;1+EXCL;FUT
n⁵ndi³nkiʔ³ xken³ V;PFV;SG;3;PST
n⁵ndi³nkiʔ³ xken³ V;PROG;PL;3;FUT
n⁵ndi³nkiʔ³ xken³ V;IPFV;PL;1+INCL;PRS
n⁵ndi³nkiʔ³ xken³ V;PFV;PL;1+EXCL;PST
n⁵ndi³nkiʔ³ xken³ V;IRR;PL;1+INCL;FUT
n⁵ndi³nkiʔ³ xken³ V;PROG;SG;2;PST
n⁵ndi³nkiʔ³ xken³ V;IPFV;SG;2;PRS
n⁵ndi³nkiʔ³ xken³ V;PROG;PL;1+INCL;PST
n⁵ndyiaʔ³⁵y๠V;IPFV;SG;2;PRS
n⁵ndyiaʔ³⁵y๠V;IPFV;PL;1+INCL;PRS
n⁵ndyiaʔ³⁵y๠V;SBJV;PL;1+EXCL
n⁵ndyiaʔ³⁵y๠V;PFV;SG;1;PST
n⁵ndyiaʔ³⁵y๠V;PROG;SG;1;FUT
n⁵ndyiaʔ³⁵y๠V;IRR;SG;2;FUT
n⁵ndyiaʔ³⁵y๠V;IPFV;PL;1+EXCL;PRS
n⁵ndyiaʔ³⁵y๠V;PROG;SG;3;PST
n⁵ndyiaʔ³⁵y๠V;IRR;PL;3;FUT
n⁵ndyiaʔ³⁵y๠V;PFV;PL;1+EXCL;PST
n⁵ndyiaʔ³⁵y๠V;PFV;PL;3;PST
n⁵ndyiaʔ³⁵y๠V;PROG;SG;3;FUT
n⁵ndyiaʔ³⁵y๠V;IRR;SG;3;FUT
n⁵ndyiaʔ³⁵y๠V;IRR;SG;1;FUT
n⁵ndyiaʔ³⁵y๠V;IPFV;SG;1;PRS
n⁵ndyiaʔ³⁵y๠V;PROG;PL;3;PST
n⁵ndyiaʔ³⁵y๠V;PROG;PL;3;FUT
n⁵ndyiaʔ³⁵y๠V;SBJV;SG;2
n⁵ndyiaʔ³⁵y๠V;PFV;SG;2;PST
n⁵ndyiaʔ³⁵y๠V;IRR;PL;1+EXCL;FUT
n⁵ndyiaʔ³⁵y๠V;PROG;SG;2;FUT
n⁵ndyiaʔ³⁵y๠V;PROG;PL;1+EXCL;PST
n⁵ndyiaʔ³⁵y๠V;SBJV;SG;3
n⁵ndyiaʔ³⁵y๠V;SBJV;SG;1
n⁵ndyiaʔ³⁵y๠V;SBJV;PL;1+INCL
n⁵ndyiaʔ³⁵y๠V;PFV;PL;1+INCL;PST
n⁵ndyiaʔ³⁵y๠V;PFV;SG;3;PST
n⁵ndyiaʔ³⁵y๠V;PROG;PL;1+INCL;FUT
n⁵ndyiaʔ³⁵y๠V;SBJV;PL;3
n⁵ndyiaʔ³⁵y๠V;PROG;PL;1+INCL;PST
n⁵ndyiaʔ³⁵y๠V;PROG;SG;2;PST
n⁵ndyiaʔ³⁵y๠V;IPFV;SG;3;PRS
n⁵ndyiaʔ³⁵y๠V;PROG;PL;1+EXCL;FUT
n⁵ndyiaʔ³⁵y๠V;IRR;PL;1+INCL;FUT
n⁵ndyiaʔ³⁵y๠V;PROG;SG;1;PST
n⁵ndyiaʔ³⁵y๠V;IPFV;PL;3;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;PL;3;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;SG;3;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;IPFV;SG;3;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;SBJV;PL;1+EXCL
n⁵ndí⁵bìʔ¹tza³⁴ V;PFV;SG;1;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;SBJV;PL;3
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;SG;2;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;SBJV;SG;2
n⁵ndí⁵bìʔ¹tza³⁴ V;IPFV;PL;3;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;PFV;PL;3;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;PFV;PL;1+INCL;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;SBJV;SG;3
n⁵ndí⁵bìʔ¹tza³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;PL;1+INCL;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;PL;3;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;SG;3;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;SG;1;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;IRR;SG;3;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;SBJV;SG;1
n⁵ndí⁵bìʔ¹tza³⁴ V;IPFV;SG;1;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;PFV;SG;2;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;IPFV;SG;2;PRS
n⁵ndí⁵bìʔ¹tza³⁴ V;PFV;SG;3;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;IRR;SG;1;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;SG;1;PST
n⁵ndí⁵bìʔ¹tza³⁴ V;IRR;SG;2;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;IRR;PL;3;FUT
n⁵ndí⁵bìʔ¹tza³⁴ V;SBJV;PL;1+INCL
n⁵ndí⁵bìʔ¹tza³⁴ V;PROG;SG;2;PST
n⁵nduèʔ¹ V;IRR;SG;3;FUT
n⁵nduèʔ¹ V;IPFV;SG;1;PRS
n⁵nduèʔ¹ V;IRR;SG;1;FUT
n⁵nduèʔ¹ V;PFV;PL;1+INCL;PST
n⁵nduèʔ¹ V;SBJV;PL;3
n⁵nduèʔ¹ V;PROG;PL;3;PST
n⁵nduèʔ¹ V;PROG;SG;2;FUT
n⁵nduèʔ¹ V;PROG;PL;1+EXCL;PST
n⁵nduèʔ¹ V;IPFV;PL;3;PRS
n⁵nduèʔ¹ V;PROG;PL;1+INCL;FUT
n⁵nduèʔ¹ V;PFV;PL;3;PST
n⁵nduèʔ¹ V;PFV;SG;1;PST
n⁵nduèʔ¹ V;PROG;SG;1;PST
n⁵nduèʔ¹ V;SBJV;SG;3
n⁵nduèʔ¹ V;PROG;PL;1+EXCL;FUT
n⁵nduèʔ¹ V;PFV;SG;3;PST
n⁵nduèʔ¹ V;SBJV;PL;1+EXCL
n⁵nduèʔ¹ V;PROG;SG;2;PST
n⁵nduèʔ¹ V;PROG;PL;3;FUT
n⁵nduèʔ¹ V;IRR;PL;3;FUT
n⁵nduèʔ¹ V;IPFV;PL;1+INCL;PRS
n⁵nduèʔ¹ V;PFV;PL;1+EXCL;PST
n⁵nduèʔ¹ V;IRR;PL;1+EXCL;FUT
n⁵nduèʔ¹ V;PROG;SG;1;FUT
n⁵nduèʔ¹ V;PFV;SG;2;PST
n⁵nduèʔ¹ V;IPFV;SG;2;PRS
n⁵nduèʔ¹ V;SBJV;SG;2
n⁵nduèʔ¹ V;PROG;SG;3;PST
n⁵nduèʔ¹ V;SBJV;SG;1
n⁵nduèʔ¹ V;IRR;PL;1+INCL;FUT
n⁵nduèʔ¹ V;IPFV;SG;3;PRS
n⁵nduèʔ¹ V;IRR;SG;2;FUT
n⁵nduèʔ¹ V;PROG;PL;1+INCL;PST
n⁵nduèʔ¹ V;PROG;SG;3;FUT
n⁵nduèʔ¹ V;SBJV;PL;1+INCL
n⁵nduèʔ¹ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵tyʔ๠V;PROG;PL;3;FUT
n⁵ndí⁵tyʔ๠V;IRR;PL;3;FUT
n⁵ndí⁵tyʔ๠V;PROG;SG;2;FUT
n⁵ndí⁵tyʔ๠V;PFV;SG;2;PST
n⁵ndí⁵tyʔ๠V;IPFV;PL;3;PRS
n⁵ndí⁵tyʔ๠V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵tyʔ๠V;PROG;SG;3;FUT
n⁵ndí⁵tyʔ๠V;PFV;PL;1+INCL;PST
n⁵ndí⁵tyʔ๠V;IRR;SG;3;FUT
n⁵ndí⁵tyʔ๠V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵tyʔ๠V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵tyʔ๠V;IPFV;SG;1;PRS
n⁵ndí⁵tyʔ๠V;PROG;PL;1+INCL;PST
n⁵ndí⁵tyʔ๠V;PROG;SG;2;PST
n⁵ndí⁵tyʔ๠V;PROG;PL;1+INCL;FUT
n⁵ndí⁵tyʔ๠V;SBJV;PL;1+EXCL
n⁵ndí⁵tyʔ๠V;PFV;PL;3;PST
n⁵ndí⁵tyʔ๠V;PFV;PL;1+EXCL;PST
n⁵ndí⁵tyʔ๠V;SBJV;PL;3
n⁵ndí⁵tyʔ๠V;IRR;SG;2;FUT
n⁵ndí⁵tyʔ๠V;IRR;SG;1;FUT
n⁵ndí⁵tyʔ๠V;SBJV;PL;1+INCL
n⁵ndí⁵tyʔ๠V;PROG;SG;1;FUT
n⁵ndí⁵tyʔ๠V;IPFV;SG;3;PRS
n⁵ndí⁵tyʔ๠V;IPFV;SG;2;PRS
n⁵ndí⁵tyʔ๠V;PROG;SG;1;PST
n⁵ndí⁵tyʔ๠V;SBJV;SG;1
n⁵ndí⁵tyʔ๠V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tyʔ๠V;SBJV;SG;2
n⁵ndí⁵tyʔ๠V;PROG;PL;3;PST
n⁵ndí⁵tyʔ๠V;IRR;PL;1+INCL;FUT
n⁵ndí⁵tyʔ๠V;PROG;SG;3;PST
n⁵ndí⁵tyʔ๠V;PFV;SG;3;PST
n⁵ndí⁵tyʔ๠V;SBJV;SG;3
n⁵ndí⁵tyʔ๠V;PFV;SG;1;PST
n⁵ndí⁵tyʔ๠V;IPFV;PL;1+EXCL;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;SBJV;PL;1+INCL
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;PL;1+INCL;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;PL;3;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IRR;SG;3;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;SG;2;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PFV;SG;1;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;SBJV;SG;3
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IRR;SG;2;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IPFV;SG;1;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IRR;PL;3;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IPFV;SG;2;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PFV;PL;1+INCL;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PFV;PL;3;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IPFV;SG;3;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;PL;3;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;SBJV;SG;1
n⁵ndyiaʔ³⁵nioʔ³⁴ V;SBJV;PL;3
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;SG;2;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PFV;SG;3;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;SBJV;PL;1+EXCL
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IPFV;PL;3;PRS
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;SG;3;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;IRR;SG;1;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PFV;SG;2;PST
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;SG;3;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;SBJV;SG;2
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;SG;1;FUT
n⁵ndyiaʔ³⁵nioʔ³⁴ V;PROG;SG;1;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;PL;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PFV;SG;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;SG;1;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;SG;2;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;PL;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;SBJV;SG;2
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;SBJV;SG;1
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IRR;SG;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IRR;SG;1;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;SG;2;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;SBJV;PL;3
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PFV;PL;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IRR;PL;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;SG;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;SBJV;SG;3
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;SG;1;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;IRR;SG;2;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PROG;SG;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PFV;SG;2;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵hnó⁵ V;PFV;SG;1;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;PL;1+EXCL;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;IRR;PL;3;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;SBJV;SG;1
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;SG;1;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;IRR;SG;2;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;IPFV;PL;3;PRS
n⁵ndyio³ hñò¹tzʔon⁵³ V;IPFV;PL;1+INCL;PRS
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;SG;2;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;PFV;SG;1;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PFV;PL;3;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PFV;PL;1+EXCL;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;SBJV;SG;3
n⁵ndyio³ hñò¹tzʔon⁵³ V;IPFV;SG;3;PRS
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;PL;1+INCL;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;SBJV;PL;1+INCL
n⁵ndyio³ hñò¹tzʔon⁵³ V;SBJV;SG;2
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;PL;3;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;PL;3;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;SG;2;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;SG;3;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;PFV;PL;1+INCL;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;IRR;SG;1;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;IPFV;PL;1+EXCL;PRS
n⁵ndyio³ hñò¹tzʔon⁵³ V;IPFV;SG;2;PRS
n⁵ndyio³ hñò¹tzʔon⁵³ V;IRR;PL;1+INCL;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;SBJV;PL;1+EXCL
n⁵ndyio³ hñò¹tzʔon⁵³ V;IPFV;SG;1;PRS
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;SG;1;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;IRR;SG;3;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;SG;3;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;PL;1+EXCL;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;SBJV;PL;3
n⁵ndyio³ hñò¹tzʔon⁵³ V;IRR;PL;1+EXCL;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;PFV;SG;3;PST
n⁵ndyio³ hñò¹tzʔon⁵³ V;PROG;PL;1+INCL;FUT
n⁵ndyio³ hñò¹tzʔon⁵³ V;PFV;SG;2;PST
n⁵ndɛ³⁵ V;PROG;SG;3;FUT
n⁵ndɛ³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndɛ³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndɛ³⁵ V;PROG;PL;3;PST
n⁵ndɛ³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndɛ³⁵ V;PROG;SG;2;FUT
n⁵ndɛ³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndɛ³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndɛ³⁵ V;PFV;SG;3;PST
n⁵ndɛ³⁵ V;PFV;PL;1+INCL;PST
n⁵ndɛ³⁵ V;SBJV;SG;1
n⁵ndɛ³⁵ V;PFV;SG;2;PST
n⁵ndɛ³⁵ V;IRR;SG;3;FUT
n⁵ndɛ³⁵ V;PROG;SG;1;FUT
n⁵ndɛ³⁵ V;SBJV;PL;1+EXCL
n⁵ndɛ³⁵ V;PROG;SG;3;PST
n⁵ndɛ³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndɛ³⁵ V;PROG;PL;3;FUT
n⁵ndɛ³⁵ V;IPFV;SG;1;PRS
n⁵ndɛ³⁵ V;SBJV;PL;3
n⁵ndɛ³⁵ V;IRR;SG;1;FUT
n⁵ndɛ³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndɛ³⁵ V;SBJV;SG;3
n⁵ndɛ³⁵ V;IPFV;SG;2;PRS
n⁵ndɛ³⁵ V;SBJV;SG;2
n⁵ndɛ³⁵ V;IPFV;SG;3;PRS
n⁵ndɛ³⁵ V;IRR;PL;3;FUT
n⁵ndɛ³⁵ V;PROG;SG;1;PST
n⁵ndɛ³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndɛ³⁵ V;PROG;PL;1+INCL;PST
n⁵ndɛ³⁵ V;PROG;SG;2;PST
n⁵ndɛ³⁵ V;IRR;SG;2;FUT
n⁵ndɛ³⁵ V;IPFV;PL;3;PRS
n⁵ndɛ³⁵ V;SBJV;PL;1+INCL
n⁵ndɛ³⁵ V;PFV;SG;1;PST
n⁵ndɛ³⁵ V;PFV;PL;3;PST
n⁵ndí⁵kí⁵chì¹ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵chì¹ V;PFV;PL;1+INCL;PST
n⁵ndí⁵kí⁵chì¹ V;PROG;SG;3;FUT
n⁵ndí⁵kí⁵chì¹ V;SBJV;PL;1+INCL
n⁵ndí⁵kí⁵chì¹ V;IPFV;SG;1;PRS
n⁵ndí⁵kí⁵chì¹ V;PFV;SG;2;PST
n⁵ndí⁵kí⁵chì¹ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵kí⁵chì¹ V;IRR;PL;3;FUT
n⁵ndí⁵kí⁵chì¹ V;SBJV;SG;1
n⁵ndí⁵kí⁵chì¹ V;IRR;SG;2;FUT
n⁵ndí⁵kí⁵chì¹ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵kí⁵chì¹ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵chì¹ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵kí⁵chì¹ V;IPFV;SG;2;PRS
n⁵ndí⁵kí⁵chì¹ V;PROG;PL;3;PST
n⁵ndí⁵kí⁵chì¹ V;IPFV;PL;3;PRS
n⁵ndí⁵kí⁵chì¹ V;PROG;PL;1+INCL;PST
n⁵ndí⁵kí⁵chì¹ V;SBJV;PL;3
n⁵ndí⁵kí⁵chì¹ V;PFV;SG;1;PST
n⁵ndí⁵kí⁵chì¹ V;IPFV;SG;3;PRS
n⁵ndí⁵kí⁵chì¹ V;PROG;SG;2;FUT
n⁵ndí⁵kí⁵chì¹ V;PROG;SG;2;PST
n⁵ndí⁵kí⁵chì¹ V;IRR;SG;3;FUT
n⁵ndí⁵kí⁵chì¹ V;IRR;SG;1;FUT
n⁵ndí⁵kí⁵chì¹ V;SBJV;SG;2
n⁵ndí⁵kí⁵chì¹ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵kí⁵chì¹ V;SBJV;PL;1+EXCL
n⁵ndí⁵kí⁵chì¹ V;PROG;PL;3;FUT
n⁵ndí⁵kí⁵chì¹ V;SBJV;SG;3
n⁵ndí⁵kí⁵chì¹ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵kí⁵chì¹ V;PROG;SG;3;PST
n⁵ndí⁵kí⁵chì¹ V;PROG;SG;1;FUT
n⁵ndí⁵kí⁵chì¹ V;PFV;PL;3;PST
n⁵ndí⁵kí⁵chì¹ V;PROG;SG;1;PST
n⁵ndí⁵kí⁵chì¹ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵kí⁵chì¹ V;PFV;SG;3;PST
n⁵ndí⁵tzhɔ³⁴ V;SBJV;SG;2
n⁵ndí⁵tzhɔ³⁴ V;PROG;SG;1;PST
n⁵ndí⁵tzhɔ³⁴ V;IRR;SG;1;FUT
n⁵ndí⁵tzhɔ³⁴ V;SBJV;PL;1+INCL
n⁵ndí⁵tzhɔ³⁴ V;SBJV;PL;1+EXCL
n⁵ndí⁵tzhɔ³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵tzhɔ³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵tzhɔ³⁴ V;IRR;PL;3;FUT
n⁵ndí⁵tzhɔ³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵tzhɔ³⁴ V;IRR;SG;3;FUT
n⁵ndí⁵tzhɔ³⁴ V;PROG;SG;1;FUT
n⁵ndí⁵tzhɔ³⁴ V;PFV;PL;3;PST
n⁵ndí⁵tzhɔ³⁴ V;IRR;SG;2;FUT
n⁵ndí⁵tzhɔ³⁴ V;IPFV;SG;2;PRS
n⁵ndí⁵tzhɔ³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵tzhɔ³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵tzhɔ³⁴ V;PROG;SG;3;PST
n⁵ndí⁵tzhɔ³⁴ V;PROG;PL;1+INCL;PST
n⁵ndí⁵tzhɔ³⁴ V;PFV;SG;1;PST
n⁵ndí⁵tzhɔ³⁴ V;PROG;PL;3;PST
n⁵ndí⁵tzhɔ³⁴ V;PROG;SG;2;PST
n⁵ndí⁵tzhɔ³⁴ V;SBJV;SG;3
n⁵ndí⁵tzhɔ³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵tzhɔ³⁴ V;PROG;PL;3;FUT
n⁵ndí⁵tzhɔ³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵tzhɔ³⁴ V;IPFV;PL;3;PRS
n⁵ndí⁵tzhɔ³⁴ V;SBJV;PL;3
n⁵ndí⁵tzhɔ³⁴ V;PROG;SG;2;FUT
n⁵ndí⁵tzhɔ³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tzhɔ³⁴ V;IPFV;SG;3;PRS
n⁵ndí⁵tzhɔ³⁴ V;IPFV;SG;1;PRS
n⁵ndí⁵tzhɔ³⁴ V;PROG;SG;3;FUT
n⁵ndí⁵tzhɔ³⁴ V;PFV;PL;1+INCL;PST
n⁵ndí⁵tzhɔ³⁴ V;SBJV;SG;1
n⁵ndí⁵tzhɔ³⁴ V;PFV;SG;2;PST
n⁵ndí⁵tzhɔ³⁴ V;PFV;SG;3;PST
n⁵ndí⁵kí⁵tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵kí⁵tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵kí⁵tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵kí⁵tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵kí⁵tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵kí⁵tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵kí⁵tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵kí⁵tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵kí⁵tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵kí⁵tzʔon³ V;SBJV;PL;3
n⁵ndí⁵kí⁵tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵kí⁵tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵kí⁵tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵kí⁵tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵kí⁵tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵kí⁵tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵kí⁵tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵kí⁵tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵kí⁵tzʔon³ V;IRR;SG;2;FUT
n⁵ndí⁵kí⁵tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵kí⁵tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵kí⁵tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵kí⁵tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵kí⁵tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵kí⁵tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵kí⁵tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵kí⁵tzʔon³ V;PFV;PL;3;PST
n⁵ndí⁵kí⁵tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵kí⁵tzʔon³ V;SBJV;SG;2
n⁵ndí⁵kí⁵tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵kí⁵tzʔon³ V;SBJV;SG;3
n⁵ndí⁵kí⁵tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵kí⁵tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵kí⁵tzʔon³ V;SBJV;SG;1
n⁵nduìʔ¹xʔon⁵³ V;IPFV;PL;1+INCL;PRS
n⁵nduìʔ¹xʔon⁵³ V;PROG;SG;2;FUT
n⁵nduìʔ¹xʔon⁵³ V;PFV;SG;1;PST
n⁵nduìʔ¹xʔon⁵³ V;PFV;SG;3;PST
n⁵nduìʔ¹xʔon⁵³ V;PROG;PL;3;FUT
n⁵nduìʔ¹xʔon⁵³ V;PROG;SG;1;FUT
n⁵nduìʔ¹xʔon⁵³ V;PROG;SG;3;PST
n⁵nduìʔ¹xʔon⁵³ V;IRR;PL;3;FUT
n⁵nduìʔ¹xʔon⁵³ V;PFV;SG;2;PST
n⁵nduìʔ¹xʔon⁵³ V;IPFV;SG;2;PRS
n⁵nduìʔ¹xʔon⁵³ V;PFV;PL;3;PST
n⁵nduìʔ¹xʔon⁵³ V;SBJV;SG;2
n⁵nduìʔ¹xʔon⁵³ V;PROG;PL;1+EXCL;FUT
n⁵nduìʔ¹xʔon⁵³ V;IRR;SG;3;FUT
n⁵nduìʔ¹xʔon⁵³ V;IRR;PL;1+EXCL;FUT
n⁵nduìʔ¹xʔon⁵³ V;PROG;PL;3;PST
n⁵nduìʔ¹xʔon⁵³ V;PROG;PL;1+EXCL;PST
n⁵nduìʔ¹xʔon⁵³ V;PROG;PL;1+INCL;PST
n⁵nduìʔ¹xʔon⁵³ V;PROG;SG;2;PST
n⁵nduìʔ¹xʔon⁵³ V;PFV;PL;1+EXCL;PST
n⁵nduìʔ¹xʔon⁵³ V;IRR;PL;1+INCL;FUT
n⁵nduìʔ¹xʔon⁵³ V;PROG;PL;1+INCL;FUT
n⁵nduìʔ¹xʔon⁵³ V;SBJV;PL;1+EXCL
n⁵nduìʔ¹xʔon⁵³ V;IRR;SG;2;FUT
n⁵nduìʔ¹xʔon⁵³ V;SBJV;PL;3
n⁵nduìʔ¹xʔon⁵³ V;IPFV;PL;3;PRS
n⁵nduìʔ¹xʔon⁵³ V;SBJV;PL;1+INCL
n⁵nduìʔ¹xʔon⁵³ V;SBJV;SG;3
n⁵nduìʔ¹xʔon⁵³ V;IPFV;PL;1+EXCL;PRS
n⁵nduìʔ¹xʔon⁵³ V;PROG;SG;1;PST
n⁵nduìʔ¹xʔon⁵³ V;IPFV;SG;1;PRS
n⁵nduìʔ¹xʔon⁵³ V;SBJV;SG;1
n⁵nduìʔ¹xʔon⁵³ V;IPFV;SG;3;PRS
n⁵nduìʔ¹xʔon⁵³ V;PROG;SG;3;FUT
n⁵nduìʔ¹xʔon⁵³ V;PFV;PL;1+INCL;PST
n⁵nduìʔ¹xʔon⁵³ V;IRR;SG;1;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵tɛʔ⁵tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PFV;PL;3;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;SBJV;SG;3
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵tɛʔ⁵tzʔon³ V;SBJV;PL;3
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IRR;SG;2;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵tɛʔ⁵tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵tɛʔ⁵tzʔon³ V;SBJV;SG;1
n⁵ndí⁵tɛʔ⁵tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵tɛʔ⁵tzʔon³ V;SBJV;SG;2
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;SBJV;PL;3
n⁵ndí⁵beʔ¹²tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵beʔ¹²tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;SBJV;SG;2
n⁵ndí⁵beʔ¹²tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵beʔ¹²tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵beʔ¹²tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵beʔ¹²tzʔon³ V;PFV;PL;3;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;SBJV;SG;3
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;IRR;SG;2;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵beʔ¹²tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵beʔ¹²tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵beʔ¹²tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵beʔ¹²tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵beʔ¹²tzʔon³ V;SBJV;SG;1
n⁵ndí⁵tzan¹²tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵tzan¹²tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tzan¹²tzʔon³ V;SBJV;SG;2
n⁵ndí⁵tzan¹²tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵tzan¹²tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;SBJV;PL;3
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵tzan¹²tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵tzan¹²tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵tzan¹²tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵tzan¹²tzʔon³ V;SBJV;SG;3
n⁵ndí⁵tzan¹²tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;SBJV;SG;1
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵tzan¹²tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵tzan¹²tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵tzan¹²tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;PFV;PL;3;PST
n⁵ndí⁵tzan¹²tzʔon³ V;IRR;SG;2;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵tzan¹²tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵tzan¹²tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵tzan¹²tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵tzan¹²tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PFV;SG;3;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IRR;SG;3;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IPFV;SG;1;PRS
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;SG;2;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PFV;PL;3;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;SBJV;SG;3
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;SG;1;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PFV;SG;1;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵bìʔ¹nʔa⁵³ V;SBJV;SG;1
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;PL;3;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;SG;2;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IRR;SG;2;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;SBJV;PL;1+EXCL
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IPFV;SG;3;PRS
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IRR;SG;1;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;SG;1;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;PL;3;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IRR;PL;3;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IPFV;SG;2;PRS
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;SG;3;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;SBJV;SG;2
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PFV;SG;2;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;IPFV;PL;3;PRS
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;SBJV;PL;1+INCL
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵bìʔ¹nʔa⁵³ V;SBJV;PL;3
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵bìʔ¹nʔa⁵³ V;PROG;SG;3;PST
n⁵ndí⁵sʔ๠V;PROG;PL;3;PST
n⁵ndí⁵sʔ๠V;IRR;PL;1+INCL;FUT
n⁵ndí⁵sʔ๠V;SBJV;SG;3
n⁵ndí⁵sʔ๠V;IRR;SG;3;FUT
n⁵ndí⁵sʔ๠V;PROG;PL;3;FUT
n⁵ndí⁵sʔ๠V;IPFV;SG;3;PRS
n⁵ndí⁵sʔ๠V;PROG;PL;1+EXCL;PST
n⁵ndí⁵sʔ๠V;PROG;SG;3;FUT
n⁵ndí⁵sʔ๠V;IRR;SG;2;FUT
n⁵ndí⁵sʔ๠V;IPFV;PL;3;PRS
n⁵ndí⁵sʔ๠V;IPFV;SG;2;PRS
n⁵ndí⁵sʔ๠V;PFV;SG;2;PST
n⁵ndí⁵sʔ๠V;IPFV;SG;1;PRS
n⁵ndí⁵sʔ๠V;PFV;PL;3;PST
n⁵ndí⁵sʔ๠V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵sʔ๠V;PROG;SG;3;PST
n⁵ndí⁵sʔ๠V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵sʔ๠V;PROG;SG;2;FUT
n⁵ndí⁵sʔ๠V;PFV;PL;1+EXCL;PST
n⁵ndí⁵sʔ๠V;SBJV;SG;1
n⁵ndí⁵sʔ๠V;PROG;PL;1+INCL;PST
n⁵ndí⁵sʔ๠V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵sʔ๠V;PFV;SG;1;PST
n⁵ndí⁵sʔ๠V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵sʔ๠V;SBJV;PL;3
n⁵ndí⁵sʔ๠V;SBJV;PL;1+EXCL
n⁵ndí⁵sʔ๠V;SBJV;SG;2
n⁵ndí⁵sʔ๠V;IRR;SG;1;FUT
n⁵ndí⁵sʔ๠V;PROG;SG;2;PST
n⁵ndí⁵sʔ๠V;PFV;PL;1+INCL;PST
n⁵ndí⁵sʔ๠V;PFV;SG;3;PST
n⁵ndí⁵sʔ๠V;PROG;SG;1;FUT
n⁵ndí⁵sʔ๠V;PROG;SG;1;PST
n⁵ndí⁵sʔ๠V;PROG;PL;1+INCL;FUT
n⁵ndí⁵sʔ๠V;SBJV;PL;1+INCL
n⁵ndí⁵sʔ๠V;IRR;PL;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;SBJV;PL;1+EXCL
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IPFV;SG;2;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;SBJV;PL;3
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;SG;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;SBJV;SG;3
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;SG;1;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IRR;PL;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;PL;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;SBJV;SG;1
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IRR;SG;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;SG;2;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;SG;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PFV;SG;1;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;SBJV;SG;2
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;PL;3;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IRR;SG;1;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IPFV;SG;1;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;SBJV;PL;1+INCL
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IRR;SG;2;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PFV;SG;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PFV;SG;2;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;SG;2;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IPFV;PL;3;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PFV;PL;3;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IPFV;SG;3;PRS
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;PROG;SG;1;PST
n⁵ndí⁵ñèʔ¹ ki³tzí⁵nè¹ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hnaʔ¹² V;IRR;SG;1;FUT
n⁵ndí⁵hnaʔ¹² V;IPFV;PL;3;PRS
n⁵ndí⁵hnaʔ¹² V;PROG;SG;2;PST
n⁵ndí⁵hnaʔ¹² V;IRR;SG;3;FUT
n⁵ndí⁵hnaʔ¹² V;SBJV;PL;1+INCL
n⁵ndí⁵hnaʔ¹² V;PROG;SG;2;FUT
n⁵ndí⁵hnaʔ¹² V;PFV;SG;2;PST
n⁵ndí⁵hnaʔ¹² V;PROG;SG;3;PST
n⁵ndí⁵hnaʔ¹² V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hnaʔ¹² V;PROG;PL;3;PST
n⁵ndí⁵hnaʔ¹² V;IPFV;SG;2;PRS
n⁵ndí⁵hnaʔ¹² V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hnaʔ¹² V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hnaʔ¹² V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hnaʔ¹² V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hnaʔ¹² V;PROG;SG;1;PST
n⁵ndí⁵hnaʔ¹² V;PFV;SG;1;PST
n⁵ndí⁵hnaʔ¹² V;IRR;PL;3;FUT
n⁵ndí⁵hnaʔ¹² V;PFV;PL;1+INCL;PST
n⁵ndí⁵hnaʔ¹² V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hnaʔ¹² V;IPFV;SG;3;PRS
n⁵ndí⁵hnaʔ¹² V;PROG;PL;3;FUT
n⁵ndí⁵hnaʔ¹² V;SBJV;PL;1+EXCL
n⁵ndí⁵hnaʔ¹² V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵hnaʔ¹² V;PROG;SG;1;FUT
n⁵ndí⁵hnaʔ¹² V;SBJV;SG;1
n⁵ndí⁵hnaʔ¹² V;PFV;PL;3;PST
n⁵ndí⁵hnaʔ¹² V;SBJV;SG;2
n⁵ndí⁵hnaʔ¹² V;PROG;SG;3;FUT
n⁵ndí⁵hnaʔ¹² V;SBJV;PL;3
n⁵ndí⁵hnaʔ¹² V;IPFV;SG;1;PRS
n⁵ndí⁵hnaʔ¹² V;SBJV;SG;3
n⁵ndí⁵hnaʔ¹² V;PROG;PL;1+INCL;PST
n⁵ndí⁵hnaʔ¹² V;IRR;SG;2;FUT
n⁵ndí⁵hnaʔ¹² V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hnaʔ¹² V;PFV;SG;3;PST
n⁵ndoʔ³ V;IPFV;SG;1;PRS
n⁵ndoʔ³ V;IRR;SG;3;FUT
n⁵ndoʔ³ V;PROG;SG;1;PST
n⁵ndoʔ³ V;SBJV;PL;1+EXCL
n⁵ndoʔ³ V;PFV;SG;1;PST
n⁵ndoʔ³ V;PROG;SG;2;PST
n⁵ndoʔ³ V;IRR;PL;1+EXCL;FUT
n⁵ndoʔ³ V;SBJV;SG;3
n⁵ndoʔ³ V;PROG;PL;3;FUT
n⁵ndoʔ³ V;PFV;SG;2;PST
n⁵ndoʔ³ V;IRR;PL;1+INCL;FUT
n⁵ndoʔ³ V;PROG;PL;3;PST
n⁵ndoʔ³ V;SBJV;PL;1+INCL
n⁵ndoʔ³ V;IRR;SG;2;FUT
n⁵ndoʔ³ V;PFV;SG;3;PST
n⁵ndoʔ³ V;SBJV;PL;3
n⁵ndoʔ³ V;PFV;PL;1+EXCL;PST
n⁵ndoʔ³ V;PFV;PL;3;PST
n⁵ndoʔ³ V;PROG;SG;3;PST
n⁵ndoʔ³ V;IPFV;PL;3;PRS
n⁵ndoʔ³ V;PFV;PL;1+INCL;PST
n⁵ndoʔ³ V;PROG;PL;1+INCL;PST
n⁵ndoʔ³ V;IRR;PL;3;FUT
n⁵ndoʔ³ V;SBJV;SG;1
n⁵ndoʔ³ V;IPFV;PL;1+EXCL;PRS
n⁵ndoʔ³ V;IRR;SG;1;FUT
n⁵ndoʔ³ V;PROG;PL;1+INCL;FUT
n⁵ndoʔ³ V;SBJV;SG;2
n⁵ndoʔ³ V;PROG;PL;1+EXCL;FUT
n⁵ndoʔ³ V;PROG;SG;3;FUT
n⁵ndoʔ³ V;PROG;PL;1+EXCL;PST
n⁵ndoʔ³ V;IPFV;SG;3;PRS
n⁵ndoʔ³ V;PROG;SG;2;FUT
n⁵ndoʔ³ V;IPFV;SG;2;PRS
n⁵ndoʔ³ V;IPFV;PL;1+INCL;PRS
n⁵ndoʔ³ V;PROG;SG;1;FUT
n⁵ndí⁵kí⁵xʔen V;SBJV;PL;3
n⁵ndí⁵kí⁵xʔen V;IRR;PL;1+INCL;FUT
n⁵ndí⁵kí⁵xʔen V;IRR;PL;3;FUT
n⁵ndí⁵kí⁵xʔen V;PROG;SG;2;FUT
n⁵ndí⁵kí⁵xʔen V;PFV;PL;1+EXCL;PST
n⁵ndí⁵kí⁵xʔen V;IPFV;SG;1;PRS
n⁵ndí⁵kí⁵xʔen V;SBJV;SG;1
n⁵ndí⁵kí⁵xʔen V;IPFV;SG;2;PRS
n⁵ndí⁵kí⁵xʔen V;IPFV;PL;3;PRS
n⁵ndí⁵kí⁵xʔen V;SBJV;PL;1+INCL
n⁵ndí⁵kí⁵xʔen V;PROG;SG;2;PST
n⁵ndí⁵kí⁵xʔen V;PROG;SG;3;FUT
n⁵ndí⁵kí⁵xʔen V;SBJV;SG;3
n⁵ndí⁵kí⁵xʔen V;IRR;SG;3;FUT
n⁵ndí⁵kí⁵xʔen V;IRR;SG;2;FUT
n⁵ndí⁵kí⁵xʔen V;PFV;SG;2;PST
n⁵ndí⁵kí⁵xʔen V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵kí⁵xʔen V;IPFV;SG;3;PRS
n⁵ndí⁵kí⁵xʔen V;PROG;PL;1+INCL;PST
n⁵ndí⁵kí⁵xʔen V;PFV;SG;3;PST
n⁵ndí⁵kí⁵xʔen V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵xʔen V;IRR;SG;1;FUT
n⁵ndí⁵kí⁵xʔen V;PROG;SG;1;FUT
n⁵ndí⁵kí⁵xʔen V;PROG;SG;1;PST
n⁵ndí⁵kí⁵xʔen V;PFV;PL;3;PST
n⁵ndí⁵kí⁵xʔen V;PROG;PL;3;PST
n⁵ndí⁵kí⁵xʔen V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵kí⁵xʔen V;PROG;SG;3;PST
n⁵ndí⁵kí⁵xʔen V;PFV;PL;1+INCL;PST
n⁵ndí⁵kí⁵xʔen V;SBJV;SG;2
n⁵ndí⁵kí⁵xʔen V;PROG;PL;3;FUT
n⁵ndí⁵kí⁵xʔen V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵kí⁵xʔen V;PFV;SG;1;PST
n⁵ndí⁵kí⁵xʔen V;PROG;PL;1+EXCL;PST
n⁵ndí⁵kí⁵xʔen V;PROG;PL;1+INCL;FUT
n⁵ndí⁵kí⁵xʔen V;SBJV;PL;1+EXCL
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;SBJV;SG;3
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;SBJV;SG;2
n⁵ndí⁵ñèʔ¹ ki³ta³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;SG;2;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PFV;SG;3;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;SG;3;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;PL;3;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;SG;1;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PFV;SG;2;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;SBJV;PL;1+INCL
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;SG;3;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IPFV;SG;3;PRS
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IPFV;SG;2;PRS
n⁵ndí⁵ñèʔ¹ ki³ta³ V;SBJV;SG;1
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IRR;PL;3;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;SG;2;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IRR;SG;3;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;SBJV;PL;3
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IRR;SG;2;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IPFV;SG;1;PRS
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;SG;1;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IPFV;PL;3;PRS
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PFV;SG;1;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PFV;PL;3;PST
n⁵ndí⁵ñèʔ¹ ki³ta³ V;IRR;SG;1;FUT
n⁵ndí⁵ñèʔ¹ ki³ta³ V;PROG;PL;3;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PFV;SG;1;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IPFV;SG;1;PRS
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;SBJV;SG;1
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PFV;SG;3;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IRR;SG;1;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;SG;2;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;SBJV;PL;1+INCL
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;SG;3;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IPFV;SG;3;PRS
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;SG;1;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PFV;PL;3;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;SBJV;PL;3
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PFV;SG;2;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;SBJV;SG;3
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;SG;1;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;PL;3;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;SG;2;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IRR;SG;3;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IPFV;SG;2;PRS
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IRR;PL;3;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IPFV;PL;3;PRS
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IRR;SG;2;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;SG;3;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;SBJV;SG;2
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PROG;PL;3;FUT
n⁵ndí⁵ndyóʔ⁵ xtyoʔ³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ki³ndyaʔ³ V;PROG;SG;1;PST
n⁵ndí⁵ki³ndyaʔ³ V;SBJV;PL;3
n⁵ndí⁵ki³ndyaʔ³ V;PROG;SG;1;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;PL;3;PST
n⁵ndí⁵ki³ndyaʔ³ V;PFV;SG;1;PST
n⁵ndí⁵ki³ndyaʔ³ V;IRR;SG;1;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PFV;PL;3;PST
n⁵ndí⁵ki³ndyaʔ³ V;IRR;PL;3;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;SG;2;PST
n⁵ndí⁵ki³ndyaʔ³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ki³ndyaʔ³ V;SBJV;PL;1+INCL
n⁵ndí⁵ki³ndyaʔ³ V;IPFV;SG;1;PRS
n⁵ndí⁵ki³ndyaʔ³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ki³ndyaʔ³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;SG;3;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PFV;SG;2;PST
n⁵ndí⁵ki³ndyaʔ³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ki³ndyaʔ³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ki³ndyaʔ³ V;IPFV;SG;3;PRS
n⁵ndí⁵ki³ndyaʔ³ V;IPFV;PL;3;PRS
n⁵ndí⁵ki³ndyaʔ³ V;IRR;SG;3;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;PL;3;FUT
n⁵ndí⁵ki³ndyaʔ³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ki³ndyaʔ³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ki³ndyaʔ³ V;PROG;SG;2;FUT
n⁵ndí⁵ki³ndyaʔ³ V;SBJV;SG;3
n⁵ndí⁵ki³ndyaʔ³ V;SBJV;SG;2
n⁵ndí⁵ki³ndyaʔ³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ki³ndyaʔ³ V;SBJV;SG;1
n⁵ndí⁵ki³ndyaʔ³ V;IRR;SG;2;FUT
n⁵ndí⁵ki³ndyaʔ³ V;IPFV;SG;2;PRS
n⁵ndí⁵ki³ndyaʔ³ V;PROG;SG;3;PST
n⁵ndí⁵ki³ndyaʔ³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ki³ndyaʔ³ V;PFV;SG;3;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;SG;3;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;PL;3;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IPFV;SG;3;PRS
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PFV;SG;3;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PFV;SG;2;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;SG;1;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;SBJV;SG;1
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IRR;SG;3;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;SG;2;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;SBJV;SG;3
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;SG;2;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IPFV;SG;1;PRS
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;SBJV;PL;3
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;SG;3;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IPFV;SG;2;PRS
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PFV;PL;3;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PFV;SG;1;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IPFV;PL;3;PRS
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;SBJV;PL;1+INCL
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;SBJV;SG;2
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;PL;3;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IRR;SG;1;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;PROG;SG;1;PST
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IRR;PL;3;FUT
n⁵ndí⁵ndyiaʔ⁵³tzʔon³ V;IRR;SG;2;FUT
n⁵ndʔɛ¹ V;IPFV;SG;2;PRS
n⁵ndʔɛ¹ V;PROG;PL;1+EXCL;PST
n⁵ndʔɛ¹ V;PROG;PL;3;PST
n⁵ndʔɛ¹ V;PFV;SG;2;PST
n⁵ndʔɛ¹ V;PROG;SG;3;FUT
n⁵ndʔɛ¹ V;IRR;PL;3;FUT
n⁵ndʔɛ¹ V;PFV;SG;1;PST
n⁵ndʔɛ¹ V;PROG;SG;2;FUT
n⁵ndʔɛ¹ V;IPFV;PL;1+INCL;PRS
n⁵ndʔɛ¹ V;SBJV;PL;1+EXCL
n⁵ndʔɛ¹ V;IRR;SG;1;FUT
n⁵ndʔɛ¹ V;SBJV;SG;3
n⁵ndʔɛ¹ V;SBJV;SG;1
n⁵ndʔɛ¹ V;IPFV;SG;3;PRS
n⁵ndʔɛ¹ V;SBJV;PL;3
n⁵ndʔɛ¹ V;IPFV;SG;1;PRS
n⁵ndʔɛ¹ V;PROG;PL;1+INCL;PST
n⁵ndʔɛ¹ V;PFV;PL;1+EXCL;PST
n⁵ndʔɛ¹ V;PROG;PL;1+INCL;FUT
n⁵ndʔɛ¹ V;IPFV;PL;3;PRS
n⁵ndʔɛ¹ V;PFV;SG;3;PST
n⁵ndʔɛ¹ V;IRR;PL;1+INCL;FUT
n⁵ndʔɛ¹ V;SBJV;SG;2
n⁵ndʔɛ¹ V;IRR;SG;3;FUT
n⁵ndʔɛ¹ V;IRR;PL;1+EXCL;FUT
n⁵ndʔɛ¹ V;PFV;PL;1+INCL;PST
n⁵ndʔɛ¹ V;PROG;PL;1+EXCL;FUT
n⁵ndʔɛ¹ V;PROG;PL;3;FUT
n⁵ndʔɛ¹ V;PROG;SG;2;PST
n⁵ndʔɛ¹ V;PROG;SG;1;FUT
n⁵ndʔɛ¹ V;IPFV;PL;1+EXCL;PRS
n⁵ndʔɛ¹ V;PROG;SG;3;PST
n⁵ndʔɛ¹ V;PROG;SG;1;PST
n⁵ndʔɛ¹ V;PFV;PL;3;PST
n⁵ndʔɛ¹ V;IRR;SG;2;FUT
n⁵ndʔɛ¹ V;SBJV;PL;1+INCL
n⁵ndʔue³n⁵no³ V;PROG;SG;3;PST
n⁵ndʔue³n⁵no³ V;PROG;SG;1;PST
n⁵ndʔue³n⁵no³ V;IPFV;SG;2;PRS
n⁵ndʔue³n⁵no³ V;IPFV;SG;1;PRS
n⁵ndʔue³n⁵no³ V;IRR;PL;1+EXCL;FUT
n⁵ndʔue³n⁵no³ V;SBJV;PL;1+EXCL
n⁵ndʔue³n⁵no³ V;PROG;SG;1;FUT
n⁵ndʔue³n⁵no³ V;PROG;PL;3;FUT
n⁵ndʔue³n⁵no³ V;IRR;PL;3;FUT
n⁵ndʔue³n⁵no³ V;PROG;PL;1+EXCL;FUT
n⁵ndʔue³n⁵no³ V;SBJV;SG;1
n⁵ndʔue³n⁵no³ V;IRR;SG;3;FUT
n⁵ndʔue³n⁵no³ V;SBJV;SG;2
n⁵ndʔue³n⁵no³ V;IRR;SG;1;FUT
n⁵ndʔue³n⁵no³ V;PFV;PL;1+EXCL;PST
n⁵ndʔue³n⁵no³ V;IPFV;PL;1+INCL;PRS
n⁵ndʔue³n⁵no³ V;SBJV;SG;3
n⁵ndʔue³n⁵no³ V;IRR;SG;2;FUT
n⁵ndʔue³n⁵no³ V;IPFV;PL;3;PRS
n⁵ndʔue³n⁵no³ V;PROG;PL;1+EXCL;PST
n⁵ndʔue³n⁵no³ V;IPFV;PL;1+EXCL;PRS
n⁵ndʔue³n⁵no³ V;PFV;SG;3;PST
n⁵ndʔue³n⁵no³ V;SBJV;PL;1+INCL
n⁵ndʔue³n⁵no³ V;SBJV;PL;3
n⁵ndʔue³n⁵no³ V;PROG;SG;3;FUT
n⁵ndʔue³n⁵no³ V;IRR;PL;1+INCL;FUT
n⁵ndʔue³n⁵no³ V;PROG;SG;2;PST
n⁵ndʔue³n⁵no³ V;PROG;SG;2;FUT
n⁵ndʔue³n⁵no³ V;PFV;PL;1+INCL;PST
n⁵ndʔue³n⁵no³ V;IPFV;SG;3;PRS
n⁵ndʔue³n⁵no³ V;PFV;SG;1;PST
n⁵ndʔue³n⁵no³ V;PROG;PL;1+INCL;PST
n⁵ndʔue³n⁵no³ V;PROG;PL;1+INCL;FUT
n⁵ndʔue³n⁵no³ V;PROG;PL;3;PST
n⁵ndʔue³n⁵no³ V;PFV;SG;2;PST
n⁵ndʔue³n⁵no³ V;PFV;PL;3;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;IPFV;SG;2;PRS
n⁵ndí⁵hndaʔ⁵³ xken³ V;IPFV;PL;3;PRS
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;PFV;PL;3;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PFV;SG;3;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;SG;1;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;IRR;SG;2;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;SBJV;SG;3
n⁵ndí⁵hndaʔ⁵³ xken³ V;IPFV;SG;1;PRS
n⁵ndí⁵hndaʔ⁵³ xken³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PFV;SG;2;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hndaʔ⁵³ xken³ V;IRR;PL;3;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;SBJV;PL;3
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;PL;3;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;PL;3;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;SG;3;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;SG;3;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;IPFV;SG;3;PRS
n⁵ndí⁵hndaʔ⁵³ xken³ V;IRR;SG;1;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;SBJV;SG;2
n⁵ndí⁵hndaʔ⁵³ xken³ V;SBJV;PL;1+EXCL
n⁵ndí⁵hndaʔ⁵³ xken³ V;IRR;SG;3;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;SBJV;PL;1+INCL
n⁵ndí⁵hndaʔ⁵³ xken³ V;SBJV;SG;1
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;SG;1;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hndaʔ⁵³ xken³ V;PFV;SG;1;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;SG;2;PST
n⁵ndí⁵hndaʔ⁵³ xken³ V;PROG;SG;2;FUT
n⁵ndí⁵ ʔ⁵han³ V;IPFV;SG;3;PRS
n⁵ndí⁵ ʔ⁵han³ V;PROG;SG;1;FUT
n⁵ndí⁵ ʔ⁵han³ V;PROG;SG;3;FUT
n⁵ndí⁵ ʔ⁵han³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ ʔ⁵han³ V;IRR;SG;1;FUT
n⁵ndí⁵ ʔ⁵han³ V;PROG;SG;1;PST
n⁵ndí⁵ ʔ⁵han³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ ʔ⁵han³ V;PFV;SG;1;PST
n⁵ndí⁵ ʔ⁵han³ V;IPFV;SG;1;PRS
n⁵ndí⁵ ʔ⁵han³ V;PFV;SG;3;PST
n⁵ndí⁵ ʔ⁵han³ V;PROG;SG;2;PST
n⁵ndí⁵ ʔ⁵han³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ ʔ⁵han³ V;IRR;PL;3;FUT
n⁵ndí⁵ ʔ⁵han³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ ʔ⁵han³ V;SBJV;PL;3
n⁵ndí⁵ ʔ⁵han³ V;IRR;SG;3;FUT
n⁵ndí⁵ ʔ⁵han³ V;IPFV;SG;2;PRS
n⁵ndí⁵ ʔ⁵han³ V;IRR;SG;2;FUT
n⁵ndí⁵ ʔ⁵han³ V;PROG;SG;2;FUT
n⁵ndí⁵ ʔ⁵han³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ ʔ⁵han³ V;SBJV;SG;1
n⁵ndí⁵ ʔ⁵han³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ ʔ⁵han³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ ʔ⁵han³ V;IPFV;PL;3;PRS
n⁵ndí⁵ ʔ⁵han³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ ʔ⁵han³ V;SBJV;SG;2
n⁵ndí⁵ ʔ⁵han³ V;PFV;SG;2;PST
n⁵ndí⁵ ʔ⁵han³ V;PFV;PL;3;PST
n⁵ndí⁵ ʔ⁵han³ V;PROG;SG;3;PST
n⁵ndí⁵ ʔ⁵han³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ ʔ⁵han³ V;PROG;PL;3;PST
n⁵ndí⁵ ʔ⁵han³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ ʔ⁵han³ V;SBJV;SG;3
n⁵ndí⁵ ʔ⁵han³ V;SBJV;PL;1+INCL
n⁵ndí⁵ ʔ⁵han³ V;PROG;PL;3;FUT
n⁵ndí⁵ ʔ⁵han³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tzʔón⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵tzʔón⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵tzʔón⁵ V;PFV;SG;2;PST
n⁵ndí⁵tzʔón⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵tzʔón⁵ V;PROG;SG;2;FUT
n⁵ndí⁵tzʔón⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵tzʔón⁵ V;IRR;SG;2;FUT
n⁵ndí⁵tzʔón⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵tzʔón⁵ V;PROG;PL;3;FUT
n⁵ndí⁵tzʔón⁵ V;SBJV;SG;2
n⁵ndí⁵tzʔón⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵tzʔón⁵ V;IRR;SG;1;FUT
n⁵ndí⁵tzʔón⁵ V;SBJV;PL;3
n⁵ndí⁵tzʔón⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵tzʔón⁵ V;SBJV;SG;3
n⁵ndí⁵tzʔón⁵ V;SBJV;SG;1
n⁵ndí⁵tzʔón⁵ V;PROG;SG;2;PST
n⁵ndí⁵tzʔón⁵ V;PFV;SG;3;PST
n⁵ndí⁵tzʔón⁵ V;PFV;PL;3;PST
n⁵ndí⁵tzʔón⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵tzʔón⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵tzʔón⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵tzʔón⁵ V;PROG;SG;1;FUT
n⁵ndí⁵tzʔón⁵ V;PROG;PL;3;PST
n⁵ndí⁵tzʔón⁵ V;PROG;SG;3;PST
n⁵ndí⁵tzʔón⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵tzʔón⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵tzʔón⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵tzʔón⁵ V;PROG;SG;3;FUT
n⁵ndí⁵tzʔón⁵ V;PROG;SG;1;PST
n⁵ndí⁵tzʔón⁵ V;IRR;SG;3;FUT
n⁵ndí⁵tzʔón⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵tzʔón⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵tzʔón⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵tzʔón⁵ V;IRR;PL;3;FUT
n⁵ndí⁵tzʔón⁵ V;PFV;SG;1;PST
n⁵ndí⁵hndaʔ⁵³ V;SBJV;PL;1+INCL
n⁵ndí⁵hndaʔ⁵³ V;IPFV;SG;2;PRS
n⁵ndí⁵hndaʔ⁵³ V;PFV;SG;2;PST
n⁵ndí⁵hndaʔ⁵³ V;PROG;SG;1;FUT
n⁵ndí⁵hndaʔ⁵³ V;IPFV;PL;3;PRS
n⁵ndí⁵hndaʔ⁵³ V;IRR;SG;2;FUT
n⁵ndí⁵hndaʔ⁵³ V;PROG;PL;3;FUT
n⁵ndí⁵hndaʔ⁵³ V;PROG;SG;3;FUT
n⁵ndí⁵hndaʔ⁵³ V;PFV;SG;3;PST
n⁵ndí⁵hndaʔ⁵³ V;PROG;PL;3;PST
n⁵ndí⁵hndaʔ⁵³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hndaʔ⁵³ V;SBJV;PL;3
n⁵ndí⁵hndaʔ⁵³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hndaʔ⁵³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵hndaʔ⁵³ V;PROG;SG;2;FUT
n⁵ndí⁵hndaʔ⁵³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hndaʔ⁵³ V;IPFV;SG;1;PRS
n⁵ndí⁵hndaʔ⁵³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵hndaʔ⁵³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵hndaʔ⁵³ V;PROG;SG;2;PST
n⁵ndí⁵hndaʔ⁵³ V;SBJV;SG;1
n⁵ndí⁵hndaʔ⁵³ V;PROG;SG;3;PST
n⁵ndí⁵hndaʔ⁵³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hndaʔ⁵³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hndaʔ⁵³ V;SBJV;SG;3
n⁵ndí⁵hndaʔ⁵³ V;SBJV;PL;1+EXCL
n⁵ndí⁵hndaʔ⁵³ V;IRR;SG;1;FUT
n⁵ndí⁵hndaʔ⁵³ V;PFV;PL;3;PST
n⁵ndí⁵hndaʔ⁵³ V;IRR;PL;3;FUT
n⁵ndí⁵hndaʔ⁵³ V;PROG;SG;1;PST
n⁵ndí⁵hndaʔ⁵³ V;SBJV;SG;2
n⁵ndí⁵hndaʔ⁵³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hndaʔ⁵³ V;PFV;SG;1;PST
n⁵ndí⁵hndaʔ⁵³ V;IRR;SG;3;FUT
n⁵ndí⁵hndaʔ⁵³ V;IPFV;SG;3;PRS
n⁵ndí⁵hndaʔ⁵³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hán⁵ V;PROG;SG;2;PST
n⁵ndí⁵hán⁵ V;IRR;PL;3;FUT
n⁵ndí⁵hán⁵ V;PROG;PL;1+INCL;PST
n⁵ndí⁵hán⁵ V;IPFV;SG;2;PRS
n⁵ndí⁵hán⁵ V;SBJV;PL;3
n⁵ndí⁵hán⁵ V;SBJV;PL;1+INCL
n⁵ndí⁵hán⁵ V;SBJV;SG;2
n⁵ndí⁵hán⁵ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hán⁵ V;PFV;SG;3;PST
n⁵ndí⁵hán⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵hán⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hán⁵ V;PFV;SG;1;PST
n⁵ndí⁵hán⁵ V;IRR;SG;3;FUT
n⁵ndí⁵hán⁵ V;IPFV;SG;3;PRS
n⁵ndí⁵hán⁵ V;PFV;SG;2;PST
n⁵ndí⁵hán⁵ V;SBJV;SG;1
n⁵ndí⁵hán⁵ V;PROG;PL;3;FUT
n⁵ndí⁵hán⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hán⁵ V;PROG;SG;3;FUT
n⁵ndí⁵hán⁵ V;SBJV;SG;3
n⁵ndí⁵hán⁵ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hán⁵ V;PFV;PL;1+INCL;PST
n⁵ndí⁵hán⁵ V;PROG;PL;3;PST
n⁵ndí⁵hán⁵ V;SBJV;PL;1+EXCL
n⁵ndí⁵hán⁵ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hán⁵ V;PROG;SG;3;PST
n⁵ndí⁵hán⁵ V;PROG;SG;1;FUT
n⁵ndí⁵hán⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hán⁵ V;PROG;SG;1;PST
n⁵ndí⁵hán⁵ V;PFV;PL;3;PST
n⁵ndí⁵hán⁵ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hán⁵ V;IRR;SG;1;FUT
n⁵ndí⁵hán⁵ V;IPFV;PL;3;PRS
n⁵ndí⁵hán⁵ V;IPFV;SG;1;PRS
n⁵ndí⁵hán⁵ V;PROG;SG;2;FUT
n⁵ndí⁵hán⁵ V;IRR;SG;2;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;PL;3;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PFV;PL;1+EXCL;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;SBJV;PL;1+INCL
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IRR;SG;1;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PFV;PL;3;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IPFV;SG;2;PRS
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;SBJV;SG;2
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IPFV;SG;3;PRS
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;SG;1;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PFV;SG;3;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;PL;3;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;SG;3;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IPFV;PL;1+EXCL;PRS
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;PL;1+INCL;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;SBJV;PL;1+EXCL
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IRR;PL;1+INCL;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;PL;1+EXCL;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;SBJV;SG;1
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IRR;SG;3;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;SBJV;SG;3
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IPFV;SG;1;PRS
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PFV;SG;1;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IRR;PL;3;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;PL;1+EXCL;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PFV;SG;2;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IPFV;PL;3;PRS
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;SBJV;PL;3
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;SG;2;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IPFV;PL;1+INCL;PRS
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;IRR;SG;2;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;SG;2;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PFV;PL;1+INCL;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;SG;3;PST
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;PL;1+INCL;FUT
n⁵ndyion³ na³ ki³ndyaʔ³ nchhi³⁵ V;PROG;SG;1;PST
n⁵nda³hñʔo¹² V;SBJV;PL;1+EXCL
n⁵nda³hñʔo¹² V;PFV;SG;1;PST
n⁵nda³hñʔo¹² V;IRR;SG;1;FUT
n⁵nda³hñʔo¹² V;PROG;SG;3;FUT
n⁵nda³hñʔo¹² V;IRR;PL;3;FUT
n⁵nda³hñʔo¹² V;PROG;SG;1;PST
n⁵nda³hñʔo¹² V;IRR;SG;2;FUT
n⁵nda³hñʔo¹² V;PROG;PL;3;FUT
n⁵nda³hñʔo¹² V;PROG;SG;2;PST
n⁵nda³hñʔo¹² V;PFV;SG;2;PST
n⁵nda³hñʔo¹² V;PROG;SG;3;PST
n⁵nda³hñʔo¹² V;PROG;PL;1+EXCL;PST
n⁵nda³hñʔo¹² V;SBJV;SG;3
n⁵nda³hñʔo¹² V;IPFV;SG;3;PRS
n⁵nda³hñʔo¹² V;SBJV;SG;2
n⁵nda³hñʔo¹² V;IRR;PL;1+INCL;FUT
n⁵nda³hñʔo¹² V;PFV;PL;1+EXCL;PST
n⁵nda³hñʔo¹² V;IPFV;PL;3;PRS
n⁵nda³hñʔo¹² V;PROG;PL;3;PST
n⁵nda³hñʔo¹² V;SBJV;SG;1
n⁵nda³hñʔo¹² V;IRR;PL;1+EXCL;FUT
n⁵nda³hñʔo¹² V;IRR;SG;3;FUT
n⁵nda³hñʔo¹² V;SBJV;PL;1+INCL
n⁵nda³hñʔo¹² V;IPFV;PL;1+EXCL;PRS
n⁵nda³hñʔo¹² V;IPFV;PL;1+INCL;PRS
n⁵nda³hñʔo¹² V;PROG;SG;2;FUT
n⁵nda³hñʔo¹² V;IPFV;SG;1;PRS
n⁵nda³hñʔo¹² V;PFV;PL;1+INCL;PST
n⁵nda³hñʔo¹² V;IPFV;SG;2;PRS
n⁵nda³hñʔo¹² V;PROG;PL;1+INCL;FUT
n⁵nda³hñʔo¹² V;SBJV;PL;3
n⁵nda³hñʔo¹² V;PROG;PL;1+INCL;PST
n⁵nda³hñʔo¹² V;PFV;SG;3;PST
n⁵nda³hñʔo¹² V;PROG;PL;1+EXCL;FUT
n⁵nda³hñʔo¹² V;PFV;PL;3;PST
n⁵nda³hñʔo¹² V;PROG;SG;1;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PFV;SG;3;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;SBJV;SG;2
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;SG;2;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;SG;1;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PFV;SG;1;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IPFV;SG;2;PRS
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;PL;3;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PFV;PL;3;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PFV;PL;1+INCL;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;SG;3;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;PL;1+INCL;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;SG;3;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;PL;3;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IPFV;PL;3;PRS
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;SG;2;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IRR;SG;3;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PFV;SG;2;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IRR;PL;3;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;PROG;SG;1;PST
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;SBJV;SG;3
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;SBJV;PL;3
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IRR;SG;1;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IPFV;SG;3;PRS
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;SBJV;PL;1+EXCL
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IPFV;SG;1;PRS
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;SBJV;SG;1
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;IRR;SG;2;FUT
n⁵ndí⁵ ki³ndyaʔ³ nchhi⁵³ V;SBJV;PL;1+INCL
n⁵ndí⁵ kí⁵chi¹² V;IPFV;SG;3;PRS
n⁵ndí⁵ kí⁵chi¹² V;IPFV;SG;2;PRS
n⁵ndí⁵ kí⁵chi¹² V;IRR;PL;1+INCL;FUT
n⁵ndí⁵ kí⁵chi¹² V;PFV;PL;1+EXCL;PST
n⁵ndí⁵ kí⁵chi¹² V;PROG;SG;2;PST
n⁵ndí⁵ kí⁵chi¹² V;PFV;PL;3;PST
n⁵ndí⁵ kí⁵chi¹² V;PFV;PL;1+INCL;PST
n⁵ndí⁵ kí⁵chi¹² V;IPFV;SG;1;PRS
n⁵ndí⁵ kí⁵chi¹² V;IRR;PL;3;FUT
n⁵ndí⁵ kí⁵chi¹² V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵ kí⁵chi¹² V;IRR;SG;3;FUT
n⁵ndí⁵ kí⁵chi¹² V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵ kí⁵chi¹² V;PROG;SG;2;FUT
n⁵ndí⁵ kí⁵chi¹² V;PFV;SG;1;PST
n⁵ndí⁵ kí⁵chi¹² V;PFV;SG;2;PST
n⁵ndí⁵ kí⁵chi¹² V;SBJV;SG;2
n⁵ndí⁵ kí⁵chi¹² V;PROG;PL;3;FUT
n⁵ndí⁵ kí⁵chi¹² V;IRR;SG;1;FUT
n⁵ndí⁵ kí⁵chi¹² V;SBJV;PL;3
n⁵ndí⁵ kí⁵chi¹² V;SBJV;PL;1+EXCL
n⁵ndí⁵ kí⁵chi¹² V;PROG;PL;1+INCL;FUT
n⁵ndí⁵ kí⁵chi¹² V;PROG;SG;1;PST
n⁵ndí⁵ kí⁵chi¹² V;PROG;PL;1+EXCL;PST
n⁵ndí⁵ kí⁵chi¹² V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵ kí⁵chi¹² V;SBJV;PL;1+INCL
n⁵ndí⁵ kí⁵chi¹² V;IPFV;PL;3;PRS
n⁵ndí⁵ kí⁵chi¹² V;IRR;SG;2;FUT
n⁵ndí⁵ kí⁵chi¹² V;PROG;PL;1+INCL;PST
n⁵ndí⁵ kí⁵chi¹² V;PROG;PL;3;PST
n⁵ndí⁵ kí⁵chi¹² V;PFV;SG;3;PST
n⁵ndí⁵ kí⁵chi¹² V;SBJV;SG;3
n⁵ndí⁵ kí⁵chi¹² V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵ kí⁵chi¹² V;PROG;SG;1;FUT
n⁵ndí⁵ kí⁵chi¹² V;PROG;SG;3;FUT
n⁵ndí⁵ kí⁵chi¹² V;PROG;SG;3;PST
n⁵ndí⁵ kí⁵chi¹² V;SBJV;SG;1
n⁵ndí⁵hndoʔ³⁴ V;PROG;PL;1+EXCL;PST
n⁵ndí⁵hndoʔ³⁴ V;SBJV;SG;2
n⁵ndí⁵hndoʔ³⁴ V;SBJV;PL;1+INCL
n⁵ndí⁵hndoʔ³⁴ V;IRR;SG;2;FUT
n⁵ndí⁵hndoʔ³⁴ V;IPFV;SG;3;PRS
n⁵ndí⁵hndoʔ³⁴ V;PROG;PL;1+INCL;FUT
n⁵ndí⁵hndoʔ³⁴ V;IRR;SG;3;FUT
n⁵ndí⁵hndoʔ³⁴ V;PFV;SG;1;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;PL;3;FUT
n⁵ndí⁵hndoʔ³⁴ V;PFV;SG;2;PST
n⁵ndí⁵hndoʔ³⁴ V;PFV;SG;3;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;PL;1+EXCL;FUT
n⁵ndí⁵hndoʔ³⁴ V;SBJV;SG;3
n⁵ndí⁵hndoʔ³⁴ V;IPFV;PL;3;PRS
n⁵ndí⁵hndoʔ³⁴ V;IPFV;SG;2;PRS
n⁵ndí⁵hndoʔ³⁴ V;PFV;PL;1+INCL;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;SG;1;FUT
n⁵ndí⁵hndoʔ³⁴ V;IPFV;PL;1+EXCL;PRS
n⁵ndí⁵hndoʔ³⁴ V;PROG;PL;3;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;SG;3;FUT
n⁵ndí⁵hndoʔ³⁴ V;IRR;PL;1+INCL;FUT
n⁵ndí⁵hndoʔ³⁴ V;PFV;PL;3;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;SG;3;PST
n⁵ndí⁵hndoʔ³⁴ V;SBJV;PL;1+EXCL
n⁵ndí⁵hndoʔ³⁴ V;PROG;SG;1;PST
n⁵ndí⁵hndoʔ³⁴ V;IRR;PL;1+EXCL;FUT
n⁵ndí⁵hndoʔ³⁴ V;PFV;PL;1+EXCL;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;SG;2;PST
n⁵ndí⁵hndoʔ³⁴ V;PROG;SG;2;FUT
n⁵ndí⁵hndoʔ³⁴ V;PROG;PL;1+INCL;PST
n⁵ndí⁵hndoʔ³⁴ V;SBJV;PL;3
n⁵ndí⁵hndoʔ³⁴ V;IPFV;PL;1+INCL;PRS
n⁵ndí⁵hndoʔ³⁴ V;IRR;SG;1;FUT
n⁵ndí⁵hndoʔ³⁴ V;IRR;PL;3;FUT
n⁵ndí⁵hndoʔ³⁴ V;SBJV;SG;1
n⁵ndí⁵hndoʔ³⁴ V;IPFV;SG;1;PRS
m⁵ʔmé⁵ V;PROG;PL;1+EXCL;PST
m⁵ʔmé⁵ V;IPFV;SG;1;PRS
m⁵ʔmé⁵ V;IPFV;SG;3;PRS
m⁵ʔmé⁵ V;IRR;PL;3;FUT
m⁵ʔmé⁵ V;PFV;PL;1+INCL;PST
m⁵ʔmé⁵ V;PFV;SG;2;PST
m⁵ʔmé⁵ V;PROG;SG;3;FUT
m⁵ʔmé⁵ V;SBJV;SG;1
m⁵ʔmé⁵ V;PFV;PL;1+EXCL;PST
m⁵ʔmé⁵ V;IPFV;PL;3;PRS
m⁵ʔmé⁵ V;PROG;PL;1+EXCL;FUT
m⁵ʔmé⁵ V;SBJV;SG;3
m⁵ʔmé⁵ V;PROG;SG;2;FUT
m⁵ʔmé⁵ V;PROG;PL;3;PST
m⁵ʔmé⁵ V;IRR;PL;1+INCL;FUT
m⁵ʔmé⁵ V;PROG;SG;1;FUT
m⁵ʔmé⁵ V;PROG;PL;1+INCL;PST
m⁵ʔmé⁵ V;PROG;PL;1+INCL;FUT
m⁵ʔmé⁵ V;SBJV;PL;1+INCL
m⁵ʔmé⁵ V;IRR;SG;3;FUT
m⁵ʔmé⁵ V;SBJV;PL;1+EXCL
m⁵ʔmé⁵ V;PROG;PL;3;FUT
m⁵ʔmé⁵ V;IPFV;PL;1+INCL;PRS
m⁵ʔmé⁵ V;PFV;SG;1;PST
m⁵ʔmé⁵ V;PROG;SG;1;PST
m⁵ʔmé⁵ V;PFV;SG;3;PST
m⁵ʔmé⁵ V;IRR;SG;1;FUT
m⁵ʔmé⁵ V;IPFV;PL;1+EXCL;PRS
m⁵ʔmé⁵ V;PROG;SG;2;PST
m⁵ʔmé⁵ V;SBJV;SG;2
m⁵ʔmé⁵ V;PFV;PL;3;PST
m⁵ʔmé⁵ V;SBJV;PL;3
m⁵ʔmé⁵ V;PROG;SG;3;PST
m⁵ʔmé⁵ V;IRR;SG;2;FUT
m⁵ʔmé⁵ V;IPFV;SG;2;PRS
m⁵ʔmé⁵ V;IRR;PL;1+EXCL;FUT
n⁵ndyʔe³ V;PROG;SG;3;FUT
n⁵ndyʔe³ V;IRR;SG;1;FUT
n⁵ndyʔe³ V;PFV;SG;3;PST
n⁵ndyʔe³ V;PROG;PL;3;PST
n⁵ndyʔe³ V;PFV;PL;1+INCL;PST
n⁵ndyʔe³ V;IPFV;SG;1;PRS
n⁵ndyʔe³ V;PROG;SG;2;PST
n⁵ndyʔe³ V;SBJV;SG;2
n⁵ndyʔe³ V;PROG;SG;3;PST
n⁵ndyʔe³ V;PFV;SG;2;PST
n⁵ndyʔe³ V;PROG;PL;3;FUT
n⁵ndyʔe³ V;PROG;PL;1+INCL;PST
n⁵ndyʔe³ V;SBJV;SG;1
n⁵ndyʔe³ V;IRR;PL;1+EXCL;FUT
n⁵ndyʔe³ V;PROG;PL;1+INCL;FUT
n⁵ndyʔe³ V;SBJV;SG;3
n⁵ndyʔe³ V;SBJV;PL;1+INCL
n⁵ndyʔe³ V;PROG;PL;1+EXCL;FUT
n⁵ndyʔe³ V;IPFV;PL;1+EXCL;PRS
n⁵ndyʔe³ V;IRR;PL;3;FUT
n⁵ndyʔe³ V;IPFV;PL;1+INCL;PRS
n⁵ndyʔe³ V;PROG;SG;1;PST
n⁵ndyʔe³ V;SBJV;PL;1+EXCL
n⁵ndyʔe³ V;PFV;SG;1;PST
n⁵ndyʔe³ V;IPFV;PL;3;PRS
n⁵ndyʔe³ V;IRR;SG;2;FUT
n⁵ndyʔe³ V;IRR;SG;3;FUT
n⁵ndyʔe³ V;PROG;SG;2;FUT
n⁵ndyʔe³ V;SBJV;PL;3
n⁵ndyʔe³ V;IPFV;SG;3;PRS
n⁵ndyʔe³ V;PROG;SG;1;FUT
n⁵ndyʔe³ V;IRR;PL;1+INCL;FUT
n⁵ndyʔe³ V;PFV;PL;1+EXCL;PST
n⁵ndyʔe³ V;PROG;PL;1+EXCL;PST
n⁵ndyʔe³ V;PFV;PL;3;PST
n⁵ndyʔe³ V;IPFV;SG;2;PRS
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;SG;3;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IPFV;PL;1+INCL;PRS
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;SBJV;SG;1
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;SG;2;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;PL;3;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IRR;SG;2;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;SG;3;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;SBJV;PL;1+INCL
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;SBJV;SG;2
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;SBJV;PL;1+EXCL
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;SBJV;SG;3
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;PL;1+INCL;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;PL;1+EXCL;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;SBJV;PL;3
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IRR;PL;3;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;SG;1;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;PL;1+EXCL;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;PL;3;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IRR;PL;1+EXCL;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IRR;SG;3;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PFV;SG;1;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PFV;PL;1+INCL;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PFV;PL;3;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IPFV;SG;1;PRS
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;SG;2;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PFV;PL;1+EXCL;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PFV;SG;2;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IRR;PL;1+INCL;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IPFV;SG;2;PRS
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;SG;1;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IPFV;PL;1+EXCL;PRS
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IRR;SG;1;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PFV;SG;3;PST
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;PROG;PL;1+INCL;FUT
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IPFV;PL;3;PRS
n⁵nduiʔ³ ndá⁵thwènʔ¹ V;IPFV;SG;3;PRS
|
e3007f90a5181173b45128cd274ae0d91a83929d
|
b13c6d07b88515b61d998f4fe34d9ec9710ba3ef
|
/Scenario/ScenarioTest2.sce
|
e885a95e8c4ea7c329d0bf405c64b6c61a77eafa
|
[] |
no_license
|
EmSavalle/PremiereExpe
|
c3018f5a833057b88cc5b7bce9f60cecc8b7aa27
|
afb9188571ce7e460deed2971586ab0ef161d6cd
|
refs/heads/main
| 2023-01-13T06:07:18.591098
| 2020-11-12T12:35:44
| 2020-11-12T12:35:44
| 310,552,016
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 34
|
sce
|
ScenarioTest2.sce
|
scenario = "Scenario 2";
begin;
|
09533599faf5b86a9977f3307f07dd8f09ff9a81
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/998/CH29/EX29.53/Ex53.sce
|
4fb372399bedf4a1a68bca86ecbbabb62bfb8c99
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 392
|
sce
|
Ex53.sce
|
//Ex:53
clc;
clear;
close;
G=6.67*10^(-11);//Gravitation const in N-m^2/kg^2
a_1=18000;//semi major axis for satellite-1
a_2=24000;//semi major axis for satellite-2
t2_t1=(a_2/a_1)^(3/2);//The ratio of orbital periods of given two satellite
printf("Orbital periods ratio of two satellite =%f",t2_t1);
printf("\n thus orbital period of satellite_2 is 1.54 times that of satellite_1");
|
6859ee9dfca5931e50770ca8ddceaa7a11f37765
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3636/CH14/EX14.3/Ex14_3.sce
|
232868a93343819c2396b1960b86c4ed9d3173c0
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 288
|
sce
|
Ex14_3.sce
|
clear;
clc;
RL=500 //load resistance in ohm
C1=100*10^-6 //capacitance in F
C2=50*10^-6 //capacitance in F
L=5 //in H
f=50 //frequency in Hz
//Calculation
Y=0.216/(RL*C1*C2*L*(2*%pi*f)^3)
format("v",8)
disp(Y,"Ripple factor Y= ") //The answers vary due to round off error
|
bd27eefb0ac639e09bd9d154593632d5ae2d5b68
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2681/CH3/EX3.3/Ex3_3.sce
|
245b60e8d8eefc725eb9037eb61b254b100d6c93
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 316
|
sce
|
Ex3_3.sce
|
//avalanche zone velocity of TRAPATT diode
//given
clc
Na=1.8d+15//per cm3//doping concentration
j=25d+3//A/cm2//current density
q=1.6d-19//couloms
Vaz=j/(q*Na)//cms//avalanche zone velocity
Vaz=round(Vaz/1d+5)*1d+5///rounding off decimals
disp(Vaz/100,'the avalanche zone velocity of TRAPATT in m/s')//m/s
|
37f43e980f7b7c5f0e632aad6a0ffaf3ec208224
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3836/CH6/EX6.3/Ex6_3.sce
|
69fcad3c45616a06cb1f598aa7ccc92d640c10f6
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 374
|
sce
|
Ex6_3.sce
|
clear
//Initialisation
Av=10 //Voltage gain
Vi=2 //Input Voltage of Amplifier
Rl=50 //Load Resistance
Ro=0 //Output Resistance of amplifier in Ohm
//Calculation
Vo=Av*Vi*Rl/(Ro+Rl) //Output Voltage of Amplifier
//Result
printf("\n Ouput voltage of and amplifier = %.1f V",Vo)
|
4c3cde3cb304c0b32cc1ae27e628da808359132f
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2183/CH7/EX7.3/Ex_7_3.sce
|
de5daf3ca4fb126d0cbc9ec6ce2e937ab7500704
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 490
|
sce
|
Ex_7_3.sce
|
// Example 7.3 //Wavelength and Incident optical power
clc;
clear;
close;
E=1.5*10^-19;//energy in joule
e=1.6*10^-19;//elecronic charge
If=3*10^-6;//forward current in ampere
C=3*10^8;//Speed of light in meter per second
n=0.6;//quantum efficiency
ht=6.62*10^-34;//plank constt.
h=((ht*C)/E)*10^6;//Wavelength
R=(n*e)/(E);//Responsivity in ampere per watt
Po=(If/R)*10^6;//Output power in micro watt
disp(h,"wavelength in micro meter")
disp(Po,"Output power in micro Watt")
|
0700481a1c52a75f05579eb3f345252badad3616
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/24/CH29/EX29.1/Example29_1.sce
|
ef94ea8aeb4c0fe8caa77341108fde7201ff2ee5
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 272
|
sce
|
Example29_1.sce
|
//Given that
B = 1.2*10^-3 //in T
e = 1.6*10^-19 //in C
K = 5.3*10^6*e //in J
m = 1.6*10^-27 //in kg
//Sample Problem 29-1
printf("**Sample Problem 29-1**\n")
v = sqrt(2*K/m)
F = e*v*B
printf("The magnitude of magnetic force acting on the proton is %eN", F)
|
25edbb7b5d4ed498bae3593b20eecdbff8e3b832
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1217/CH9/EX9.2/Exa9_2.sce
|
49e8ceac3f9ce62aeee037b4f8b49aebab0e0fcf
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 528
|
sce
|
Exa9_2.sce
|
//Exa 9.2
clc;
clear;
close;
//given data
Vreg=8;//in volts as IC 7808 is given
IL=100;//in mA
IR=100;//in mA
Iq=0;//in mA
RL=50;//in ohms
// let find the value of resistor to deliver required current
R=Vreg/(IR*10^-3);// in ohms; so current must be in amperes
disp(R,"Required Resistance in ohms : ");
disp("output is given by: Vo = IR*R+IL*RL");
Vo = (IR*10^-3)*R+(IL*10^-3)*RL;
disp(Vo);
//considering 2 volt dropout
Vdropout=2;//in volts
VI=Vo+Vdropout;
disp(VI,"Input voltage must be(in volts): ");
|
fa0ce082d345260ca95c92d3db9b3de8d3d1478b
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2459/CH28/EX28.6/Ex28_6.sce
|
c0a60a6fc4f4e2b84bbdae3d072ac0d0d066a9fb
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 479
|
sce
|
Ex28_6.sce
|
// chapter28
// example28.6
//page606
printf("Y = A . B . C` . D` + A` . B . C` . D` + A` . B . C . D` + A . B . C . D` \n")
printf("taking out the common factors \n")
printf("Y = B . C` . D` . ( A + A` ) + B . C . D` . ( A + A`) \n")
printf("By theorem 3 \n")
printf("Y = B . C` . D` + B . C . D` \n")
printf("again factorize \n")
printf("Y = B . D` ( C + C` ) \n")
printf("By theorem 3 \n")
printf("Y = B . D` . 1 \n")
printf("thus \n")
printf("Y = B . D` \n")
|
3638aa9d607f14cfc3d586e77f7a02f8772698a8
|
e806e966b06a53388fb300d89534354b222c2cad
|
/macros/mattolist.sci
|
8795ebd83904250d726adaa1fa2c380a7bd5ba95
|
[] |
no_license
|
gursimarsingh/FOSSEE_Image_Processing_Toolbox
|
76c9d524193ade302c48efe11936fe640f4de200
|
a6df67e8bcd5159cde27556f4f6a315f8dc2215f
|
refs/heads/master
| 2021-01-22T02:08:45.870957
| 2017-01-15T21:26:17
| 2017-01-15T21:26:17
| null | 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 178
|
sci
|
mattolist.sci
|
function [imgList]=mattolist(imgMat)
[rows cols channels]=size(imgMat);
imgList=list();
for i=1:channels
imgList($+1)=imgMat(:,:,i);
// disp(imgList(i))
end
endfunction
|
2181d15b209ddb4584e2b3b978dd5522b51d8036
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3482/CH7/EX7.5/Ex7_5.sce
|
c6370eb0d55f33b05cbecffda6754b710c651cb1
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,358
|
sce
|
Ex7_5.sce
|
clc;
//Drawing of shear and bending moment diagram
printf("Given problem is for drawing diagram, this diagram is drawn by step by step manner.\n ");
w=20;//kN/m, distributed load applied at D to E
AB=6;//m, perpendicular distance between A and B
BC=3;//m, perpendicular distance between C and B
F_B=w*AB;//kN, force exerted at AB/2 from A
//By free body of entire beam
//By sum(m_C)=0
RA=(F_B*(AB/2+BC))/(AB+BC);//kN, Reaction at A
//By sum(m_A)=0
RC=(F_B*(AB/2)/(AB+BC));//kN, Reaction at C
//For section 1
//Applying sum(Fy)=0
VA=RA;//N, shear force just to right to A
//For section 2
//Applying sum(Fy)=0
VB=VA-F_B;//kN, shear force just left to B
//For section 3
//Applying sum(Fy)=0
VC=VB;//kN, shear force from B to C
//Bending moment at each end is zero
// Maximum bending moment is at D where V=0
VD=0;//kN
x=-(VD-VA)/w;//m, location of maximum bending moment
printf("Maximum bending moment is at D x= %.0f m from A\n",x);
MA=0;//kN.m
MD=MA+1/2*VA*x;//kN.m, maximum bending moment is at D
MB=MD+1/2*VB*(AB-x);//N.m
MC=MB+VB*BC;//N.m
printf("Maximum bending moment is at MD= %.0fkN. m from A\n",MD);
X=[0,x,AB,AB+BC];//m,
V=[VA,VD,VB,VC];//kN,Shear matrix,
plot(X,V);//Shear diagram
X=[0,x,AB,AB+BC];//m
M=[MA,MD,MB,MC];//kN.m,Bending moment matrix
plot(X,M,'r');//Bending moment diagram
|
82cd71be3495b19d1b82c5942b38a59942fc952e
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1280/CH8/EX8.7/8_7.sce
|
245b1ec6213bc413210790de245e0631548cbee5
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 151
|
sce
|
8_7.sce
|
clc
//initialisation of variables
P= 2000 //psi
Vm= 0.5 //in^3
//CALCULATONS
T= P*Vm*0.16
//RESULTS
printf ('Theotrical torque = %.f lb-in',T)
|
96aab386ed09ced7f2029649dd6b23356544e5d0
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3281/CH2/EX2.20/ex2_20.sce
|
046b9b87528aba0b88dbc1ffaf628b121429807b
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 126
|
sce
|
ex2_20.sce
|
//Page Number: 105
//Example 2.20
clc;
//Given,
a1=1.84;
a2=%pi;
r=2*%pi*(a1/a2)^2;
disp(r,'Cross section ratio:');
|
802a8af8537e56ef5257e270a97ad082a0993b7e
|
ba0de0e415334d04ee37d5c0705f4aa26e62ff86
|
/Ejercicio C.sci
|
b0458c5dd5e94686f8bedd8bc9551a37860187f1
|
[] |
no_license
|
GunioRobot/MetodosNumericos
|
0447fbb94dbf049fc2d9239dced6ec63bf39f96b
|
0fc9960aee9ac15909520098f41a6a011857dfdd
|
refs/heads/master
| 2020-05-22T13:19:57.190296
| 2010-12-13T01:37:30
| 2010-12-13T01:37:30
| null | 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 300
|
sci
|
Ejercicio C.sci
|
clc
// Ejercicio 1
x=-%pi:1:%pi
deff('y=f1(x)','y=cos(x^2)+cos(2*x)+cos(x)^2')
y=f1(x)
p1=newtondi(x,y)
// Resultado: 0.2107559
// Ejercicio 2
eval1=horner(p1,0.5);
deff('y=fError(x)','y=128*x^7*sin(x^2)-3360*x^3*sin(x^2)-1344*x^5*cos(x^2)+1680*x*cos(x^2)+128*sin(2*x)+128*cos(x)*sin(x)');
e=fError(
|
e0272b3cb9cacf5e339da3c48e37da6e0274b16e
|
b29e9715ab76b6f89609c32edd36f81a0dcf6a39
|
/ketpic2escifiles6/HiddenWireData.sci
|
2ead122d1b2ed7bb42b8f5be0c2f032d05b0a61f
|
[] |
no_license
|
ketpic/ketcindy-scilab-support
|
e1646488aa840f86c198818ea518c24a66b71f81
|
3df21192d25809ce980cd036a5ef9f97b53aa918
|
refs/heads/master
| 2021-05-11T11:40:49.725978
| 2018-01-16T14:02:21
| 2018-01-16T14:02:21
| 117,643,554
| 1
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 103
|
sci
|
HiddenWireData.sci
|
// 08.09.15
function Out=HiddenWireData()
global HIDDENWIREDATA
Out=HIDDENWIREDATA;
endfunction;
|
90f68bb67d7f75f8300b68391a7e488d93931e65
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/147/CH18/EX18.2/Example18_2.sce
|
55f6fa2d962bfd43856355a620c9f7f9df2b1586
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 225
|
sce
|
Example18_2.sce
|
//Dimension of coil lxb
l = 15*10^(-3);//m
b = 12*10^(-3);//m
Ba = 1.8*10^(-3);//Wb/m^2
k = 0.14*10^(-6);;//Nm/rad
theta = %pi/2;
I = 5*10^(-3);
N = k*theta/(Ba*l*b*I);
mprintf('Number of turns required N = %0.0f',N);
|
9e9a52b57035b572ab2a138a58090c9933c2caa7
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2510/CH6/EX6.11/Ex6_11.sce
|
cc6a9db3eff1da49840d9370ffcd162e98c063e8
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 564
|
sce
|
Ex6_11.sce
|
//Variable declaration:
a = 1 //Length of cross-section (m)
b = 0.25 //Width of cross-section (m)
v = 1*10**-5 //Kinematic viscosity of air (m^2/s)
Re = 2300.0 //Reynolds Number
cm = 100 //Cenitmeters in a meter
//Calculation:
Dh = 2*a*b/(a+b) //Hydraulic diameter of duct (m)
V = Re*v/Dh*cm //Maximum air velocity (cm/s)
//Result:
printf("The maximum air velocity before the flow becomes turbulent is : %.1f cm/s.",V)
|
b20f00e21de7dc70022089d57a169cbe57773d14
|
6f42ce02216774066d077c6db628f9df34bc527f
|
/functions/test script/ksm_source_donor.tst
|
ee3fe2575edf69eb8f2cc9269f7da40b79595ff9
|
[] |
no_license
|
phively/nu-plsql
|
2d0181fb9eea1e1118369e47bb4ac7ab3f7ec3d9
|
806afe34fe56dfc4fb1d7237a956df04c8e9ba82
|
refs/heads/master
| 2023-09-03T23:34:37.122157
| 2023-08-30T20:11:25
| 2023-08-30T20:11:25
| 78,759,887
| 10
| 3
| null | 2023-09-07T17:11:41
| 2017-01-12T15:37:39
|
PLSQL
|
UTF-8
|
Scilab
| false
| false
| 680
|
tst
|
ksm_source_donor.tst
|
PL/SQL Developer Test script 3.0
21
-- Created on 2/7/2017 by PBH634
Declare
-- Local variables here
id varchar2(10);
Type t_receipts Is Table Of varchar2(10);
receipts t_receipts;
Begin
-- Test receipts
receipts := t_receipts('0002370746', '0002371580', '0002370765', '0002370763', '0002373286', '0002371650', '0002373070', '0002372038', '0002373551',
'0002374381', '0002400638', '0002422364');
-- Test loop
For i In 1..receipts.count Loop
id := ksm_pkg.get_gift_source_donor_ksm(receipt => receipts(i), debug => TRUE);
dbms_output.put_line('*KSM primary is: ' || id);
dbms_output.new_line;
End Loop;
End;
0
0
|
07366c62a8293fac9033571b0914e3e91c987d1c
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/863/CH1/EX1.7/Ex1_7.txt
|
418ae6520b0ac3d90ddc37fe12aa45c9d0bb0519
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 214
|
txt
|
Ex1_7.txt
|
//Caption:Calculate lowest input frequency
//Exa:1.7
clc;
clear;
close;
fl=10//Lower cutoff frequency(in hertz)
t=0.02//Tilt on output waveform
f=%pi*fl/(t*1000)
disp(f,'Lowest input frequency(in Khz)=')
|
0e670ae748d6d01e9525dcbe8b5b44311a2ab788
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3733/CH32/EX32.2/Ex32_2.sce
|
ade3730eb6c91f4461265f3fe7c430c46001f9c5
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,270
|
sce
|
Ex32_2.sce
|
// Example 32_2
clc;funcprot(0);
//Given data
T_1=[0,6];// Time in hours
T_2=[6,10];// Time in hours
T_3=[10,12];// Time in hours
T_4=[12,16];// Time in hours
T_5=[16,20];// Time in hours
T_6=[20,22];// Time in hours
T_7=[22,24];// Time in hours
L=[20,50,60,40,80,70,40];//load in kW
//Calculation
//(a)
L_p=80;// Peak load in kW
E_g=(L(1)*(T_1(2)-T_1(1)))+(L(2)*(T_2(2)-T_2(1)))+(L(3)*(T_3(2)-T_3(1)))+(L(4)*(T_4(2)-T_4(1)))+(L(5)*(T_5(2)-T_5(1)))+(L(6)*(T_6(2)-T_6(1)))+(L(7)*(T_7(2)-T_7(1)));//Energy generated in MW-hrs
L_a=E_g/24;// Average load in kW
F_l=L_a/L_p;// Load factor
T=[0 0 6 6 10 10 12 12 16 16 20 20 22 22 24 24];//Time in hours for load curve
L=[0 20 20 50 50 60 60 40 40 80 80 70 70 40 40 100];// Load in kW for load curve
xlabel('TIME IN HOURS');
ylabel('LOAD IN kW');
title('Fig.32.2 Load curve');
plot(T,L,'b');
printf('\n(a)Load factor=%0.3f',F_l);
//(b)
L_p=20;// Peak load in kW
E_g=(20*4)+(10*2);//MW-hrs
T_s=6;//Time during which stand by unit remains in operation hours (from the load curve)
L_a=E_g/T_s;
F_l=L_a/L_p;// Load factor
printf('\n(b)Load factor=%0.3f',F_l);
x=[16 22];// Time n hours
L=[60 60];// Load in MW
plot(x,L,'r-.');
legend('LOAD CURVE');
// The answer vary due to round off error
|
40f0beace5094e106bb02b0f85ae22d5bae2560e
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2409/CH2/EX2.4/Ex2_4.sce
|
7e987acc016f174206c6f3bdc7ae5e2375119746
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 694
|
sce
|
Ex2_4.sce
|
//Variable Declaration
aE=6378.141 //Earth's equitorial radius(km)
e=0.002 //Eccentricity
p=12 //period from perigee to perigee (hours)
K1=66063.1704 //Constant (km^2)
u=3.986005*(10**14) //Earth's Gravitational constant(m^3/sec^2)
//Calculation
n=(2*%pi)/(12*60*60) //Mean Motion(rad/sec)
anp=((u/n**2)**(0.3333))/1000 //Radius of the orbit by kepler's 3rd law(km)
k2=(1-e**2)**1.5
function [y]=f(a)
y=(n-((u/a**3)**0.5)*(1+K1/a**2*k2))
endfunction
a=fsolve(2,f)
a=a/1000 //Converting a into km
//Result
printf("The nonperturbed value of semimajor axis is %.2f km",anp)
printf("\nThe perturbed value of semimajor axis is %.2f km",a)
|
1e4add7aa9248ff7bcb80218ad84977f0041b975
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1202/CH21/EX21.4/21_4.sce
|
63991232142722ec24b1fe26632f1754cd2d4672
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 365
|
sce
|
21_4.sce
|
clear
clc
//Example 21.4
disp('Example 21.4')
xbar=199.5;//Note that this is the correct value and not 199
sbar=8.83;
USL=235;//Note that this is diff from UCL
LSL=185;
c4=0.8862;
n=3;
sigma=5.75;
sigma_x=sbar/c4/sqrt(n);
mprintf('\nValue of sigma_x=%f',sigma_x);
Cp=(USL-LSL)/6/sigma;
Cpk=min(xbar-LSL,USL-xbar)/3/sigma;
mprintf('\nCp=%f and Cpk=%f',Cp,Cpk)
|
c9148f0d14cd203287d47b409e07b97271abede0
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/281/CH7/EX7.3/example7_3.sce
|
a3e2122baf333969b70655485891eb683f7ee47a
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 766
|
sce
|
example7_3.sce
|
disp('chapter 7 ex7.3')
disp('given')
disp('Design a high input impedance precision full-wave rectifier circuit')
disp('input peak value Vi=1volt')
Vi=1
disp('supply voltage Vcc=+or-15volt') //(using bipolar op-amp)
Vcc=15
disp('let I6=500*10^(-6)A') //for adequate diode current
I6=500*10^(-6)
disp('R6=Vi/I6')
R6=Vi/I6
disp('ohms',R6)
disp('use 1.8kohm standard value')
R6=1800
disp('R4=R5=R6=1.8kohm') //standard value
R4=1800
R5=1800
disp('R3=2*R4')
R3=2*R4
disp('ohms',R3) //use two 1.8kohm resistors in series
disp('R1=R3||R4')
R1=R3*R4/(R3+R4)
disp('ohms',R1) //standard value
disp('R2=R6||R5')
R2=R6*R5/(R6+R5)
disp('ohms',R2) //use 1kohm standard value
disp('compensate the op-amps for Av1=2 and A2 as a voltage follower')
|
9a90b0ff08a8a7ab05c4963b736b70e27ffd5d7f
|
482cdc3e27e99afe860829eff3e593caa62202e3
|
/src/cs142_testcases_project3/Public/tests/test4.tst
|
4338a4243ee6abb3ffded45e73c51f5991c55fc6
|
[] |
no_license
|
abrageddon/DLXCompiler
|
e153430de4412fe48a34955851352d0fd73ab2d8
|
2d1abd102f723c2e1f0ed5893e86c7d0ceb42914
|
refs/heads/master
| 2020-12-30T10:50:20.955331
| 2011-12-02T03:34:59
| 2011-12-02T03:34:59
| null | 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 282
|
tst
|
test4.tst
|
main
var x, y, z;
{
x <- 128;
y <- 256;
z <- call inputnum();
z <- z + y + x;
x <- x + y * 24;
if z == x then
call outputnum(z);
call outputnewline();
call outputnum(x);
call outputnewline()
else
call outputnum(x);
call outputnewline()
fi
}.
|
cba34b1e435ab1c823d40d4ad76d67155fbadc62
|
a62e0da056102916ac0fe63d8475e3c4114f86b1
|
/set4/s_College_Physics(volume_2)_R._A._Serway_And_J._S._Faughn_2072.zip/College_Physics(volume_2)_R._A._Serway_And_J._S._Faughn_2072/CH19/EX19.1/ex19_1.sce
|
a3b0705119c8c9cba6f17461c41c10e2eb1da81e
|
[] |
no_license
|
hohiroki/Scilab_TBC
|
cb11e171e47a6cf15dad6594726c14443b23d512
|
98e421ab71b2e8be0c70d67cca3ecb53eeef1df6
|
refs/heads/master
| 2021-01-18T02:07:29.200029
| 2016-04-29T07:01:39
| 2016-04-29T07:01:39
| null | 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 158
|
sce
|
ex19_1.sce
|
errcatch(-1,"stop");mode(2);//Example 19.1
q=1.6*10^-19//in columb
v=1*10^5//in m/s
B=55*10^-6//in T
F=q*v*B* 0.8660
disp(F,"The force in Newton=")
exit();
|
218a788b71f453eda2acec5df26b14d8fabe69d3
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2321/CH6/EX6.8.2/EX6_8_2.sce
|
a06fa6f9d4c4078066486df6358bc7247d76dd61
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 237
|
sce
|
EX6_8_2.sce
|
//Example No. 6.8.2
clc;
clear;
close;
format('v',6);
n=16;//no. of point source
//d=lambda/4;(spacing)
dBYlambda=1/4;//(Spacing/wavelength)
HPBW=2*acosd(1-1.391/n/%pi/dBYlambda);//degree(HPBW)
disp(HPBW,"HPBW in degree : ");
|
c039d6613bfa2b3bbdcd285640be9be7c68c35c6
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3755/CH2/EX2.25/Ex2_25.sce
|
9936536ac40c9f8e608b982adb9ed337f352985b
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 368
|
sce
|
Ex2_25.sce
|
clear
//
//
//
//Variable declaration
rho=6.23; //density(gm/cc)
M=60; //molecular weight
N=6.023*10^23; //avagadro number
n=4; //number of atoms
//Calculations
a=(n*M/(rho*N))^(1/3); //lattice constant(cm)
r=a*sqrt(2)*10^8/4; //radius of atom(angstrom)
//Result
printf("\n radius of atom is %0.3f angstrom",r)
|
3637546f346997751b0f68ce0b95795c6804734e
|
8217f7986187902617ad1bf89cb789618a90dd0a
|
/browsable_source/2.4.1/Unix-Windows/scilab-2.4.1/tests/demos.tst
|
69950cadacfd93837ee16bbec5386ecae18b791f
|
[
"LicenseRef-scancode-public-domain",
"LicenseRef-scancode-warranty-disclaimer"
] |
permissive
|
clg55/Scilab-Workbench
|
4ebc01d2daea5026ad07fbfc53e16d4b29179502
|
9f8fd29c7f2a98100fa9aed8b58f6768d24a1875
|
refs/heads/master
| 2023-05-31T04:06:22.931111
| 2022-09-13T14:41:51
| 2022-09-13T14:41:51
| 258,270,193
| 0
| 1
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,209
|
tst
|
demos.tst
|
// Copyright INRIA
mode(-1)
//to Check all the demos
funcprot(0)
clearfun('x_message')
clearfun('x_dialog')
clearfun('x_mdialog')
clearfun('x_choose')
clearfun('mode')
clearfun('xclick')
xgetm=funptr('xgetmouse')
deff('[]=mode(x)','x=x')
deff('[]=halt( )',' ')
getf('SCI/macros/util/x_matrix.sci')
getf('SCI/macros/util/getvalue.sci')
getf('SCI/macros/util/getclick.sci')
getf('SCI/macros/auto/scicos.sci')
getf('SCI/demos/scicos/scicos_play.sci','n')
names=['choosefile';
'do_addnew';
'do_block';
'do_color';
'do_copy';
'do_copy_region';
'do_delete';
'do_delete_region';
'do_help';
'do_move';
'do_palettes';
'do_replace';
'do_run';
'do_tild';
'do_view';
'do_exit';
'getlink';
'move';
'prt_align']
for k=1:size(names,'r')
getf('SCI/macros/scicos/'+names(k)+'.sci')
end
getf('SCI/macros/scicos_blocks/scifunc_block.sci')
lines(0)
clearfun('lines')
deff('x=lines(x)','x=0 ')
getf('SCI/tests/dialogs.sci')
execstr('message=x_message')
execstr('dialog=x_dialog')
I=file('open','SCI/tests/demos.dialogs','old')
//I=%io(1)
if MSDOS then
O=file('open',TMPDIR+'\sciout','unknown')
else
O=file('open','/dev/null','unknown')
end
%IO=[I,O]
lines(0)
exec('SCI/demos/alldems.dem')
file('close',I)
file('close',O)
|
7353a3d7950e76bd0e90ae71e20603d4bdfcfd47
|
717ddeb7e700373742c617a95e25a2376565112c
|
/3460/CH4/EX4.5/Ex4_5.sce
|
cd84cefe3d0639b3580cc0ace5fa1658b93f33bf
|
[] |
no_license
|
appucrossroads/Scilab-TBC-Uploads
|
b7ce9a8665d6253926fa8cc0989cda3c0db8e63d
|
1d1c6f68fe7afb15ea12fd38492ec171491f8ce7
|
refs/heads/master
| 2021-01-22T04:15:15.512674
| 2017-09-19T11:51:56
| 2017-09-19T11:51:56
| 92,444,732
| 0
| 0
| null | 2017-05-25T21:09:20
| 2017-05-25T21:09:19
| null |
UTF-8
|
Scilab
| false
| false
| 252
|
sce
|
Ex4_5.sce
|
clc;
clear all;
Delta=10*1e3; //maximun derivation in Hz
fi=2.5*1e3; // intelligence frequency in Hz
highest_needed_sideband=7; //Hz
//find Bandwidth; //Hz
mf=Delta/fi;
BW=fi*highest_needed_sideband*2;
disp(+"KHz",BW/1000,"Bandwidth= ");
|
08d0d58b13ced5792ce7e1bba5a64be8a8df0584
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/443/DEPENDENCIES/17_11_data.sci
|
37097d685f71cf2f52d209045af92058ff44c5db
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 312
|
sci
|
17_11_data.sci
|
//Speed(in rpm)
N=4000;
//Torque develpoed(in N-m)
T=150;
//Stroke length(in m)
L=0.1;
//Diameter of engine(in m)
D=0.08;
//No of cylinders
k=6;
//Mass of fuel consumed(in kg/hr)
mf=20;
//Calorific vaule of fuel(in kJ/kg)
CV=43000;
//Adiabatic constant
y=1.4;
//Clearance Volume(in cc)
Vcl=70;
|
fa0d4feeeed13af135651c88c1541840a18a7d5c
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3710/CH8/EX8.4/Ex8_4.sce
|
d7686abca583c1ea337928acab93d7de7177aa9a
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 565
|
sce
|
Ex8_4.sce
|
//Example 8.4, Page Number 375
//The Function fpround(dependency) is used to round a floating point number x to n decimal places
//Number of modes in a fiber
clc;
n1=1.48//refractive index
n2=1.46//refractive index
l=0.9*(10**-6) //Wavelength in meters
r=100*(10**-6) //Core radius in meter
V=(2*%pi*r*sqrt((n1**2)-(n2**2)))/l
V=fpround(V,1)
N=(V**2)/2 //N is the Number of Modes
N=fpround(N,1)
mprintf("The Value of V is:%.1f\n",V)
mprintf(" The Number of Modes able to propagate is:%.1f",N)
//The difference arising is due to approximation
|
7de79f643156e7230692fa6320c8b8e25d470224
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1418/CH27/EX27.20/EX27_20.sce
|
4dc5dce2815a59e7111e3ae5f00a28bf075c1f77
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,205
|
sce
|
EX27_20.sce
|
//EXAMPLE 27.20
//DC SHUNT GENERATORS
clc;
funcprot(0);
//Variable Initialisation
Ra=0.1;.....//Armature resistance of each generator in Ohms
L=250;......//Total load of each generator in Kilo Watts
Vt=500;.....//Terminal voltage in Volts
fp=4;.......//Raise in field current in Amperes
Le=L/5;......//Load for each generator in Kilo Watts
Io=Le*1000/V;.......//Output current of each generator in Amperes
ad=Ra*Io;.....//Armature drop in Volts
emf=V+ad;........//Induced emf in Volts
iemf=emf+((fp/100)*emf);......//Increse in generated emf in Volts
//Solving for current output of both the generators in Amperes
A=[1,-1;1,4.1];
B=[204;510];
y=A\B;
disp(y(1),"Output current of first generator in Amperes:");
disp(y(2),"Output current of second generator in Amperes:");
Vbus=510-Ra*y(2);........//Bus voltage in Volts
disp(Vbus,"Bus voltage in Volts:");
Po1=Vbus*y(2)/1000;.......//Output of first machinein Kilo Watts
Po=Vbus*y(1)/1000;.........//Output of each of other four generators in Kilo Watts
r=round(Po);.......//Rounding of decimal places
disp(Po1,"Output of first machinein Kilo Watts:");
disp(r,"Output of each of other four generators in Kilo Watts:");
|
ba67a1d5edabf3168763fd0c24db7f1b6a3d14a7
|
dd7fd095816977e3086d7b0c6f11323e5376b4b2
|
/Assignment 1/1 gaussian_elimination.sce
|
bb8e6a546754229a12be9fa7da4d470e52456681
|
[] |
no_license
|
nhimanshujain/Scilab-Assignment
|
92cc8bb44765949c2352696518f2e9c02997e393
|
b9b86cb5083c7ef0258361c4ca7df59e5896c6eb
|
refs/heads/master
| 2023-04-30T00:27:00.641380
| 2021-05-20T15:50:02
| 2021-05-20T15:50:02
| 240,059,936
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,544
|
sce
|
1 gaussian_elimination.sce
|
//Guassian elimination
clc;clear;close;
a=[]
b=[]
n=input("Enter order of matrix = ")
printf("Enter the elements of matrix A\n\n");
for i=1:n
for j=1:n
printf("a(%d %d) = ",i,j)
a(i,j)=input("");
end
end
printf("Enter the elements of matrix b\n\n");
for i=1:n
printf("b(%d %d)",1,i)
b(i,1)=input("");
end
A=[a b]
disp("The Augmented Matrix is")
disp(A)
//Forward elimination
for j=2:n
for i=j:n
if(A(j-1,j-1)==0)then //If pivot is 0
k=j
while(k<=n && A(k,j-1)==0)do //Check non-zero column
k=k+1
end
if(k<=n)then
A([j-1,k],:)=A([k,j-1],:) //Row swap
disp(A)
else
break;
end
end
A(i,j:n+1)=A(i,j:n+1)-A(j-1,j:n+1)*A(i,j-1)/A(j-1,j-1) //Row Transformation
A(i,j-1)=0
end
disp(A)
end
for i=1:n
if(A(i,i)~=0)then
printf("\nPivot %d => %.2f",i,A(i,i))
elseif(A(n,n)==0 && A(n,n+1)==0)then
printf("\nPivot %d => %.2f",i,A(i,i))
printf("\n\nThe system has infinitely many solutions (Temporary Breakdown)");
return;
else
printf("\n\nThe system has no solution - Inconsistent (Permanent Breakdown)");
return;
end
end
//Backward substitution
x(n)=A(n,n+1)/A(n,n)
for i=n-1:-1:1
sum=0
for j=i+1:n
sum=sum+A(i,j)*x(j)
end
x(i)=(A(i,n+1)-sum)/A(i,i)
end
for i=1:n
printf("\nSolution x(%d) => %.2f",i,x(i))
end
|
dda902ecce5d7c6550ce5d61ebc6b6ae3c094cc8
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2453/CH4/EX4.8/4_8.sce
|
695b73824fbbca83e5641739d49ebc9082cf0230
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 320
|
sce
|
4_8.sce
|
//To calculate the temperature
F_E = 0.01; //probability in percent
k = 1.38*10^-23;
e = 1.6*10^-19;
//let E-EF be X
X = 0.5; //E-EF, eV
kT = X/(2.303*log10((1-F_E)*100)); //value of kT, eV
T = kT*e/k; //temperature, K
printf("temperature is %d K",T);
//answer given in the book is wrong
|
1be186c6c1b89d265c640a6d21acad00106a3e19
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3035/CH3/EX3.1/Ex3_1.sce
|
639c141013c7a5324ac88ca4d01f6e44ea7b5e03
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 2,067
|
sce
|
Ex3_1.sce
|
// Variable Declaration
P = 5.0 //Power(MW)
pf = 0.8 //lagging power factor
d = 15.0 //Distance of line(km)
J = 4.0 //Current density(amp per mm^2)
r = 1.78*10**(-8) //Resistivity(ohm-m)
kV_1 = 11.0 //Permissible voltage level(kV)
kV_2 = 22.0 //Permissible voltage level(kV)
// Calculation Section
I_1 = (P*10**3)/((3)**(0.5) * (kV_1) * pf) //Load current(A)
area_1 = I_1/J //Cross-sectional area of the phase conductor(mm^2)
volume_1 = 3 * (area_1/10**6) * (d*10**3) //Volume of conductors material(m^3)
R_1 = r * (d*10**3)/(area_1 * (10**-6)) //Resistance per phase(ohm)
PL_1 = 3 * (I_1**2) * (R_1*10**(-3)) //Power loss(kW)
I_2 = (P*10**3)/((3)**(0.5) * (kV_2) * pf) //Load current(A)
area_2 = I_2/J //Cross-sectional area of the phase conductor(mm^2)
volume_2 = 3 * (area_2/10**6) * (d*10**3) //Volume of conductors material(m^3)
R_2 = r * (d*10**3)/(area_2 * (10**-6)) //Resistance per phase(ohm)
PL_2 = 3 * (I_2**2) * (R_2*10**(-3)) //Power loss(kW)
area_ch = (area_1-area_2)/area_1*100 //Change in area of 22kV level from 11 kV level(%)
vol_ch = (volume_1-volume_2)/volume_1*100 //Change in volume of 22kV level from 11 kV level(%)
loss_ch = (PL_1-PL_2)/PL_1*100 //Change in losses of 22kV level from 11 kV level(%)
// Result Section
printf('For 11 kV level :')
printf('Cross-sectional area of the phase conductor = %d mm^2' ,area_1)
printf('Volume of conductors material = %.2f m^3' ,volume_1)
printf('Power loss = %.2f kW' ,PL_1)
printf('\nFor 22 kV level :')
printf('Cross-sectional area of the phase conductor = %d mm^2' ,area_2)
printf('Volume of conductors material = %.2f m^3' ,volume_2)
printf('Power loss = %.2f kW' ,PL_2)
printf('\nConductor size has decreased by %.f percent in 22 kV level' ,area_ch)
printf('Conductor volume has decreased by %.f percent in 22 kV level' ,vol_ch)
printf('Conductor losses has decreased by %.f percent in 22 kV level' ,loss_ch)
|
ff635916261a6dc316dc68a660623f11ae49f7d1
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/881/CH2/EX2.3/exa2_3.sce
|
31adf4f6e50a01eebc060e0b741a086c360beac7
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 251
|
sce
|
exa2_3.sce
|
clc;
//Example 2.3
//Page no 50
disp("For the pulse waveform shown in figure 2.12 (refer pgno 50)");
//Solution
//(a)
disp("(a)From Equation 2-16 (refer pgno 49), the dc component is ");
v=([1*{0.4*(10^-3)}/{2*(10^-3)}]);
disp('V',v,"V0 = ");
|
b78a3eead4b4027f0bc4cf52a3f5358006e68ab5
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1931/CH13/EX13.3/3.sce
|
994e2bf54cfdedf1db714c64ae57a95048a5f98e
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 452
|
sce
|
3.sce
|
clc
clear
//INPUT DATA
d=9.8*10^26//density of hydrogen gas in atoms/m^3
r=0.50*10^-10//radius of the hydrogen atom in m
ro=8.85*10^-12//permittivity of free space
//CALCULATION
z=(4*3.14*ro*r*r*r)/10^-41//electronic polarisability in Fm^2
rp=(((d*z*10^-41)/ro)+1)//The relative permittivity in hydrogen gas
//OUTPUT
printf('The electronic polarisability is %3.3f*10^-41 Fm^2 \n The relative permittivity in hydrogen gas is %3.4f',z,rp)
|
4f4fcdfe7bdf0eaded17899b0f71db8a53288d67
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1709/CH8/EX8.7/8_7.sce
|
4d29752fc834f5281b501d6b13cb6953979c7a42
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 279
|
sce
|
8_7.sce
|
clc
//Initialization of variables
sig=5.668*10^-5
T1=1000 //K
T2=2000 //K
//calculations
Eb1=sig*T1^4 *10^-7
Eb2=sig*T2^4 *10^-7
//results
printf("total energy emitted in case 1 = %.3f Watts/cm^2",Eb1)
printf("\n total energy emitted in case 2 = %.3f Watts/cm^2",Eb2)
|
56b6d40abaaf7bd0958533bc99fe52c902026d1b
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2411/CH6/EX6.11/Ex6_11.sce
|
ad552cce34c454642ea1fa4cfc3a485c3bd73880
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 847
|
sce
|
Ex6_11.sce
|
// Scilab Code Ex6.11: Page-351 (2008)
clc; clear;
h = 6.6e-034; // Planck's constant, Js
m = 9.1e-031; // Mass of an electron, kg
e = 1.6e-019; // Energy equivalent of 1 eV, J
rho = 10.5; // Density of silver, g/cc
A = 108; // Atomic weight of Ag, g/mole
N_A = 6.023e+023; // Avogadro's number
E_F0 = h^2/(8*m)*(3*N_A*rho*1e+006/(%pi*A))^(2/3); // Fermi energy of silver at 0 K, J
U = 3/5*(N_A*rho*1e+006/A)*E_F0; // Internal energy of the electron gas per unit volume at 0 K, J/metre-cube
printf("\nThe Fermi energy of silver at 0 K = %3.1f eV", E_F0/e);
printf("\nThe internal energy of the electron gas per unit volume at 0 K = %4.2e J/cubic-metre", U);
// Result
// The Fermi energy of silver at 0 K = 5.5 eV
// The internal energy of the electron gas per unit volume at 0 K = 3.07e+010 J/cubic-metre
|
b25a1a718701ad1aa7dd4b183057f07a8d9bd5ca
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/49/CH7/EX7.7/ex7.sce
|
e37fa2672f12b174f5dfe790052a32932583b1d8
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,145
|
sce
|
ex7.sce
|
//CHAPTER 7_ Flow Measurement
//Caption : Venturi
// Example 7// Page 446
p1=5*10^6 //('entering the pressure of air when venturi is to be used =:')
t1=298 //('entering the temperature of air for the same=:')
m_max=1 //('entering the maximum flow rate=:')
m_min=0.3 //('entering the minimum flow rate=:')
Re_min=10^5 //('entering the throats reynold number=:')
R=287; // for air
pho1=p1/(R*t1);
b=0.5;
mu=1.8462*10^-5 //('enter the absolute viscosity=:')
D_max=(4*m_max)/(%pi*Re_min*mu);
D_min=(4*m_min)/(%pi*Re_min*mu);
printf('So the throat diameters for maximum and minimum flows so the reynolds number does not exceed 10^5 are %1.4f m and %1.4f m respectively\n',D_max,D_min)
// To calculate the differential pressure
At=%pi*D_max^2/4;
C=1; // discharge coefficient
M=1.0328; // Velocity approach coefficient
Y=.9912; // Expansion factor
dP_max=(m_max)^2/(Y^2*M^2*C^2*At^2*2*pho1);
printf('The differential pressure for maximum flow rate is %1.5f Pa\n',dP_max)
dP_min=(m_min)^2/(Y^2*M^2*C^2*At^2*2*pho1)*1000;
printf('The differential pressure for minimum flow rate is %1.2f mPa\n',dP_min)
|
9a173bb6e2b19b70e6b0183af8b3c0ebb5f7f284
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1931/CH8/EX8.15/15.sce
|
d02001df8fa4ca9fea7c4a5bacd8b67db6419d75
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 532
|
sce
|
15.sce
|
clc
clear
//INPUT DATA
a=0.1*10^-9//length of one dimensional box in m
n=1//first permitted level
h=6.625*10^-34//Planck's constant in m^2 Kg /sec
m=9.11*10^-31//mass of electron in Kg
e=1.6*10^-19//charge of electron in coulombs
ne=3//the number of electrons
//CALCULATION
E=((n^2*h^2)/(8*m*a^2*e))*ne//The lowest energy of the system consisting of three electron ia a one dimensional box in eV
//OUTPUT
printf('The lowest energy of the system consisting of three electron ia a one dimensional box is %3.4f eV',E)
|
f6575ac50bda191cad7f9ff3d4b0a451cd703d42
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2318/CH5/EX5.11/ex_5_11.sce
|
3b54bdac470d32fb625fc4e772d1a5494c66dda0
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 302
|
sce
|
ex_5_11.sce
|
//Example 5.11 // Fluxmeter deflection
clc;
clear;
close;
//given data :
l=5*10^-2;// in m
N=40;// turns
B=5*10^-3;// in Wb/m^2
b=1.5*10^-2;// in m
cs=2*10^-4;// in m^2
B1=0.05;// in Wb/m^2
fi=B1*cs;
del_fi=2*fi;
theta=(del_fi*10)/(N*B*l*b);
disp((theta*(180/%pi)),"Fluxmeter deflection,(degree) = ")
|
6eb7819dd6bed9d176e10b7040ca0e282e5a32b3
|
f542bc49c4d04b47d19c88e7c89d5db60922e34e
|
/PresentationFiles_Subjects/CONT/__SUBJECT_TEST_CONT/ATWM1_Working_Memory_MEG___SUBJECT_TEST_CONT_Session1/ATWM1_Working_Memory_MEG_Salient_Uncued_Run1.sce
|
0ee415a18d1e16e4e35c1cf29a953d5315658440
|
[] |
no_license
|
atwm1/Presentation
|
65c674180f731f050aad33beefffb9ba0caa6688
|
9732a004ca091b184b670c56c55f538ff6600c08
|
refs/heads/master
| 2020-04-15T14:04:41.900640
| 2020-02-14T16:10:11
| 2020-02-14T16:10:11
| 56,771,016
| 0
| 1
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 48,405
|
sce
|
ATWM1_Working_Memory_MEG_Salient_Uncued_Run1.sce
|
# ATWM1 MEG Experiment
scenario = "ATWM1_Working_Memory_MEG_salient_uncued_run1";
#scenario_type = fMRI; # Fuer Scanner
#scenario_type = fMRI_emulation; # Zum Testen
scenario_type = trials; # for MEG
#scan_period = 2000; # TR
#pulses_per_scan = 1;
#pulse_code = 1;
pulse_width=6;
default_monitor_sounds = false;
active_buttons = 2;
response_matching = simple_matching;
button_codes = 10, 20;
default_font_size = 36;
default_font = "Arial";
default_background_color = 0 ,0 ,0 ;
write_codes=true; # for MEG only
begin;
#Picture definitions
box { height = 382; width = 382; color = 0, 0, 0;} frame1;
box { height = 369; width = 369; color = 255, 255, 255;} frame2;
box { height = 30; width = 4; color = 0, 0, 0;} fix1;
box { height = 4; width = 30; color = 0, 0, 0;} fix2;
box { height = 30; width = 4; color = 255, 0, 0;} fix3;
box { height = 4; width = 30; color = 255, 0, 0;} fix4;
box { height = 369; width = 369; color = 42, 42, 42;} background;
TEMPLATE "StimuliDeclaration.tem" {};
trial {
sound sound_incorrect;
time = 0;
duration = 1;
} wrong;
trial {
sound sound_correct;
time = 0;
duration = 1;
} right;
trial {
sound sound_no_response;
time = 0;
duration = 1;
} miss;
# Start of experiment (MEG only) - sync with CTF software
trial {
picture {
box frame1; x=0; y=0;
box frame2; x=0; y=0;
box background; x=0; y=0;
bitmap fixation_cross_black; x=0; y=0;
} expStart;
time = 0;
duration = 1000;
code = "ExpStart";
port_code = 80;
};
# baselinePre (at the beginning of the session)
trial {
picture {
box frame1; x=0; y=0;
box frame2; x=0; y=0;
box background; x=0; y=0;
bitmap fixation_cross_black; x=0; y=0;
}default;
time = 0;
duration = 10000;
#mri_pulse = 1;
code = "BaselinePre";
port_code = 91;
};
TEMPLATE "ATWM1_Working_Memory_MEG.tem" {
trigger_encoding trigger_retrieval cue_time preparation_time encoding_time single_stimulus_presentation_time delay_time retrieval_time intertrial_interval alerting_cross stim_enc1 stim_enc2 stim_enc3 stim_enc4 stim_enc_alt1 stim_enc_alt2 stim_enc_alt3 stim_enc_alt4 trial_code stim_retr1 stim_retr2 stim_retr3 stim_retr4 stim_cue1 stim_cue2 stim_cue3 stim_cue4 fixationcross_cued retr_code the_target_button posX1 posY1 posX2 posY2 posX3 posY3 posX4 posY4;
42 61 292 292 399 125 1742 2992 2192 fixation_cross gabor_169 gabor_096 gabor_054 gabor_144 gabor_169_alt gabor_096_alt gabor_054 gabor_144 "1_1_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1750_3000_2200_gabor_patch_orientation_169_096_054_144_target_position_1_2_retrieval_position_1" gabor_121_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_1_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_121_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2242 2992 2342 fixation_cross gabor_071 gabor_143 gabor_033 gabor_180 gabor_071_alt gabor_143 gabor_033 gabor_180_alt "1_2_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2250_3000_2350_gabor_patch_orientation_071_143_033_180_target_position_1_4_retrieval_position_1" gabor_118_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_2_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_118_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1992 2992 2542 fixation_cross gabor_166 gabor_097 gabor_010 gabor_034 gabor_166 gabor_097_alt gabor_010 gabor_034_alt "1_3_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2550_gabor_patch_orientation_166_097_010_034_target_position_2_4_retrieval_position_2" gabor_circ gabor_097_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_3_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_097_retrieval_position_2" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2192 2992 2292 fixation_cross gabor_156 gabor_110 gabor_001 gabor_173 gabor_156_alt gabor_110 gabor_001 gabor_173_alt "1_4_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2200_3000_2300_gabor_patch_orientation_156_110_001_173_target_position_1_4_retrieval_position_1" gabor_020_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_4_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_020_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1842 2992 1942 fixation_cross gabor_135 gabor_008 gabor_155 gabor_090 gabor_135 gabor_008 gabor_155_alt gabor_090_alt "1_5_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_1950_gabor_patch_orientation_135_008_155_090_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_090_framed blank blank blank blank fixation_cross_white "1_5_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_090_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 2092 2992 2292 fixation_cross gabor_164 gabor_035 gabor_008 gabor_113 gabor_164_alt gabor_035 gabor_008 gabor_113_alt "1_6_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_2100_3000_2300_gabor_patch_orientation_164_035_008_113_target_position_1_4_retrieval_position_3" gabor_circ gabor_circ gabor_008_framed gabor_circ blank blank blank blank fixation_cross_white "1_6_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_008_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2242 2992 2292 fixation_cross gabor_140 gabor_167 gabor_005 gabor_055 gabor_140 gabor_167_alt gabor_005_alt gabor_055 "1_7_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2250_3000_2300_gabor_patch_orientation_140_167_005_055_target_position_2_3_retrieval_position_2" gabor_circ gabor_118_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_7_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_118_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2042 2992 1942 fixation_cross gabor_030 gabor_010 gabor_168 gabor_153 gabor_030 gabor_010 gabor_168_alt gabor_153_alt "1_8_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2050_3000_1950_gabor_patch_orientation_030_010_168_153_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_119_framed gabor_circ blank blank blank blank fixation_cross_white "1_8_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_119_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2042 2992 2142 fixation_cross gabor_006 gabor_026 gabor_139 gabor_067 gabor_006 gabor_026 gabor_139_alt gabor_067_alt "1_9_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2050_3000_2150_gabor_patch_orientation_006_026_139_067_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_067_framed blank blank blank blank fixation_cross_white "1_9_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_067_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1992 2992 2042 fixation_cross gabor_063 gabor_078 gabor_093 gabor_168 gabor_063_alt gabor_078 gabor_093_alt gabor_168 "1_10_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2050_gabor_patch_orientation_063_078_093_168_target_position_1_3_retrieval_position_1" gabor_063_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_10_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_063_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2242 2992 2092 fixation_cross gabor_003 gabor_155 gabor_037 gabor_112 gabor_003 gabor_155_alt gabor_037_alt gabor_112 "1_11_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2250_3000_2100_gabor_patch_orientation_003_155_037_112_target_position_2_3_retrieval_position_3" gabor_circ gabor_circ gabor_172_framed gabor_circ blank blank blank blank fixation_cross_white "1_11_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_172_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 1742 2992 2142 fixation_cross gabor_022 gabor_044 gabor_109 gabor_087 gabor_022 gabor_044_alt gabor_109_alt gabor_087 "1_12_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_1750_3000_2150_gabor_patch_orientation_022_044_109_087_target_position_2_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_133_framed blank blank blank blank fixation_cross_white "1_12_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_133_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1742 2992 2342 fixation_cross gabor_090 gabor_141 gabor_054 gabor_176 gabor_090 gabor_141_alt gabor_054 gabor_176_alt "1_13_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1750_3000_2350_gabor_patch_orientation_090_141_054_176_target_position_2_4_retrieval_position_2" gabor_circ gabor_141_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_13_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_141_retrieval_position_2" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1792 2992 2242 fixation_cross gabor_081 gabor_101 gabor_171 gabor_048 gabor_081 gabor_101 gabor_171_alt gabor_048_alt "1_14_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1800_3000_2250_gabor_patch_orientation_081_101_171_048_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_171_framed gabor_circ blank blank blank blank fixation_cross_white "1_14_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_171_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 1942 2992 1892 fixation_cross gabor_161 gabor_015 gabor_087 gabor_121 gabor_161 gabor_015_alt gabor_087 gabor_121_alt "1_15_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_1950_3000_1900_gabor_patch_orientation_161_015_087_121_target_position_2_4_retrieval_position_3" gabor_circ gabor_circ gabor_040_framed gabor_circ blank blank blank blank fixation_cross_white "1_15_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_040_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1792 2992 2292 fixation_cross gabor_110 gabor_180 gabor_032 gabor_142 gabor_110_alt gabor_180 gabor_032_alt gabor_142 "1_16_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1800_3000_2300_gabor_patch_orientation_110_180_032_142_target_position_1_3_retrieval_position_1" gabor_110_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_16_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_110_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1742 2992 1992 fixation_cross gabor_061 gabor_004 gabor_129 gabor_170 gabor_061_alt gabor_004 gabor_129 gabor_170_alt "1_17_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1750_3000_2000_gabor_patch_orientation_061_004_129_170_target_position_1_4_retrieval_position_1" gabor_061_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_17_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_061_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1892 2992 2392 fixation_cross gabor_120 gabor_176 gabor_037 gabor_056 gabor_120 gabor_176 gabor_037_alt gabor_056_alt "1_18_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1900_3000_2400_gabor_patch_orientation_120_176_037_056_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_007_framed blank blank blank blank fixation_cross_white "1_18_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_007_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2042 2992 2342 fixation_cross gabor_165 gabor_019 gabor_047 gabor_083 gabor_165 gabor_019 gabor_047_alt gabor_083_alt "1_19_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2050_3000_2350_gabor_patch_orientation_165_019_047_083_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_047_framed gabor_circ blank blank blank blank fixation_cross_white "1_19_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_047_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 1992 2992 2442 fixation_cross gabor_021 gabor_067 gabor_133 gabor_180 gabor_021_alt gabor_067 gabor_133_alt gabor_180 "1_20_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_2000_3000_2450_gabor_patch_orientation_021_067_133_180_target_position_1_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_180_framed blank blank blank blank fixation_cross_white "1_20_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_180_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2042 2992 2442 fixation_cross gabor_153 gabor_011 gabor_065 gabor_123 gabor_153 gabor_011_alt gabor_065 gabor_123_alt "1_21_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2050_3000_2450_gabor_patch_orientation_153_011_065_123_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_173_framed blank blank blank blank fixation_cross_white "1_21_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_173_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1992 2992 2142 fixation_cross gabor_032 gabor_070 gabor_014 gabor_138 gabor_032_alt gabor_070 gabor_014_alt gabor_138 "1_22_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2000_3000_2150_gabor_patch_orientation_032_070_014_138_target_position_1_3_retrieval_position_3" gabor_circ gabor_circ gabor_154_framed gabor_circ blank blank blank blank fixation_cross_white "1_22_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_154_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1992 2992 2442 fixation_cross gabor_101 gabor_162 gabor_083 gabor_146 gabor_101 gabor_162_alt gabor_083 gabor_146_alt "1_23_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2450_gabor_patch_orientation_101_162_083_146_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_146_framed blank blank blank blank fixation_cross_white "1_23_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_146_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2092 2992 2242 fixation_cross gabor_101 gabor_075 gabor_132 gabor_165 gabor_101_alt gabor_075_alt gabor_132 gabor_165 "1_24_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2100_3000_2250_gabor_patch_orientation_101_075_132_165_target_position_1_2_retrieval_position_1" gabor_053_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_24_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_053_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2142 2992 2492 fixation_cross gabor_057 gabor_168 gabor_096 gabor_133 gabor_057_alt gabor_168 gabor_096 gabor_133_alt "1_25_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2150_3000_2500_gabor_patch_orientation_057_168_096_133_target_position_1_4_retrieval_position_1" gabor_011_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_25_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_011_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 2092 2992 2542 fixation_cross gabor_132 gabor_151 gabor_046 gabor_063 gabor_132 gabor_151_alt gabor_046_alt gabor_063 "1_26_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_2100_3000_2550_gabor_patch_orientation_132_151_046_063_target_position_2_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_063_framed blank blank blank blank fixation_cross_white "1_26_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_063_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2042 2992 2092 fixation_cross gabor_150 gabor_121 gabor_172 gabor_032 gabor_150_alt gabor_121 gabor_172_alt gabor_032 "1_27_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2050_3000_2100_gabor_patch_orientation_150_121_172_032_target_position_1_3_retrieval_position_1" gabor_013_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_27_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_013_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2142 2992 2542 fixation_cross gabor_059 gabor_008 gabor_039 gabor_178 gabor_059 gabor_008_alt gabor_039 gabor_178_alt "1_28_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2150_3000_2550_gabor_patch_orientation_059_008_039_178_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_128_framed blank blank blank blank fixation_cross_white "1_28_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_128_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1842 2992 2492 fixation_cross gabor_029 gabor_147 gabor_005 gabor_083 gabor_029_alt gabor_147_alt gabor_005 gabor_083 "1_29_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1850_3000_2500_gabor_patch_orientation_029_147_005_083_target_position_1_2_retrieval_position_1" gabor_168_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_29_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_168_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2192 2992 2392 fixation_cross gabor_064 gabor_047 gabor_023 gabor_179 gabor_064 gabor_047_alt gabor_023 gabor_179_alt "1_30_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2200_3000_2400_gabor_patch_orientation_064_047_023_179_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_179_framed blank blank blank blank fixation_cross_white "1_30_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_179_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2092 2992 2392 fixation_cross gabor_116 gabor_049 gabor_172 gabor_065 gabor_116 gabor_049 gabor_172_alt gabor_065_alt "1_31_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2100_3000_2400_gabor_patch_orientation_116_049_172_065_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_033_framed gabor_circ blank blank blank blank fixation_cross_white "1_31_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_033_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 1742 2992 1942 fixation_cross gabor_035 gabor_161 gabor_015 gabor_071 gabor_035 gabor_161_alt gabor_015_alt gabor_071 "1_32_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_1750_3000_1950_gabor_patch_orientation_035_161_015_071_target_position_2_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_071_framed blank blank blank blank fixation_cross_white "1_32_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_071_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1792 2992 2492 fixation_cross gabor_118 gabor_135 gabor_045 gabor_162 gabor_118 gabor_135_alt gabor_045_alt gabor_162 "1_33_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1800_3000_2500_gabor_patch_orientation_118_135_045_162_target_position_2_3_retrieval_position_2" gabor_circ gabor_135_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_33_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_135_retrieval_position_2" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1892 2992 2292 fixation_cross gabor_074 gabor_096 gabor_050 gabor_117 gabor_074_alt gabor_096 gabor_050_alt gabor_117 "1_34_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1900_3000_2300_gabor_patch_orientation_074_096_050_117_target_position_1_3_retrieval_position_1" gabor_027_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_34_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_027_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2092 2992 1892 fixation_cross gabor_179 gabor_106 gabor_034 gabor_151 gabor_179_alt gabor_106 gabor_034 gabor_151_alt "1_35_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2100_3000_1900_gabor_patch_orientation_179_106_034_151_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_016_framed blank blank blank blank fixation_cross_white "1_35_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_016_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1742 2992 1992 fixation_cross gabor_015 gabor_156 gabor_179 gabor_097 gabor_015 gabor_156_alt gabor_179 gabor_097_alt "1_36_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1750_3000_2000_gabor_patch_orientation_015_156_179_097_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_049_framed blank blank blank blank fixation_cross_white "1_36_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_049_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 2042 2992 2442 fixation_cross gabor_095 gabor_041 gabor_152 gabor_067 gabor_095_alt gabor_041 gabor_152_alt gabor_067 "1_37_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_2050_3000_2450_gabor_patch_orientation_095_041_152_067_target_position_1_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_067_framed blank blank blank blank fixation_cross_white "1_37_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_067_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2192 2992 2192 fixation_cross gabor_040 gabor_010 gabor_116 gabor_172 gabor_040 gabor_010_alt gabor_116_alt gabor_172 "1_38_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2200_3000_2200_gabor_patch_orientation_040_010_116_172_target_position_2_3_retrieval_position_2" gabor_circ gabor_010_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_38_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_010_retrieval_position_2" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1842 2992 2392 fixation_cross gabor_152 gabor_174 gabor_127 gabor_092 gabor_152_alt gabor_174 gabor_127 gabor_092_alt "1_39_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_2400_gabor_patch_orientation_152_174_127_092_target_position_1_4_retrieval_position_1" gabor_152_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_39_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_152_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2192 2992 2592 fixation_cross gabor_036 gabor_052 gabor_068 gabor_089 gabor_036_alt gabor_052 gabor_068_alt gabor_089 "1_40_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2200_3000_2600_gabor_patch_orientation_036_052_068_089_target_position_1_3_retrieval_position_1" gabor_175_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_40_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_175_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1842 2992 2042 fixation_cross gabor_144 gabor_099 gabor_013 gabor_165 gabor_144 gabor_099 gabor_013_alt gabor_165_alt "1_41_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1850_3000_2050_gabor_patch_orientation_144_099_013_165_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_029_framed blank blank blank blank fixation_cross_white "1_41_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_029_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1942 2992 2042 fixation_cross gabor_022 gabor_062 gabor_006 gabor_046 gabor_022_alt gabor_062 gabor_006 gabor_046_alt "1_42_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1950_3000_2050_gabor_patch_orientation_022_062_006_046_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_091_framed blank blank blank blank fixation_cross_white "1_42_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_091_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 1892 2992 1892 fixation_cross gabor_139 gabor_061 gabor_077 gabor_026 gabor_139 gabor_061_alt gabor_077 gabor_026_alt "1_43_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_1900_3000_1900_gabor_patch_orientation_139_061_077_026_target_position_2_4_retrieval_position_1" gabor_003_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_43_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_003_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1942 2992 2192 fixation_cross gabor_163 gabor_047 gabor_092 gabor_119 gabor_163 gabor_047_alt gabor_092 gabor_119_alt "1_44_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1950_3000_2200_gabor_patch_orientation_163_047_092_119_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_119_framed blank blank blank blank fixation_cross_white "1_44_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_119_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2242 2992 2592 fixation_cross gabor_069 gabor_019 gabor_089 gabor_036 gabor_069 gabor_019_alt gabor_089 gabor_036_alt "1_45_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2250_3000_2600_gabor_patch_orientation_069_019_089_036_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_036_framed blank blank blank blank fixation_cross_white "1_45_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_036_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1792 2992 2342 fixation_cross gabor_061 gabor_122 gabor_148 gabor_035 gabor_061_alt gabor_122_alt gabor_148 gabor_035 "1_46_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1800_3000_2350_gabor_patch_orientation_061_122_148_035_target_position_1_2_retrieval_position_2" gabor_circ gabor_170_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_46_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_170_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1792 2992 2142 fixation_cross gabor_091 gabor_118 gabor_162 gabor_145 gabor_091 gabor_118_alt gabor_162 gabor_145_alt "1_47_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1800_3000_2150_gabor_patch_orientation_091_118_162_145_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_009_framed blank blank blank blank fixation_cross_white "1_47_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_009_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 1842 2992 1942 fixation_cross gabor_040 gabor_007 gabor_096 gabor_168 gabor_040_alt gabor_007_alt gabor_096 gabor_168 "1_48_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_1850_3000_1950_gabor_patch_orientation_040_007_096_168_target_position_1_2_retrieval_position_3" gabor_circ gabor_circ gabor_146_framed gabor_circ blank blank blank blank fixation_cross_white "1_48_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_146_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 2142 2992 1992 fixation_cross gabor_016 gabor_031 gabor_048 gabor_164 gabor_016 gabor_031_alt gabor_048 gabor_164_alt "1_49_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_2150_3000_2000_gabor_patch_orientation_016_031_048_164_target_position_2_4_retrieval_position_2" gabor_circ gabor_081_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_49_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_081_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1792 2992 2242 fixation_cross gabor_012 gabor_084 gabor_044 gabor_060 gabor_012_alt gabor_084_alt gabor_044 gabor_060 "1_50_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1800_3000_2250_gabor_patch_orientation_012_084_044_060_target_position_1_2_retrieval_position_1" gabor_150_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_50_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_150_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1892 2992 1892 fixation_cross gabor_177 gabor_112 gabor_025 gabor_072 gabor_177_alt gabor_112 gabor_025_alt gabor_072 "1_51_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1900_3000_1900_gabor_patch_orientation_177_112_025_072_target_position_1_3_retrieval_position_3" gabor_circ gabor_circ gabor_025_framed gabor_circ blank blank blank blank fixation_cross_white "1_51_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_025_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1742 2992 2542 fixation_cross gabor_175 gabor_154 gabor_031 gabor_115 gabor_175 gabor_154 gabor_031_alt gabor_115_alt "1_52_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1750_3000_2550_gabor_patch_orientation_175_154_031_115_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_115_framed blank blank blank blank fixation_cross_white "1_52_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_115_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 2192 2992 2042 fixation_cross gabor_064 gabor_007 gabor_175 gabor_029 gabor_064 gabor_007 gabor_175_alt gabor_029_alt "1_53_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_2200_3000_2050_gabor_patch_orientation_064_007_175_029_target_position_3_4_retrieval_position_1" gabor_113_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_53_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_113_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1792 2992 2092 fixation_cross gabor_090 gabor_043 gabor_118 gabor_062 gabor_090_alt gabor_043 gabor_118 gabor_062_alt "1_54_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1800_3000_2100_gabor_patch_orientation_090_043_118_062_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_062_framed blank blank blank blank fixation_cross_white "1_54_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_062_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 2092 2992 2092 fixation_cross gabor_003 gabor_175 gabor_140 gabor_020 gabor_003_alt gabor_175_alt gabor_140 gabor_020 "1_55_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_2100_3000_2100_gabor_patch_orientation_003_175_140_020_target_position_1_2_retrieval_position_3" gabor_circ gabor_circ gabor_140_framed gabor_circ blank blank blank blank fixation_cross_white "1_55_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_140_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2242 2992 2192 fixation_cross gabor_031 gabor_095 gabor_154 gabor_118 gabor_031_alt gabor_095 gabor_154_alt gabor_118 "1_56_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2250_3000_2200_gabor_patch_orientation_031_095_154_118_target_position_1_3_retrieval_position_1" gabor_031_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_56_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_031_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1992 2992 1992 fixation_cross gabor_064 gabor_124 gabor_041 gabor_083 gabor_064 gabor_124_alt gabor_041 gabor_083_alt "1_57_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2000_gabor_patch_orientation_064_124_041_083_target_position_2_4_retrieval_position_2" gabor_circ gabor_124_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_57_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_124_retrieval_position_2" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1942 2992 2142 fixation_cross gabor_054 gabor_086 gabor_015 gabor_070 gabor_054_alt gabor_086 gabor_015_alt gabor_070 "1_58_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1950_3000_2150_gabor_patch_orientation_054_086_015_070_target_position_1_3_retrieval_position_1" gabor_054_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_58_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_054_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1842 2992 2592 fixation_cross gabor_173 gabor_067 gabor_094 gabor_146 gabor_173 gabor_067_alt gabor_094_alt gabor_146 "1_59_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1850_3000_2600_gabor_patch_orientation_173_067_094_146_target_position_2_3_retrieval_position_2" gabor_circ gabor_113_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_59_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_113_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 2242 2992 2242 fixation_cross gabor_055 gabor_040 gabor_179 gabor_162 gabor_055_alt gabor_040 gabor_179 gabor_162_alt "1_60_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_2250_3000_2250_gabor_patch_orientation_055_040_179_162_target_position_1_4_retrieval_position_2" gabor_circ gabor_089_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_60_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_089_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1892 2992 2042 fixation_cross gabor_061 gabor_015 gabor_038 gabor_177 gabor_061 gabor_015 gabor_038_alt gabor_177_alt "1_61_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1900_3000_2050_gabor_patch_orientation_061_015_038_177_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_038_framed gabor_circ blank blank blank blank fixation_cross_white "1_61_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_038_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1942 2992 1942 fixation_cross gabor_033 gabor_092 gabor_069 gabor_010 gabor_033 gabor_092_alt gabor_069 gabor_010_alt "1_62_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1950_3000_1950_gabor_patch_orientation_033_092_069_010_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_150_framed blank blank blank blank fixation_cross_white "1_62_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_150_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2192 2992 2592 fixation_cross gabor_044 gabor_009 gabor_026 gabor_177 gabor_044 gabor_009 gabor_026_alt gabor_177_alt "1_63_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2200_3000_2600_gabor_patch_orientation_044_009_026_177_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_026_framed gabor_circ blank blank blank blank fixation_cross_white "1_63_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_026_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1842 2992 2492 fixation_cross gabor_024 gabor_009 gabor_149 gabor_178 gabor_024 gabor_009_alt gabor_149_alt gabor_178 "1_64_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_2500_gabor_patch_orientation_024_009_149_178_target_position_2_3_retrieval_position_3" gabor_circ gabor_circ gabor_149_framed gabor_circ blank blank blank blank fixation_cross_white "1_64_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_149_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2142 2992 2242 fixation_cross gabor_017 gabor_122 gabor_078 gabor_093 gabor_017_alt gabor_122_alt gabor_078 gabor_093 "1_65_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2150_3000_2250_gabor_patch_orientation_017_122_078_093_target_position_1_2_retrieval_position_1" gabor_017_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_65_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_017_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 2142 2992 2192 fixation_cross gabor_123 gabor_085 gabor_152 gabor_170 gabor_123 gabor_085_alt gabor_152 gabor_170_alt "1_66_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_2150_3000_2200_gabor_patch_orientation_123_085_152_170_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_170_framed blank blank blank blank fixation_cross_white "1_66_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_170_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 63 292 292 399 125 1942 2992 1992 fixation_cross gabor_009 gabor_123 gabor_098 gabor_164 gabor_009_alt gabor_123 gabor_098 gabor_164_alt "1_67_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_300_300_399_1950_3000_2000_gabor_patch_orientation_009_123_098_164_target_position_1_4_retrieval_position_3" gabor_circ gabor_circ gabor_144_framed gabor_circ blank blank blank blank fixation_cross_white "1_67_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_144_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 61 292 292 399 125 1892 2992 2342 fixation_cross gabor_058 gabor_129 gabor_073 gabor_090 gabor_058_alt gabor_129 gabor_073_alt gabor_090 "1_68_Encoding_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_300_300_399_1900_3000_2350_gabor_patch_orientation_058_129_073_090_target_position_1_3_retrieval_position_3" gabor_circ gabor_circ gabor_023_framed gabor_circ blank blank blank blank fixation_cross_white "1_68_Retrieval_Working_Memory_MEG_P1_LR_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_023_retrieval_position_3" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 62 292 292 399 125 1892 2992 2092 fixation_cross gabor_061 gabor_088 gabor_144 gabor_032 gabor_061 gabor_088_alt gabor_144 gabor_032_alt "1_69_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_300_300_399_1900_3000_2100_gabor_patch_orientation_061_088_144_032_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_032_framed blank blank blank blank fixation_cross_white "1_69_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_032_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
42 64 292 292 399 125 2142 2992 1892 fixation_cross gabor_035 gabor_124 gabor_104 gabor_144 gabor_035_alt gabor_124 gabor_104 gabor_144_alt "1_70_Encoding_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_300_300_399_2150_3000_1900_gabor_patch_orientation_035_124_104_144_target_position_1_4_retrieval_position_3" gabor_circ gabor_circ gabor_104_framed gabor_circ blank blank blank blank fixation_cross_white "1_70_Retrieval_Working_Memory_MEG_P1_LR_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_104_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69;
};
# baselinePost (at the end of the session)
trial {
picture {
box frame1; x=0; y=0;
box frame2; x=0; y=0;
box background; x=0; y=0;
bitmap fixation_cross_black; x=0; y=0;
};
time = 0;
duration = 5000;
code = "BaselinePost";
port_code = 92;
};
|
82fe80919e23ae3f00a576dd774dba33e4ef8703
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1967/CH13/EX13.6/13_6.sce
|
99b9492488146e3693c202fdb690b66a9b589452
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 262
|
sce
|
13_6.sce
|
clc
//initialisation of variables
clear
R= 4.576 //cal mole^-1 K^-1
T= 25 //C
p1= 122 //mm
F1= -5.88 //kcal
F2= -33 //kcal
//CALCULATIONS
dF= R*(273.2+T)*log10(p1/760)
F= F2+F1+(dF/1000)
//RESULTS
printf ('Standard free energy change = %.f kcal',F)
|
f812ccdba81846b58e310d8c904fb3e1f9800599
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1628/CH10/EX10.2/Ex10_2.sce
|
95cde24a88ab26438c2aa7c6faaa9363fd3a250f
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 820
|
sce
|
Ex10_2.sce
|
// Example 10.2
P=750; // Rated Power
V=230; // Supply Voltage
f=50; // Frequency
Vr=100 // Rated Voltage
I=P/Vr; // Rated Current
Vc=sqrt(V^2-Vr^2); // Voltage across Capacitor
Xc=Vc/I; // Capacitve Reactance
C=1/(2*%pi*f*Xc); // Capacitance
disp(' Required Capacitance = '+string(C)+' F');
Q=acosd(Vr/V); // Phase Angle
disp(' Phase Angle = '+string(Q)+' Didree');
pf=cosd(Q); // Power Fector
disp(' Power Factor = '+string(pf)+' Leading');
Pa=V*I; // Apparent power
disp(' Apparent value of Power = '+string(Pa)+' VA');
Pr=V*I*sind(Q); // Reactive Power
disp(' Reactive Power = '+string(round(Pr))+' VAR');
// p 344 10.2
|
e5427320ba614a40b2b7a0a8323e2016184bdbf2
|
6a0d5ad524ce9b230c7e35af224317d515bb8f2d
|
/recovery.sce
|
567811ea79814920edaa38c18b68ab05415db98c
|
[] |
no_license
|
mcuilleret/Entropic
|
b562ded98cbb74ad55579b6be5730767f24f4f2b
|
0dd4e8bacb312015cd6c3b04b732ebd69de4ac23
|
refs/heads/main
| 2023-08-13T07:07:02.684153
| 2021-10-05T10:28:19
| 2021-10-05T10:28:19
| 413,753,215
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 26,559
|
sce
|
recovery.sce
|
//////////Del
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
[DiffDel]=diff(IndDelAn(12:size(IndDelAn)(1),:) ,1,"r")
DebutCriseDelFoodssect=[(find(DiffDel(:,1)==1)+1)']
DebutCriseDelBiologie=[(find(DiffDel(:,2)==1)+1)']
DebutCriseDelEconomie=[(find(DiffDel(:,3)==1)+1)']
DebutCriseDelNbBoat=[(find(DiffDel(:,4)==1)+1)']
[DiffDelTot]=diff(IndDelTotAn(12:size(IndDelTotAn)(1),:) ,1,"r")
DebutCriseDelTotal=[(find(DiffDelTot(:,1)==1)+1)']
//////////////////////////////////////////////////////////////////////////////
FinCriseDelFoodssect=[(find(DiffDel(:,1)==-1)+1)']
FinCriseDelBiologie=[(find(DiffDel(:,2)==-1)+1)']
FinCriseDelEconomie=[(find(DiffDel(:,3)==-1)+1)']
FinCriseDelNbBoat=[(find(DiffDel(:,4)==-1)+1)']
FinCriseDelTotal=[(find(DiffDelTot(:,1)==-1)+1)']
//////////////////////////////////////////////////////////////////////////////
if DebutCriseDelFoodssect(1)==[] & FinCriseDelFoodssect(1)==[]&sum(IndDelAn(12:size(IndDelAn)(1),1))==0 then
DebutCriseDelFoodssect(1)=[1]
FinCriseDelFoodssect(1)=[1]
end
if DebutCriseDelTotal(1)==[] & FinCriseDelTotal(1)==[]&sum(IndDelTotAn(12:size(IndDelTotAn)(1),1))==0 then
DebutCriseDelTotal(1)=[1]
FinCriseDelTotal(1)=[1]
end
if DebutCriseDelBiologie(1)==[] & FinCriseDelBiologie(1)==[]&sum(IndDelAn(12:size(IndDelAn)(1),2))==0 then
DebutCriseDelBiologie(1)=[1]
FinCriseDelBiologie(1)=[1]
end
if DebutCriseDelEconomie(1)==[] & FinCriseDelEconomie(1)==[]&sum(IndDelAn(12:size(IndDelAn)(1),3))==0 then
DebutCriseDelEconomie(1)=[1]
FinCriseDelEconomie(1)=[1]
end
if DebutCriseDelNbBoat(1)==[] & FinCriseDelNbBoat(1)==[]&sum(IndDelAn(12:size(IndDelAn)(1),4))==0 then
DebutCriseDelNbBoat(1)=[1]
FinCriseDelNbBoat(1)=[1]
end
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
if DebutCriseDelFoodssect(1)==[] then
DebutCriseDelFoodssect(1)=[0]
end
if DebutCriseDelTotal(1)==[] then
DebutCriseDelTotal(1)=[0]
end
if DebutCriseDelBiologie(1)==[] then
DebutCriseDelBiologie(1)=[0]
end
if DebutCriseDelEconomie(1)==[] then
DebutCriseDelEconomie(1)=[0]
end
if DebutCriseDelNbBoat(1)==[] then
DebutCriseDelNbBoat(1)=[0]
end
////////////////////////////////////////////////////////////////////////////////
if FinCriseDelFoodssect(1)==[] then
FinCriseDelFoodssect(1)=[%inf]
end
if FinCriseDelTotal(1)==[] then
FinCriseDelTotal(1)=[%inf]
end
if FinCriseDelBiologie(1)==[] then
FinCriseDelBiologie(1)=[%inf]
end
if FinCriseDelEconomie(1)==[] then
FinCriseDelEconomie(1)=[%inf]
end
if FinCriseDelNbBoat(1)==[] then
FinCriseDelNbBoat(1)=[%inf]
end
DebutCriseDelNbBoat_=[]
//CAS PARTICULIER nb boat
for i=1:max(size(FinCriseDelNbBoat)(1),size(DebutCriseDelNbBoat)(1))
disp("a")
if i>size(FinCriseDelNbBoat)(1) then
FinCriseDelNbBoat(i)=[%inf]
end
if i>size(DebutCriseDelNbBoat)(1) then
DebutCriseDelNbBoat(i)=FinCriseDelNbBoat(i)
end
if FinCriseDelNbBoat(i)<DebutCriseDelNbBoat(i) then
if i==1 then
DebutCriseDelNbBoat_(i)=0
for i=1:size(DebutCriseDelTotal)(1)
DebutCriseDelNbBoat_(i+1)=DebutCriseDelNbBoat(i)
end
DebutCriseDelNbBoat=DebutCriseDelNbBoat_
else
DebutCriseDelNbBoat(i)=DebutCriseDelNbBoat(i)-FinCriseDelNbBoat(i)
end
if i<size(FinCriseDelNbBoat)(1) then
FinCriseDelNbBoat(i)=FinCriseDelNbBoat(i+1)
end
if i==size(FinCriseDelNbBoat)(1) then
FinCriseDelNbBoat(i)=[%inf]
end
end
end
DebutCriseDelTotal_=[]
//CAS PARTICULIER TOTAL
for i=1:max(size(FinCriseDelTotal)(1),size(DebutCriseDelTotal)(1))
disp("a")
if i>size(FinCriseDelTotal)(1) then
FinCriseDelTotal(i)=[%inf]
end
if i>size(DebutCriseDelTotal)(1) then
DebutCriseDelTotal(i)=FinCriseDelTotal(i)
end
if FinCriseDelTotal(i)<DebutCriseDelTotal(i) then
if i==1 then
DebutCriseDelTotal_(i)=0
for i=1:size(DebutCriseDelTotal)(1)
DebutCriseDelTotal_(i+1)=DebutCriseDelTotal(i)
end
DebutCriseDelTotal=DebutCriseDelTotal_
else
DebutCriseDelTotal(i)=DebutCriseDelTotal(i)-FinCriseDelTotal(i)
end
if i<size(FinCriseDelTotal)(1) then
FinCriseDelTotal(i)=FinCriseDelTotal(i+1)
end
if i==size(FinCriseDelTotal)(1) then
FinCriseDelTotal(i+1)=[%inf]
end
end
end
DebutCriseDelBiologie_=[]
//CAS PARTICULIER Biologie
for i=1:max(size(FinCriseDelBiologie)(1),size(DebutCriseDelBiologie)(1))
disp("a")
if i>size(FinCriseDelBiologie)(1) then
FinCriseDelBiologie(i)=[%inf]
end
if i>size(DebutCriseDelBiologie)(1) then
DebutCriseDelBiologie(i)=FinCriseDelBiologie(i)
end
if FinCriseDelBiologie(i)<DebutCriseDelBiologie(i) then
if i==1 then
DebutCriseDelBiologie_(i)=0
for i=1:size(DebutCriseDelBiologie)(1)
DebutCriseDelBiologie_(i+1)=DebutCriseDelBiologie(i)
end
DebutCriseDelBiologie=DebutCriseDelBiologie_
else
DebutCriseDelBiologie(i)=DebutCriseDelBiologie(i)-FinCriseDelBiologie(i)
end
if i<size(FinCriseDelBiologie)(1) then
FinCriseDelBiologie(i)=FinCriseDelBiologie(i+1)
end
if i==size(FinCriseDelBiologie)(1) then
FinCriseDelBiologie(i+1)=[%inf]
end
end
end
DebutCriseDelFoodssect_=[]
//CAS PARTICULIER Foodssect
for i=1:max(size(FinCriseDelFoodssect)(1),size(DebutCriseDelFoodssect)(1))
disp("a")
if i>size(FinCriseDelFoodssect)(1) then
FinCriseDelFoodssect(i)=[%inf]
end
if i>size(DebutCriseDelFoodssect)(1) then
DebutCriseDelFoodssect(i)=FinCriseDelFoodssect(i)
end
if FinCriseDelFoodssect(i)<DebutCriseDelFoodssect(i) then
if i==1 then
DebutCriseDelFoodssect_(i)=0
for i=1:size(DebutCriseDelFoodssect)(1)
DebutCriseDelFoodssect_(i+1)=DebutCriseDelFoodssect(i)
end
DebutCriseDelFoodssect=DebutCriseDelFoodssect_
else
DebutCriseDelFoodssect(i)=DebutCriseDelFoodssect(i)-FinCriseDelFoodssect(i)
end
if i<size(FinCriseDelFoodssect)(1) then
FinCriseDelFoodssect(i)=FinCriseDelFoodssect(i+1)
end
if i==size(FinCriseDelFoodssect)(1) then
FinCriseDelFoodssect(i+1)=[%inf]
end
end
end
//CAS PARTICULIER Economie
for i=1:max(size(FinCriseDelEconomie)(1),size(DebutCriseDelEconomie)(1))
disp("a")
if i>size(FinCriseDelEconomie)(1) then
FinCriseDelEconomie(i)=[%inf]
end
if i>size(DebutCriseDelEconomie)(1) then
DebutCriseDelEconomie(i)=FinCriseDelEconomie(i)
end
if FinCriseDelEconomie(i)<DebutCriseDelEconomie(i) then
if i==1 then
DebutCriseDelEconomie_(i)=0
for i=1:size(DebutCriseDelEconomie)(1)
DebutCriseDelEconomie_(i+1)=DebutCriseDelEconomie(i)
end
DebutCriseDelEconomie=DebutCriseDelEconomie_
else
DebutCriseDelEconomie(i)=DebutCriseDelEconomie(i)-FinCriseDelEconomie(i)
end
if i<size(FinCriseDelEconomie)(1) then
FinCriseDelEconomie(i)=FinCriseDelEconomie(i+1)
end
if i==size(FinCriseDelEconomie)(1) then
FinCriseDelEconomie(i+1)=[%inf]
end
end
end
//CALCUL TOTAL
Delta=[]
for i=1:size(DebutCriseDelTotal)(1)
Delta(i)=FinCriseDelTotal(i)-DebutCriseDelTotal(i)
end
RecoveryDelTotal=1/(sum(Delta)+1)
//CALCUL FOODSSECT
Delta=[]
for i=1:size(DebutCriseDelFoodssect)(1)
Delta(i)=FinCriseDelFoodssect(i)-DebutCriseDelFoodssect(i)
end
RecoveryDelFoodssect=1/(sum(Delta)+1)
//CALCUL BIOLOGIE
Delta=[]
for i=1:size(DebutCriseDelBiologie)(1)
Delta(i)=FinCriseDelBiologie(i)-DebutCriseDelBiologie(i)
end
RecoveryDelBiologie=1/(sum(Delta)+1)
//CALCUL ECONOMIE
Delta=[]
for i=1:size(DebutCriseDelEconomie)(1)
Delta(i)=FinCriseDelEconomie(i)-DebutCriseDelEconomie(i)
end
RecoveryDelEconomie=1/(sum(Delta)+1)
//CALCUL BATEAU
Delta=[]
for i=1:size(DebutCriseDelNbBoat)(1)
Delta(i)=FinCriseDelNbBoat(i)-DebutCriseDelNbBoat(i)
end
RecoveryDelNbBoat=1/(sum(Delta)+1)
RecoveryDel=[RecoveryDelFoodssect,RecoveryDelBiologie,RecoveryDelEconomie,RecoveryDelNbBoat,RecoveryDelTotal]
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//////////Sus
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
[DiffSus]=diff(IndSusAn(12:size(IndSusAn)(1),:) ,1,"r")
DebutCriseSusFoodssect=[(find(DiffSus(:,1)==1)+1)']
DebutCriseSusBiologie=[(find(DiffSus(:,2)==1)+1)']
DebutCriseSusEconomie=[(find(DiffSus(:,3)==1)+1)']
DebutCriseSusNbBoat=[(find(DiffSus(:,4)==1)+1)']
[DiffSusTot]=diff(IndSusTotAn(12:size(IndSusTotAn)(1),:) ,1,"r")
DebutCriseSusTotal=[(find(DiffSusTot(:,1)==1)+1)']
//////////////////////////////////////////////////////////////////////////////
FinCriseSusFoodssect=[(find(DiffSus(:,1)==-1)+1)']
FinCriseSusBiologie=[(find(DiffSus(:,2)==-1)+1)']
FinCriseSusEconomie=[(find(DiffSus(:,3)==-1)+1)']
FinCriseSusNbBoat=[(find(DiffSus(:,4)==-1)+1)']
FinCriseSusTotal=[(find(DiffSusTot(:,1)==-1)+1)']
//////////////////////////////////////////////////////////////////////////////
if DebutCriseSusFoodssect(1)==[] & FinCriseSusFoodssect(1)==[]&sum(IndSusAn(12:size(IndSusAn)(1),1))==0 then
DebutCriseSusFoodssect(1)=[1]
FinCriseSusFoodssect(1)=[1]
end
if DebutCriseSusTotal(1)==[] & FinCriseSusTotal(1)==[]&sum(IndSusTotAn(12:size(IndSusTotAn)(1),1))==0 then
DebutCriseSusTotal(1)=[1]
FinCriseSusTotal(1)=[1]
end
if DebutCriseSusBiologie(1)==[] & FinCriseSusBiologie(1)==[]&sum(IndSusAn(12:size(IndSusAn)(1),2))==0 then
DebutCriseSusBiologie(1)=[1]
FinCriseSusBiologie(1)=[1]
end
if DebutCriseSusEconomie(1)==[] & FinCriseSusEconomie(1)==[]&sum(IndSusAn(12:size(IndSusAn)(1),3))==0 then
DebutCriseSusEconomie(1)=[1]
FinCriseSusEconomie(1)=[1]
end
if DebutCriseSusNbBoat(1)==[] & FinCriseSusNbBoat(1)==[]&sum(IndSusAn(12:size(IndSusAn)(1),4))==0 then
DebutCriseSusNbBoat(1)=[1]
FinCriseSusNbBoat(1)=[1]
end
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
if DebutCriseSusFoodssect(1)==[] then
DebutCriseSusFoodssect(1)=[0]
end
if DebutCriseSusTotal(1)==[] then
DebutCriseSusTotal(1)=[0]
end
if DebutCriseSusBiologie(1)==[] then
DebutCriseSusBiologie(1)=[0]
end
if DebutCriseSusEconomie(1)==[] then
DebutCriseSusEconomie(1)=[0]
end
if DebutCriseSusNbBoat(1)==[] then
DebutCriseSusNbBoat(1)=[0]
end
if DebutCriseSusTotal(1)==[] then
DebutCriseSusTotal(1)=[0]
end
////////////////////////////////////////////////////////////////////////////////
if FinCriseSusFoodssect(1)==[] then
FinCriseSusFoodssect(1)=[%inf]
end
if FinCriseSusTotal(1)==[] then
FinCriseSusTotal(1)=[%inf]
end
if FinCriseSusBiologie(1)==[] then
FinCriseSusBiologie(1)=[%inf]
end
if FinCriseSusEconomie(1)==[] then
FinCriseSusEconomie(1)=[%inf]
end
if FinCriseSusNbBoat(1)==[] then
FinCriseSusNbBoat(1)=[%inf]
end
//CAS PARTICULIER nb boat
for i=1:max(size(FinCriseSusNbBoat)(1),size(DebutCriseSusNbBoat)(1))
disp("a")
if i>size(FinCriseSusNbBoat)(1) then
FinCriseSusNbBoat(i)=[%inf]
end
if i>size(DebutCriseSusNbBoat)(1) then
DebutCriseSusNbBoat(i)=FinCriseSusNbBoat(i)
end
if FinCriseSusNbBoat(i)<DebutCriseSusNbBoat(i) then
if i==1 then
DebutCriseSusNbBoat_(i)=0
for i=1:size(DebutCriseSusTotal)(1)
DebutCriseSusNbBoat_(i+1)=DebutCriseSusNbBoat(i)
end
DebutCriseSusNbBoat=DebutCriseSusNbBoat_
else
DebutCriseSusNbBoat(i)=DebutCriseSusNbBoat(i)-FinCriseSusNbBoat(i)
end
if i<size(FinCriseSusNbBoat)(1) then
FinCriseSusNbBoat(i)=FinCriseSusNbBoat(i+1)
end
if i==size(FinCriseSusNbBoat)(1) then
FinCriseSusNbBoat(i)=[%inf]
end
end
end
DebutCriseSusTotal_=[]
//CAS PARTICULIER TOTAL
for i=1:max(size(FinCriseSusTotal)(1),size(DebutCriseSusTotal)(1))
disp("a")
if i>size(FinCriseSusTotal)(1) then
FinCriseSusTotal(i)=[%inf]
end
if i>size(DebutCriseSusTotal)(1) then
DebutCriseSusTotal(i)=FinCriseSusTotal(i)
end
if FinCriseSusTotal(i)<DebutCriseSusTotal(i) then
if i==1 then
DebutCriseSusTotal_(i)=0
for i=1:size(DebutCriseSusTotal)(1)
DebutCriseSusTotal_(i+1)=DebutCriseSusTotal(i)
end
DebutCriseSusTotal=DebutCriseSusTotal_
else
DebutCriseSusTotal(i)=DebutCriseSusTotal(i)-FinCriseSusTotal(i)
end
if i<size(FinCriseSusTotal)(1) then
FinCriseSusTotal(i)=FinCriseSusTotal(i+1)
end
if i==size(FinCriseSusTotal)(1) then
FinCriseSusTotal(i+1)=[%inf]
end
end
end
DebutCriseSusBiologie_=[]
//CAS PARTICULIER Biologie
for i=1:max(size(FinCriseSusBiologie)(1),size(DebutCriseSusBiologie)(1))
disp("a")
if i>size(FinCriseSusBiologie)(1) then
FinCriseSusBiologie(i)=[%inf]
end
if i>size(DebutCriseSusBiologie)(1) then
DebutCriseSusBiologie(i)=FinCriseSusBiologie(i)
end
if FinCriseSusBiologie(i)<DebutCriseSusBiologie(i) then
if i==1 then
DebutCriseSusBiologie_(i)=0
for i=1:size(DebutCriseSusBiologie)(1)
DebutCriseSusBiologie_(i+1)=DebutCriseSusBiologie(i)
end
DebutCriseSusBiologie=DebutCriseSusBiologie_
else
DebutCriseSusBiologie(i)=DebutCriseSusBiologie(i)-FinCriseSusBiologie(i)
end
if i<size(FinCriseSusBiologie)(1) then
FinCriseSusBiologie(i)=FinCriseSusBiologie(i+1)
end
if i==size(FinCriseSusBiologie)(1) then
FinCriseSusBiologie(i+1)=[%inf]
end
end
end
DebutCriseSusFoodssect_=[]
//CAS PARTICULIER Foodssect
for i=1:max(size(FinCriseSusFoodssect)(1),size(DebutCriseSusFoodssect)(1))
disp("a")
if i>size(FinCriseSusFoodssect)(1) then
FinCriseSusFoodssect(i)=[%inf]
end
if i>size(DebutCriseSusFoodssect)(1) then
DebutCriseSusFoodssect(i)=FinCriseSusFoodssect(i)
end
if FinCriseSusFoodssect(i)<DebutCriseSusFoodssect(i) then
if i==1 then
DebutCriseSusFoodssect_(i)=0
for i=1:size(DebutCriseSusFoodssect)(1)
DebutCriseSusFoodssect_(i+1)=DebutCriseSusFoodssect(i)
end
DebutCriseSusFoodssect=DebutCriseSusFoodssect_
else
DebutCriseSusFoodssect(i)=DebutCriseSusFoodssect(i)-FinCriseSusFoodssect(i)
end
if i<size(FinCriseSusFoodssect)(1) then
FinCriseSusFoodssect(i)=FinCriseSusFoodssect(i+1)
end
if i==size(FinCriseSusFoodssect)(1) then
FinCriseSusFoodssect(i+1)=[%inf]
end
end
end
//CAS PARTICULIER Economie
for i=1:max(size(FinCriseSusEconomie)(1),size(DebutCriseSusEconomie)(1))
disp("a")
if i>size(FinCriseSusEconomie)(1) then
FinCriseSusEconomie(i)=[%inf]
end
if i>size(DebutCriseSusEconomie)(1) then
DebutCriseSusEconomie(i)=FinCriseSusEconomie(i)
end
if FinCriseSusEconomie(i)<DebutCriseSusEconomie(i) then
if i==1 then
DebutCriseSusEconomie_(i)=0
for i=1:size(DebutCriseSusEconomie)(1)
DebutCriseSusEconomie_(i+1)=DebutCriseSusEconomie(i)
end
DebutCriseSusEconomie=DebutCriseSusEconomie_
else
DebutCriseSusEconomie(i)=DebutCriseSusEconomie(i)-FinCriseSusEconomie(i)
end
if i<size(FinCriseSusEconomie)(1) then
FinCriseSusEconomie(i)=FinCriseSusEconomie(i+1)
end
if i==size(FinCriseSusEconomie)(1) then
FinCriseSusEconomie(i+1)=[%inf]
end
end
end
//CALCUL TOTAL
Susta=[]
for i=1:size(DebutCriseSusTotal)(1)
Susta(i)=FinCriseSusTotal(i)-DebutCriseSusTotal(i)
end
RecoverySusTotal=1/(sum(Susta)+1)
//CALCUL FOODSSECT
Susta=[]
for i=1:size(DebutCriseSusFoodssect)(1)
Susta(i)=FinCriseSusFoodssect(i)-DebutCriseSusFoodssect(i)
end
RecoverySusFoodssect=1/(sum(Susta)+1)
//CALCUL BIOLOGIE
Susta=[]
for i=1:size(DebutCriseSusBiologie)(1)
Susta(i)=FinCriseSusBiologie(i)-DebutCriseSusBiologie(i)
end
RecoverySusBiologie=1/(sum(Susta)+1)
//CALCUL ECONOMIE
Susta=[]
for i=1:size(DebutCriseSusEconomie)(1)
Susta(i)=FinCriseSusEconomie(i)-DebutCriseSusEconomie(i)
end
RecoverySusEconomie=1/(sum(Susta)+1)
//CALCUL BATEAU
Susta=[]
for i=1:size(DebutCriseSusNbBoat)(1)
Susta(i)=FinCriseSusNbBoat(i)-DebutCriseSusNbBoat(i)
end
RecoverySusNbBoat=1/(sum(Susta)+1)
RecoverySus=[RecoverySusFoodssect,RecoverySusBiologie,RecoverySusEconomie,RecoverySusNbBoat,RecoverySusTotal]
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//////////Trad
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
[DiffTrad]=diff(IndTradAn(12:size(IndTradAn)(1),:) ,1,"r")
DebutCriseTradFoodssect=[(find(DiffTrad(:,1)==1)+1)']
DebutCriseTradBiologie=[(find(DiffTrad(:,2)==1)+1)']
DebutCriseTradEconomie=[(find(DiffTrad(:,3)==1)+1)']
DebutCriseTradNbBoat=[(find(DiffTrad(:,4)==1)+1)']
[DiffTradTot]=diff(IndTradTotAn(12:size(IndTradTotAn)(1),:) ,1,"r")
DebutCriseTradTotal=[(find(DiffTradTot(:,1)==1)+1)']
//////////////////////////////////////////////////////////////////////////////
FinCriseTradFoodssect=[(find(DiffTrad(:,1)==-1)+1)']
FinCriseTradBiologie=[(find(DiffTrad(:,2)==-1)+1)']
FinCriseTradEconomie=[(find(DiffTrad(:,3)==-1)+1)']
FinCriseTradNbBoat=[(find(DiffTrad(:,4)==-1)+1)']
FinCriseTradTotal=[(find(DiffTradTot(:,1)==-1)+1)']
//////////////////////////////////////////////////////////////////////////////
if DebutCriseTradFoodssect(1)==[] & FinCriseTradFoodssect(1)==[]&sum(IndTradAn(12:size(IndTradAn)(1),1))==0 then
DebutCriseTradFoodssect(1)=[1]
FinCriseTradFoodssect(1)=[1]
end
if DebutCriseTradTotal(1)==[] & FinCriseTradTotal(1)==[]&sum(IndTradTotAn(12:size(IndTradTotAn)(1),1))==0 then
DebutCriseTradTotal(1)=[1]
FinCriseTradTotal(1)=[1]
end
if DebutCriseTradBiologie(1)==[] & FinCriseTradBiologie(1)==[]&sum(IndTradAn(12:size(IndTradAn)(1),2))==0 then
DebutCriseTradBiologie(1)=[1]
FinCriseTradBiologie(1)=[1]
end
if DebutCriseTradEconomie(1)==[] & FinCriseTradEconomie(1)==[]&sum(IndTradAn(12:size(IndTradAn)(1),3))==0 then
DebutCriseTradEconomie(1)=[1]
FinCriseTradEconomie(1)=[1]
end
if DebutCriseTradNbBoat(1)==[] & FinCriseTradNbBoat(1)==[]&sum(IndTradAn(12:size(IndTradAn)(1),4))==0 then
DebutCriseTradNbBoat(1)=[1]
FinCriseTradNbBoat(1)=[1]
end
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
if DebutCriseTradFoodssect(1)==[] then
DebutCriseTradFoodssect(1)=[0]
end
if DebutCriseTradTotal(1)==[] then
DebutCriseTradTotal(1)=[0]
end
if DebutCriseTradBiologie(1)==[] then
DebutCriseTradBiologie(1)=[0]
end
if DebutCriseTradEconomie(1)==[] then
DebutCriseTradEconomie(1)=[0]
end
if DebutCriseTradNbBoat(1)==[] then
DebutCriseTradNbBoat(1)=[0]
end
////////////////////////////////////////////////////////////////////////////////
if FinCriseTradFoodssect(1)==[] then
FinCriseTradFoodssect(1)=[%inf]
end
if FinCriseTradTotal(1)==[] then
FinCriseTradTotal(1)=[%inf]
end
if FinCriseTradBiologie(1)==[] then
FinCriseTradBiologie(1)=[%inf]
end
if FinCriseTradEconomie(1)==[] then
FinCriseTradEconomie(1)=[%inf]
end
if FinCriseTradNbBoat(1)==[] then
FinCriseTradNbBoat(1)=[%inf]
end
//CAS PARTICULIER nb boat
for i=1:max(size(FinCriseTradNbBoat)(1),size(DebutCriseTradNbBoat)(1))
disp("a")
if i>size(FinCriseTradNbBoat)(1) then
FinCriseTradNbBoat(i)=[%inf]
end
if i>size(DebutCriseTradNbBoat)(1) then
DebutCriseTradNbBoat(i)=FinCriseTradNbBoat(i)
end
if FinCriseTradNbBoat(i)<DebutCriseTradNbBoat(i) then
if i==1 then
DebutCriseTradNbBoat_(i)=0
for i=1:size(DebutCriseTradTotal)(1)
DebutCriseTradNbBoat_(i+1)=DebutCriseTradNbBoat(i)
end
DebutCriseTradNbBoat=DebutCriseTradNbBoat_
else
DebutCriseTradNbBoat(i)=DebutCriseTradNbBoat(i)-FinCriseTradNbBoat(i)
end
if i<size(FinCriseTradNbBoat)(1) then
FinCriseTradNbBoat(i)=FinCriseTradNbBoat(i+1)
end
if i==size(FinCriseTradNbBoat)(1) then
FinCriseTradNbBoat(i)=[%inf]
end
end
end
DebutCriseTradTotal_=[]
//CAS PARTICULIER TOTAL
for i=1:max(size(FinCriseTradTotal)(1),size(DebutCriseTradTotal)(1))
disp("a")
if i>size(FinCriseTradTotal)(1) then
FinCriseTradTotal(i)=[%inf]
end
if i>size(DebutCriseTradTotal)(1) then
DebutCriseTradTotal(i)=FinCriseTradTotal(i)
end
if FinCriseTradTotal(i)<DebutCriseTradTotal(i) then
if i==1 then
DebutCriseTradTotal_(i)=0
for i=1:size(DebutCriseTradTotal)(1)
DebutCriseTradTotal_(i+1)=DebutCriseTradTotal(i)
end
DebutCriseTradTotal=DebutCriseTradTotal_
else
DebutCriseTradTotal(i)=DebutCriseTradTotal(i)-FinCriseTradTotal(i)
end
if i<size(FinCriseTradTotal)(1) then
FinCriseTradTotal(i)=FinCriseTradTotal(i+1)
end
if i==size(FinCriseTradTotal)(1) then
FinCriseTradTotal(i+1)=[%inf]
end
end
end
DebutCriseTradBiologie_=[]
//CAS PARTICULIER Biologie
for i=1:max(size(FinCriseTradBiologie)(1),size(DebutCriseTradBiologie)(1))
disp("a")
if i>size(FinCriseTradBiologie)(1) then
FinCriseTradBiologie(i)=[%inf]
end
if i>size(DebutCriseTradBiologie)(1) then
DebutCriseTradBiologie(i)=FinCriseTradBiologie(i)
end
if FinCriseTradBiologie(i)<DebutCriseTradBiologie(i) then
if i==1 then
DebutCriseTradBiologie_(i)=0
for i=1:size(DebutCriseTradBiologie)(1)
DebutCriseTradBiologie_(i+1)=DebutCriseTradBiologie(i)
end
DebutCriseTradBiologie=DebutCriseTradBiologie_
else
DebutCriseTradBiologie(i)=DebutCriseTradBiologie(i)-FinCriseTradBiologie(i)
end
if i<size(FinCriseTradBiologie)(1) then
FinCriseTradBiologie(i)=FinCriseTradBiologie(i+1)
end
if i==size(FinCriseTradBiologie)(1) then
FinCriseTradBiologie(i+1)=[%inf]
end
end
end
DebutCriseTradFoodssect_=[]
//CAS PARTICULIER Foodssect
for i=1:max(size(FinCriseTradFoodssect)(1),size(DebutCriseTradFoodssect)(1))
disp("a")
if i>size(FinCriseTradFoodssect)(1) then
FinCriseTradFoodssect(i)=[%inf]
end
if i>size(DebutCriseTradFoodssect)(1) then
DebutCriseTradFoodssect(i)=FinCriseTradFoodssect(i)
end
if FinCriseTradFoodssect(i)<DebutCriseTradFoodssect(i) then
if i==1 then
DebutCriseTradFoodssect_(i)=0
for i=1:size(DebutCriseTradFoodssect)(1)
DebutCriseTradFoodssect_(i+1)=DebutCriseTradFoodssect(i)
end
DebutCriseTradFoodssect=DebutCriseTradFoodssect_
else
DebutCriseTradFoodssect(i)=DebutCriseTradFoodssect(i)-FinCriseTradFoodssect(i)
end
if i<size(FinCriseTradFoodssect)(1) then
FinCriseTradFoodssect(i)=FinCriseTradFoodssect(i+1)
end
if i==size(FinCriseTradFoodssect)(1) then
FinCriseTradFoodssect(i+1)=[%inf]
end
end
end
//CAS PARTICULIER Economie
for i=1:max(size(FinCriseTradEconomie)(1),size(DebutCriseTradEconomie)(1))
disp("a")
if i>size(FinCriseTradEconomie)(1) then
FinCriseTradEconomie(i)=[%inf]
end
if i>size(DebutCriseTradEconomie)(1) then
DebutCriseTradEconomie(i)=FinCriseTradEconomie(i)
end
if FinCriseTradEconomie(i)<DebutCriseTradEconomie(i) then
if i==1 then
DebutCriseTradEconomie_(i)=0
for i=1:size(DebutCriseTradEconomie)(1)
DebutCriseTradEconomie_(i+1)=DebutCriseTradEconomie(i)
end
DebutCriseTradEconomie=DebutCriseTradEconomie_
else
DebutCriseTradEconomie(i)=DebutCriseTradEconomie(i)-FinCriseTradEconomie(i)
end
if i<size(FinCriseTradEconomie)(1) then
FinCriseTradEconomie(i)=FinCriseTradEconomie(i+1)
end
if i==size(FinCriseTradEconomie)(1) then
FinCriseTradEconomie(i+1)=[%inf]
end
end
end
//CALCUL TOTAL
Tradta=[]
for i=1:size(DebutCriseTradTotal)(1)
Tradta(i)=FinCriseTradTotal(i)-DebutCriseTradTotal(i)
end
RecoveryTradTotal=1/(sum(Tradta)+1)
//CALCUL FOODSSECT
Tradta=[]
for i=1:size(DebutCriseTradFoodssect)(1)
Tradta(i)=FinCriseTradFoodssect(i)-DebutCriseTradFoodssect(i)
end
RecoveryTradFoodssect=1/(sum(Tradta)+1)
//CALCUL BIOLOGIE
Tradta=[]
for i=1:size(DebutCriseTradBiologie)(1)
Tradta(i)=FinCriseTradBiologie(i)-DebutCriseTradBiologie(i)
end
RecoveryTradBiologie=1/(sum(Tradta)+1)
//CALCUL ECONOMIE
Tradta=[]
for i=1:size(DebutCriseTradEconomie)(1)
Tradta(i)=FinCriseTradEconomie(i)-DebutCriseTradEconomie(i)
end
RecoveryTradEconomie=1/(sum(Tradta)+1)
//CALCUL BATEAU
Tradta=[]
for i=1:size(DebutCriseTradNbBoat)(1)
Tradta(i)=FinCriseTradNbBoat(i)-DebutCriseTradNbBoat(i)
end
RecoveryTradNbBoat=1/(sum(Tradta)+1)
RecoveryTrad=[RecoveryTradFoodssect,RecoveryTradBiologie,RecoveryTradEconomie,RecoveryTradNbBoat,RecoveryTradTotal]
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
|
5cbcf1544053868cf78a03819437251b016be012
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1658/CH16/EX16.10/Ex16_10.sce
|
47605501dc8401380ed77f5fea1e8e72a21bc781
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 79
|
sce
|
Ex16_10.sce
|
clc;
Vdc=30;
RL=1*10**3;
y=0.01;
C=2890/(y*RL);
disp('microF',C*1,"C=");
|
776b3d94bb398a54fc3ab7add5306b3c993ba70a
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1460/CH4/EX4.1/4_1.sce
|
65bbb6b35dfb067f7645ecd69a2bf3005d14333e
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 472
|
sce
|
4_1.sce
|
clc
//Initialization of variables
m=0.5 //lbm/sec
Pi=14 //lb/in^2
SVi=13 //ft^3/lbm
Vi=100 //ft/sec
P=75.5 //hp
Hr=8.65 //zB/sec
Pd=150 //lb/in^2
SVd=2.1 //ft^3/lb
Vd=200 //ft/sec
z1=3 //ft
z2=10 //ft
//calculations
WbyJ=P*550/(m*778)
Q=Hr/m
Wi=144*Pi*SVi/(778)
Wo=144*Pd*SVd/(778)
PEi=z1/778
PEf=z2/778
KEi=Vi^2 /(2*32.2*778)
KEf=Vd^2 /(2*32.2*778)
du=-Q+WbyJ+PEi-PEf+KEi-KEf+Wi-Wo
//results
printf("Increase in internal energy = %.1f B/lbm",du)
|
bf9c718f98f1dc3a7f79243a4aa7cc2336819382
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2195/CH7/EX7.5.1/ex_7_5_1.sce
|
0d187887bc66b52bc339fd5eb32319bfe1f088ea
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 182
|
sce
|
ex_7_5_1.sce
|
//Example 7.5.1: resistance
clc;
clear;
close;
//given data :
R1=5;// in kilo-ohm
R2=7;// in kilo-ohm
R3=10; // in kilo-ohm
Rx=(R2*R3)/R1;
disp(Rx,"unknown resistance,Rx(k-ohm) = ")
|
995090e2b7ba1393586d893ccff95a86de60a442
|
e41b69b268c20a65548c08829feabfdd3a404a12
|
/3DCosmos/BCK/Scripts/MarsProject/VallisMarineris.SCI
|
d17e81a6bb315074067998cd58f20cc2c5755fbe
|
[
"LicenseRef-scancode-khronos",
"MIT"
] |
permissive
|
pvaut/Z-Flux
|
870e254bf340047ed2a52d888bc6f5e09357a8a0
|
096d53d45237fb22f58304b82b1a90659ae7f6af
|
refs/heads/master
| 2023-06-28T08:24:56.526409
| 2023-03-01T12:44:08
| 2023-03-01T12:44:08
| 7,296,248
| 1
| 1
| null | 2023-06-13T13:04:58
| 2012-12-23T15:40:26
|
C
|
UTF-8
|
Scilab
| false
| false
| 845
|
sci
|
VallisMarineris.SCI
|
codeblock readtextfile(ScriptDir+"\TOOLS.sci");
codeblock readtextfile(ScriptDir+"\MarsProject\Sub\SUB_general.sci");
codeblock readtextfile(ScriptDir+"\MarsProject\Sub\SUB_CreateMarsSurface.sci");
sf=T_scene_create;
sss=T_getscene;
myviewport=T_getviewport;
SUB_init;
PanelLeft=SUB_createleftpanel;
SUB_showloading(true);
myviewport.NearClipPlane=0.01;
myviewport.FarClipPlane=10;
myviewport.Focaldistance=1.01*myviewport.NearClipPlane;
myviewport.enableusernavigation=false;
JID=0;#joystick ID
sss.ambientlightcolor=color(0.05,0.05,0.05);
rootframe=sss.Universe;
myviewport.camerapos=radial2point(10,0,0);
myviewport.cameradir=vecnorm(point(0,0,0)-myviewport.camerapos);
myviewport.cameraupdir=vector(0,0,1);
longit=deg2rad(-73);
lattit=deg2rad(-9.6);
rs1=450;
rs2=250;
SUB_RenderMarsSurface(rootframe,longit,lattit,rs1,rs2);
|
f9d77e8e498ff8f51f972c39e1e7e8287d0f5dc1
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1931/CH10/EX10.6/6.sce
|
3687c3044d8835c7d189ffb6d30fef796f89830c
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 522
|
sce
|
6.sce
|
clc
clear
//INPUT DATA
Eg=1.12*1.6*10^-19//Energy gap of Si semi conductor in J
me=0.12*9.11*10^-31//The electron mobility in m^2 V^-1 s^-1
mh=0.28*9.11*10^-31//The hole mobility in m^2 V^-1 s^-1
t=300//temperature of fermi level in k
kb=1.38*10^-23//Boltzmann's constant m^2 Kg s^-2 k^-1
m=9.11*10^-31//mass of an electron in Kg
//CALCULATION
Ef=((Eg/2)+(((3*kb*t)/4)*log(mh/me)))/10^-20//position of the fermi level in J *10^-20
//OUTPUT
printf('The position of the fermi level is %3.5f*10^-20 J',Ef)
|
83ea60ca4f689da4ced51d25911b2832459abf3c
|
717ddeb7e700373742c617a95e25a2376565112c
|
/3424/CH1/EX1.2/Ex1_2.sce
|
1f71e3a311f387ee916c6aad65e9781656a71ee5
|
[] |
no_license
|
appucrossroads/Scilab-TBC-Uploads
|
b7ce9a8665d6253926fa8cc0989cda3c0db8e63d
|
1d1c6f68fe7afb15ea12fd38492ec171491f8ce7
|
refs/heads/master
| 2021-01-22T04:15:15.512674
| 2017-09-19T11:51:56
| 2017-09-19T11:51:56
| 92,444,732
| 0
| 0
| null | 2017-05-25T21:09:20
| 2017-05-25T21:09:19
| null |
UTF-8
|
Scilab
| false
| false
| 238
|
sce
|
Ex1_2.sce
|
clc
//Initialization of variables
P = 64.7*144 //Total Pressure lb/ft^2
R = 1716 // ft-lb/slug.R
T = 530 // F
// Calculations
D = P/(R*T)
//Results
printf("The air density obtained from the ideal gas law is %.4f slugs/ft^3",D)
|
a37705e53156c3757402407ffecae5564ff8bef3
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1061/CH9/EX9.17/Ex9_17.sce
|
76eee5575230e9ff37ab5f7367b71edd9377a07c
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 533
|
sce
|
Ex9_17.sce
|
//Ex:9.17
clc;
clear;
close;
n=0.65;// quantum efficiency
e=1.602*10^-19;// charge
h=6.626*10^-34;// plank constant
c=3*10^8;// speed of light in m/s
Eg=1.5*10^-19;// in J
y=(h*c)/Eg;// cut off wavelength in m
f=c/y;
R=(n*e)/(h*f);// responsivity in A/W
Ip=2.5*10^-6;// photo current in A
Po=Ip/R;// incident optical power in W
Po1=Po*10^6;// incident optical power in uW
printf("The cut off wavelength =%f um", y*10^6);
printf("\n The responsivity =%f A/W ", R);
printf("\n The incident optical power =%f uW", Po1);
|
466bde43fb6400ccd50e75da75b74752822237c9
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1241/CH2/EX2.29/exa2_29.sce
|
c2e280b3272303461825c66f7edc156636889850
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 208
|
sce
|
exa2_29.sce
|
//Example 2-29//
//octal to binary conversion//
x=oct2dec('3674')
//decimal equivalent of the octal number//
a=dec2bin(x)
//binary equivalent of the decimal number//
disp(a)
//answer in binary form//
|
738f1b9164c7a8ea066c85f1b085477dccbafffc
|
3c47dba28e5d43bda9b77dca3b741855c25d4802
|
/microdaq/demos/other/microdaq.dem.gateway.sce
|
6228d999138a1df21fbee418a75d4f9695a580e5
|
[
"BSD-3-Clause"
] |
permissive
|
microdaq/Scilab
|
78dd3b4a891e39ec20ebc4e9b77572fd12c90947
|
ce0baa6e6a1b56347c2fda5583fb1ccdb120afaf
|
refs/heads/master
| 2021-09-29T11:55:21.963637
| 2019-10-18T09:47:29
| 2019-10-18T09:47:29
| 35,049,912
| 6
| 3
|
BSD-3-Clause
| 2019-10-18T09:47:30
| 2015-05-04T17:48:48
|
Scilab
|
UTF-8
|
Scilab
| false
| false
| 1,021
|
sce
|
microdaq.dem.gateway.sce
|
// Copyright (c) 2015-2019, Embedded Solutions
// All rights reserved.
// This file is released under the 3-clause BSD license. See COPYING-BSD.
function subdemolist = demo_gateway()
demopath = get_absolute_file_path("microdaq.dem.gateway.sce");
subdemolist = ["Blinking LED (XCOS - external/simulation mode)", "led_demo.dem.sce" ;
"Blinking LED (script)", "led_script_demo.dem.sce" ;
"Button and LED (XCOS - standalone mode)", "button_led_demo.dem.sce" ;
"Button and LED (script)", "button_led_script_demo.dem.sce" ;
"UDP send (XCOS - external mode)", "udp_send_demo.dem.sce" ;
"Param block (XCOS - external mode)", "param_demo.dem.sce" ;
"LabVIEW demo (XCOS)", "labview_demo.dem.sce" ;
"MicroDAQ utils guide", "mdaq_utils_demo.dem.sce" ;
];
subdemolist(:,2) = demopath + subdemolist(:,2);
endfunction
subdemolist = demo_gateway();
clear demo_gateway; // remove demo_gateway on stack
|
3bb837b9de1f81bb3b63fb12ecc177379aa148af
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3557/CH7/EX7.2/Ex7_2.sce
|
19e6cd9c16a2c9348dceee2956a4ab754b37be9e
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 350
|
sce
|
Ex7_2.sce
|
//Example 7.2//
a=8.8*10^-6;//mm/(mm degree C) //linear coefficient of thermal expansion
L0=0.1;//mm //Given direction
T=1000;//degree Celsius // Temperature
T1=25;//degree Celsius //Temperature
dL=a*L0*(T-T1)
mprintf("dL = %e m ",dL)
b=10^3;// (As 1 milli = 10^-3 milli)
dL1= dL*b
mprintf("\ndL1 = %f mm (As 1 milli = 10^-3 milli)",dL1)
|
a177977b16c12c37b33089de716ff944aa272137
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2561/CH13/EX13.3/Ex13_3.sce
|
0dfca76b9e81ccf1fe23c0b43c1f5380a2476e61
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 489
|
sce
|
Ex13_3.sce
|
//Ex13_3
clc
VT=26*10^(-3)
disp("VT= "+string(VT)+" volts") // Thermal voltage
RF=100*10^(3)
disp("RF= "+string(RF)+ " ohm") // resistance
Iso=50*10^(-9)
disp(" Iso = "+string(Iso)+" ampere") // Scale factor (as current)directly proportional to cross-section area of EBJ
vs=-0.162
disp("vs= "+string(vs)+" volts") // Input voltage
vo=Iso*RF*(exp(-vs/VT))
disp("vo=Iso*RF*(exp(-vs/VT))= "+string(vo)+" volts") // Output voltage of Antilog OP-AMP for input1 i.e vs = -0.162 V
|
930703c9bdb20e850f56293f3dc6f9d09ec27d61
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1964/CH1/EX1.17/ex1_17.sce
|
2421fff78a604aab832cfed32dbe4c7df4ec5dfd
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 684
|
sce
|
ex1_17.sce
|
//Chapter-1, Example 1.17, Page 27
//=============================================================================
clc;
clear;
//INPUT DATA
R1=0.031;//resistance of wire in ohm
d1=11.7;//diameter of wire in mm in case 1
r1=d1/2;//radius of wire in mm in case 1
d2=5;//diameter of wire in mm in case 2
r2=d2/2;//radius of wire in mm in case 2
// we know that resistance is inversely proportional to square of area of cross-section
//CALCULATIONS
R2=R1*(((%pi*r1*r1)/(%pi*r2*r2)))^2;//resistance of wire in case 2
//OUTPUT
mprintf("Thus the new resistance of wire is %1.4f ohms",R2);
//=================================END OF PROGRAM==============================
|
c6280f8b5f9b4a6d14506bffae588630e08126a4
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/770/CH5/EX5.6/5_6.sce
|
fb118a5cd8c980ec3930b13bae18df86993cf48c
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,608
|
sce
|
5_6.sce
|
clear;
clc;
//Example - 5.6
//Page number - 198
printf("Example - 5.6 and Page number - 198\n\n")
//Given
P_1 = 8;//[bar] - Initial pressure
T_1 = 93 + 273.15;//[C] - Initial temperature
V_1 = 100;//[m/s] - Initial velocity
P_2 = 1.25;//[bar] - Exit pressure
T_2 = 27 + 273.15;//[C] - Exit temperature
V_2 = 60;//[m/s] - Exit velocity
Y = 1.4;//Ratio of specific heat capacities
T_0 = 298.15;//[K] - surrounding temperature
P_0 = 1;//[bar] - surrounding pressure
R = 8.314;//[J/mol*K] - Gas constant
Cp_0 = (R*Y)/(Y-1);//[J/mol-K] - Heat capacity at constant pressure
//Since the amount of heat transfer is negligible,therefore from first law the actual work done is given by,
//W = delta_H + (delta_V_square)/2
delta_H = Cp_0*(T_2 - T_1);//[J/mol] - enthalpy change
delta_H = (delta_H/28.84);//[kJ/kg] - (1 mole = 28.84 g).
delta_V_square = V_2^(2) - V_1^(2);
W = - delta_H - ((delta_V_square)/2)/1000;//[kJ/kg] - Actual work done
printf(" The actual work done is %f kJ/kg\n\n",W);
//Now let us calculate the maximum work that can be obtained
//W_rev = (H_1 + (V_1^(2))/2) - (H_2 + (V_2^(2))/2) - T_0*(S_1 - S_2)
delta_S = Cp_0*log(T_2/T_1) - R*log(P_2/P_1);//[J/mol-K] - Entropy change
delta_S = delta_S/28.84;//kJ/kg-K]
W_rev = -delta_H - ((delta_V_square/2)/1000) + T_0*delta_S;//[kJ/kg]
printf(" The maximum work obtainable per kg of air is %f kJ/kg\n\n",W_rev);
//The second law efficiency of the turbine is actual work done divided by reversible work,therefore
sec_eff = W/W_rev;
printf(" The second law efficiency of the turbine is %f\n\n",sec_eff);
|
0d9dd689a8e985fa0519c15c569a4ab9ffead71f
|
ebfed86dee276110294a4e93fa80377908bbd317
|
/macros/IDCT.sci
|
75048c22935fe80103bc844f2dd2e5e4117f6ba4
|
[] |
no_license
|
gursimarsingh/FOSSEE-Image-Processing-Toolbox
|
a9d46b698c98566fec867eb2ce3cfeb427058d5c
|
165f6d7d1f20262a1637a923c6aad6e663ad1538
|
refs/heads/master
| 2021-08-16T19:18:59.591175
| 2017-11-08T17:55:04
| 2017-11-08T17:55:04
| 96,531,802
| 0
| 0
| null | 2017-07-07T11:21:10
| 2017-07-07T11:21:10
| null |
UTF-8
|
Scilab
| false
| false
| 1,531
|
sci
|
IDCT.sci
|
// Copyright (C) 2015 - IIT Bombay - FOSSEE
//
// This file must be used under the terms of the CeCILL.
// This source file is licensed as described in the file COPYING, which
// you should have received as part of this distribution. The terms
// are also available at
// http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt
// Author: Suraj Prakash
// Organization: FOSSEE, IIT Bombay
// Email: toolbox@scilab.in
function new_image = IDCT(image)
// Compute inverse Discrete Transform of image
//
// Calling Sequence
// newimage = IDCT(image)
//
// Parameters
// image : floating-point image
// new_image : IDCT of the input image
//
// Description
// The IDCT function computes the inverse cosine transform of a floating-point image with even number of rows and columns.
//
// Examples
// I = imread('images/lena.jpg',0);
// I = double(I)
// J = IDCT(I)
// imshow(J)
//
// Authors
// Suraj Prakash
[rows, cols, channel] = size(image);
if (modulo(rows, 2) <> 0) & (modulo(cols, 2) <> 0) then
error(msprintf("Image doesnot have even number of rows and columns\n"));
elseif (modulo(rows, 2)) <> 0 then
error(msprintf("Image doesnot have even number of rows\n"));
elseif (modulo(cols, 2)) <> 0 then
error(msprintf("Image doesnot have even number of cols\n"));
end
if channel > 1 then
error(msprintf("Input image should be single channel"));
end
image_list = mattolist(image)
out = raw_IDCT(image_list)
length_out = size(out)
for i = 1 : length_out
new_image(:, :, i) = out(i)
end
endfunction
|
548a01b20581cb9002be44ffbf2686a2fa39561b
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1862/CH3/EX3.1/C3P1.sce
|
f4a475a3b996b0d7c13c2a900a94a09b0ecc9cd1
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 632
|
sce
|
C3P1.sce
|
clc
//To Find the final velocity of sled
//Given :
//refer to figure 3-7(a) and3-7(b) from page no. 49
//mass of sled
m =240//in kg
//distance travelled
d =2.3//in m
//force applied
Fsw =130//in N
//solution:
//calculating first acceleration
//applying newton's second law
ax =Fsw/m //m/ s ^2
//calculating time required to move sled by distance d
//applying kinemtic equation
t =((2*d)/ax)^(1/2) //in seconds
// calculating velocity
//applying kinemtic equation
vx =ax*t //m/ s
printf ("\n\n Acceleration ax = \n\n %.2fm/s^2" ,ax)
printf ("\n\n final velocity vx = \n\n %.1f m/s" ,vx);
|
4f04fbbfa6e89765b663d8498143b5f79b7c25aa
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/291/CH5/EX5.5d/eg5_5d.sce
|
b265156b6b9b8f08e54d23bf7ddee9c6410936a3
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 444
|
sce
|
eg5_5d.sce
|
meanX1 = 12.08;
meanX2= 12.08;
stX1= 3.1;
meanX = meanX1 + meanX2;
varX = 2*(3.1^2);
lim= 25;
disp(1-cdfnor("PQ", lim, meanX, sqrt(varX)), "Probability that the total precipitation during the next 2 years will exceed 25 inches")
meanXnew= meanX1 - meanX2;
new_lim= 3;
disp(1- cdfnor("PQ", new_lim, meanXnew, sqrt(varX)), "Probability that precipitation in the next year will exceed that in the following year by more than 3 inches")
|
d104918692453d6c3a0618c2bfeaf4cec89863d9
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2660/CH4/EX4.22/Ex4_22.sce
|
177b026d8c9ee787582f315b559c8c82a67220cc
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,355
|
sce
|
Ex4_22.sce
|
clc
vt = 40 // cutting speed for turning in m/min
vs = 8 // cutting speed for cutting and knurling in m/min
ft = 0.4 // feed for turning in mm/rev.
ff = 0.2 // feed for forming in mm/rev
d1 = 25 // diameter in mm
l1 = 50 // mm
N1 = 1000*vt/(%pi*d1) // spindle speed in rev./min.
time1 = l1/(ft*N1) // min.
tt = 2*time1 // total time in min.
d2 = 15 // mm
N2 = 1000*vt/(%pi*d2)// rev/min.
l2 = 30 // mm
time2 = l2/(ft*N2) // min.
eft = 0.15 // end forming time in min.
d3 = 10 // mm
N3 = 1000*vs/(%pi*d3) // rev./min.
l3 = 15 // mm
f = 1.5 // feed in min.
time3 = l3/(f*N3) // min.
N4 = 1000*vs/(%pi*d1) // rev./min.
l4 = 10 // mm
time4 = l4/(ft*N4) // min.
time5 = 0.15 // time for chamfering in min.
Dave = d1/2 // mm
N5 = 1000*vt/(%pi*Dave) // r.p.m.
time6 = Dave/(N5*ff) // min,
tmt = tt+time2+time3+time4+time5+time6+eft // total machining time in min.
t = 0.05 // min.
ht = time5+6*time6+4*t+3*t // handling time in min.
tot = ht+tmt // total handling time in min.
ct = 15*tot/100 // contingency in min.
tct = tot+ct // total cycle time in min.
st = 60 // set up time for turret lathe
p = 100 // total pieces
stp = st/p // set up time per piece in min.
tpt = tct+stp // Total production timr per piece in min.
printf("\n Total production timr per piece = %0.2f min" , tpt)
//Answers vary due to round off error
|
c95d1c8c59566b71761fcf1408b3f725833aad4b
|
da5b40d917ec2982828bd9bdf06b18b7bf189f26
|
/sim/cmd/test/envelope.tst
|
4296c21a1afed04ca36900a681c82e654f8066e1
|
[] |
no_license
|
psy007/NNPC-CHEMICAL-SIM-
|
4bddfc1012e0bc60c5ec6307149174bcd04398f9
|
8fb4c90180dc96be66f7ca05a30e59a8735fc072
|
refs/heads/master
| 2020-04-12T15:37:04.174834
| 2019-02-06T10:10:20
| 2019-02-06T10:10:20
| 162,587,144
| 1
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 881
|
tst
|
envelope.tst
|
units SI
# test 2-phase VL envelope
$thermo = VirtualMaterials.Peng-Robinson
/ -> $thermo
thermo + methane propane n-hexane water
env = Envelope.PTEnvelope()
env.In.Fraction = 0.15 0.15 0.2 0.5
# I need temperatures at these pressure values
env.Pressures = 101.325 202.65 303.975 405.3 506.625 kPa
# add a bubble/dew point curve
env.bubble = Envelope.QualityCurve(0.0)
# add a quality curve
env.q4 = Envelope.QualityCurve(0.4)
# examine results
env
env.bubble.Results
env.q4.Results
# test deleting curve
delete env.q4
env
# examine the critical point
env.Crit_T
env.Crit_P
# Add a Enthalpy diagram
env.th = Envelope.THEnvelope()
# Add an isobar
env.th.isobar1 = Envelope.QualityCurve(500)
env.th.isobar2 = Envelope.QualityCurve(1000)
# examine results
/env.th.isobar1.Results
/env.th.isobar2.Results
copy /env
paste /
/envClone.Crit_T
/envClone.Crit_P
/envClone.bubble.Results
|
57f289657c662460b0427656d95fc1e0a1b2fb06
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1523/CH12/EX12.2/ex12_2.sce
|
16cc3fad606132696ef1c4d3d235d4f5f2bffa6c
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 488
|
sce
|
ex12_2.sce
|
// Network Synthesis : example 12.2 : (pg 12.2)
s=poly(0,'s');
p1=((s^4)+(5*(s)^2)+4);
p2=((s^3)+(3*s));
[r,q]=pdiv(p1,p2);
[r1,q1]=pdiv(p2,r);
[r2,q2]=pdiv(r,r1);
[r3,q3]=pdiv(r1,r2);
printf("\nEven part of P(s) = (s^4)+(5s^3)+4");
printf("\nOdd part of P(s) = (s^3)+(3s)");
printf("\nQ(s)= m(s)/n(s)");
// values of quotients in continued fraction expansion
disp(q);
disp(q1);
disp(q2);
disp(q3);
printf("\nSince all the quotient terms are positive, P(s) is hurwitz");
|
c156a78b24b9f7df83b08336e8381c73bbafc5c4
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/758/CH8/EX8.15/Ex_8_15.sce
|
9c5ffa8b85059382eba82b0d3a9187b9fed08eca
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 322
|
sce
|
Ex_8_15.sce
|
//Example 8.15
clc;clear;close;
s=poly(0,'s');
fc=1; //Assumed cut off frequency of low pass filter
f0=5; //Assumed cut off frequency of high pass filter
Hs=fc/(s+fc);
Hs1=horner(Hs,fc*f0/s);
disp(Hs,'H(s)=',fc,'Low pass filter with fc=');
disp(Hs1,'H(s)=',f0,'High pass filter with fc=');
|
65f8073e550b1bb9a780c5f3f1cec15ec59fe058
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2411/CH3/EX3.a.23/Ex3a_c_3.sce
|
ee200c5baef558b8a0b0bd255c450dd8b7a4215f
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 989
|
sce
|
Ex3a_c_3.sce
|
// Scilab Code Ex3a.c.3: Page-144 (2008)
clc; clear;
// Comparing with the standard progressive wave equation, we have
a = 8; // Amplitude of the wave, cm
nu = 4/2; // Frequency of the wave, Hz
lambda = 2/0.02; // Wavelength of the wave, cm
v = nu*lambda; // Wave velocity, cm/s
delta_x = 20; // Path difference between two particles, cm
delta_phi = delta_x*2*%pi/lambda*180/%pi; // Phase difference between two particles, degree
printf("\nThe amplitude of the wave = %3.1f cm", a);
printf("\nThe wavelength of the wave = %3.1f cm", lambda);
printf("\nThe velocity of the wave = %3.1f cm/s", v);
printf("\nThe frequency of the wave = %d Hz", nu);
printf("\nThe phase difference between two particles = %d degree", delta_phi);
// Result
// The amplitude of the wave = 8.0 cm
// The wavelength of the wave = 100.0 cm
// The velocity of the wave = 200.0 cm/s
// The frequency of the wave = 2 Hz
// The phase difference between two particles = 72 degree
|
6e941c4794255d75e955b1ac8abedb64f1e134ec
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/851/CH8/EX8.2/Example8_2.sce
|
1bc68f0a472d88d28562ddd67ddbae46c5527dbf
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 678
|
sce
|
Example8_2.sce
|
//clear//
//Caption:Hamming Codes
//Example8.2:Hamming codes
clear;
clc;
k = 4; //message bits length
n = 7; //block length
m = n-k;//Number of parity bits
I = eye(k,k); //identity matrix
disp(I,'identity matrix Ik')
P =[1,1,0;0,1,1;1,1,1;1,0,1];//coefficient matrix
disp(P,'coefficient matrix P')
G = [P I]; //generator matrix
disp(G,'generator matrix G')
H = [eye(k-1,k-1) P'];//parity check matrix
disp(H,'parity chechk matrix H')
//message bits
m = [0,0,0,0;0,0,0,1;0,0,1,0;0,0,1,1;0,1,0,0;0,1,0,1;0,1,1,0;0,1,1,1;1,0,0,0;1,0,0,1;1,0,1,0;1,0,1,1;1,1,0,0;1,1,0,1;1,1,1,0;1,1,1,1];
//
C = m*G;
C = modulo(C,2);
disp(C,'Code words of (7,4) Hamming code')
|
7eb943308ecda27462e8196a670f7b09e2eff8f2
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1931/CH12/EX12.8/8.sce
|
bf70e9001e9f9232b2af0df8ee008b76ed7dcad9
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 374
|
sce
|
8.sce
|
clc
clear
//INPUT DATA
V=5.9*10^-6//voltage applied across a Josephson junction in V
e=1.6*10^-19//charge of electron in coulombs
h=6.62*10^-34//Planck's constant in J-sec
//CALCULATION
v=((2*e*V)/h)/10^9//The frequency of the radiation emitted by the junction in Hz
//OUTPUT
printf('The frequency of the radiation emitted by the junction is %3.3f*10^9 Hz',v)
|
6d02198d180834a921edf97b8e27ea95ce525251
|
717ddeb7e700373742c617a95e25a2376565112c
|
/1766/CH5/EX5.23/EX5_23.sce
|
86a34321898ff47ff7d278e3db61237a06232ddd
|
[] |
no_license
|
appucrossroads/Scilab-TBC-Uploads
|
b7ce9a8665d6253926fa8cc0989cda3c0db8e63d
|
1d1c6f68fe7afb15ea12fd38492ec171491f8ce7
|
refs/heads/master
| 2021-01-22T04:15:15.512674
| 2017-09-19T11:51:56
| 2017-09-19T11:51:56
| 92,444,732
| 0
| 0
| null | 2017-05-25T21:09:20
| 2017-05-25T21:09:19
| null |
UTF-8
|
Scilab
| false
| false
| 1,027
|
sce
|
EX5_23.sce
|
clc;funcprot(0);//Example 5.23
//Initilisation of Variables
Ta=20;.....//Temperature of air in degrees celcius
D=2.5*10^-2;...//Diameter of tube in m
U=0.5;........//Velocity of air in m/s
Ts=100;......//Surface temperature of sphere at degrees celcius
Sp=5*10^-2;...............//Space in perpenducular direction in m
Sn=3.75*10^-2;.............//Space in parallel direction in m
//Properties of air at Ta
rho=1000;......//Density in kg/m^3
mu=1.006*10^-6;......//Viscocity in m^2/s
Pr=7.02;........//Prandtl no
K=0.5978;........//Thermal conductivity in W/mK
//calculation
Sd=[Sn^2+((Sp/2)^2)]^(0.5);..........//
Umax=(U*Sp)/(2*(Sd-D));..........//Maximum Velocity in m/s
Re=(Umax*D)/mu;...........//Reynolds number
C=0.35*(Sp/Sn)^0.2;..........//Constant
m1=0.6;.............//Coeffient
Nu=C*Re^m1*Pr^0.36*(Pr/1.74)^0.25;.........//Nusselt number
h=(Nu*K)/D;.........//Heat transfer co efficient for 20 rows of tubes in W/m^2K
disp(h,"Actual heat transfer coefficient for 20 rows of tubes in W/m^2K:")
|
e1d8a0bea5cd0c3ee847ecc996227c33d383a451
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1697/CH10/EX10.11/Exa10_11.sce
|
5ce3919dda9f0820fbf00baf12c94a27303e3d3c
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 208
|
sce
|
Exa10_11.sce
|
//Exa 10.11
clc;
clear;
close;
//given data :
n=0.8;//refractive index
N=500;//in cm^-3
//Formula : n=sqrt(1-81*N/f^2)
f=sqrt(81*N/(1-n^2));//in KHz
disp(f,"Frequency of wave propagation in KHz : ");
|
a9cf70e730d41cc345dbb0507c41ac70608c50b2
|
23b14e2b22832d3cb59f2b5127be23cc9bdb438d
|
/ChargingStateAlgorihm/messungRS232.sce
|
22b2954267ae63cdb2af3a4c4c8d91507417db9b
|
[
"MIT"
] |
permissive
|
erichstuder/AccuChargerExtension
|
b7a6b581db4869aaae5ca35530b66ea2e4980864
|
f16378a27ecd1bc3d0a64b6d054b6546885046fe
|
refs/heads/master
| 2020-12-02T06:17:10.247377
| 2017-07-15T07:03:21
| 2017-07-15T07:03:21
| 96,811,315
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 494
|
sce
|
messungRS232.sce
|
cd "C:\Users\erich\MyData\Data\Arduino\Projekte\AccuChargerExtension\Software"
h=openserial(27,"9600,n,8,1");
//clear file content
fileHandle=mopen("data.txt", "w")
mclose(fileHandle);
data = "";
cnt = 0;
while(cnt < (10*4500))//sleeps 0.1sec
buf = readserial(h,4096);
disp(length(buf));
fileHandle=mopen("data.txt", "a")
mfprintf(fileHandle,"%s",buf);
mclose(fileHandle);
//mfprintf(fileHandle,"a \n");
sleep(100)
cnt=cnt+1;
end
closeserial(h);
|
62ce5d82bcaf7114604e3c2898bbabac10579e11
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1670/CH10/EX10.24/10_24.sce
|
bd2e6aedceb8c2c8727b8e27a0c2d3a30335dbb6
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 468
|
sce
|
10_24.sce
|
//Example 10.24
//Milne Simpson Predictor Corrector Method
//Page no. 339
clc;clear;close;
deff('y=f11(x,y)','y=1+x*y^2')
h=0.1;
y=[1,1.105,1.223,1.355]
for i=1:5
x(i)=(i-1)*h
end
i=5;
y(i)=y(i-4)+4*h*(2*f11(x(i-1),y(i-1))-f11(x(i-2),y(i-2))+2*f11(x(i-3),y(i-3)))/3
printf('\nPredictor y(%g) = %.9f\n\n',x(i),y(i))
y(i)=y(i-2)+h*(f11(x(i-2),y(i-2))+4*f11(x(i-1),y(i-1))+f11(x(i),y(i)))/3
printf('Corrector y(%g) = %.9f\n\n',x(i),y(i))
|
debbc5ee54da5c356b57852f8afa45063d377350
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2409/CH10/EX10.1/Ex10_1.sce
|
ca7a80f60d569b6ad6c0af6689d9843acd026c33
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 355
|
sce
|
Ex10_1.sce
|
funcprot(0)
//Variable Declaration
PR=0.01 //The Average power received(watts)
Tb=0.0001 //Bit period(seconds)
N0=10**-7 //Noise power(joule)
//Calculations
Eb=PR*Tb //Energy per bit received (joule)
x=sqrt(Eb/N0)
erf=integrate("exp(-t^2)","t",0,x)
erf1=erf*(2/%pi**0.5)
BER=(1-erf1)*(10**6)/2
printf("The Bit error rate is %.1f * 10^-6", BER)
|
19b035e01ad47d2f57e358285ed33e0a0e75afc5
|
e41b69b268c20a65548c08829feabfdd3a404a12
|
/3DCosmos/BCK/Scripts/Test/test_video.SCI
|
b56810a8ae48b20907b50675d7eb41b0f7024097
|
[
"LicenseRef-scancode-khronos",
"MIT"
] |
permissive
|
pvaut/Z-Flux
|
870e254bf340047ed2a52d888bc6f5e09357a8a0
|
096d53d45237fb22f58304b82b1a90659ae7f6af
|
refs/heads/master
| 2023-06-28T08:24:56.526409
| 2023-03-01T12:44:08
| 2023-03-01T12:44:08
| 7,296,248
| 1
| 1
| null | 2023-06-13T13:04:58
| 2012-12-23T15:40:26
|
C
|
UTF-8
|
Scilab
| false
| false
| 1,107
|
sci
|
test_video.SCI
|
codeblock readtextfile(ScriptDir+"\TOOLS.sci");
sf=T_scene_create;
sss=T_getscene;
myviewport=T_getviewport;
#myviewport.usestereo=false;
#myviewport.start;
sss.ambientlightcolor=color(0.05,0.05,0.05);
vd=addvideo(DataDir+"\textures\Dewinne2.avi");
#vd=addvideo("C:\temp\test.avi");
vd.name="DeWinne";
vd.playing=true;
vd.FrameReduction=3;
framecount=vd.GetFrameCount;
framerate=vd.GetFrameRate;
xres=vd.GetXRes;
yres=vd.GetYRes;
#break;
rootframe=sss.Universe.addsubframe("Root");
rootframe.add("sphere","radius":0.1);
rootframe.add("sphere","radius":0.1,"position":point(1,0,0),"color":color(1,0,0));
rootframe.add("sphere","radius":0.1,"position":point(0,1,0),"color":color(0,1,0));
tx=rootframe.createtexture("star",DataDir+"\textures\star2.bmp");
vtx=rootframe.CreateVideoTexture("vtx",vd);
s=rootframe.add("bar","position":point(0,0,1),"color":color(1,1,1));
#s.BlendType=BlendTranslucent;
#s.DepthMask=DepthMaskDisable;
#s.texture=vtx.name;
s.texture=vtx.name;
#myviewport.StartRecording("c:\temp\test.avi");
ct=0;
while ct<30000 do {
ct=ct+1;
render;
}
#myviewport.StopRecording;
|
1511e5320f24d5856c417b57022a4b21a4b72dde
|
13d93c2922005af35056d015f1ae3ebebe05ee31
|
/scilab/math/suite_recu/suite_recu.sce
|
b4a81e244f888331e6fab8b82212a75d92100ee4
|
[] |
no_license
|
scls19fr/openphysic
|
647cc2cdadbdafd050d178e02bc3873bd2b07445
|
67bdb548574f4feecb99b60995238f12f4ef26da
|
refs/heads/master
| 2021-04-30T23:16:26.197961
| 2020-11-16T20:21:17
| 2020-11-16T20:21:17
| 32,207,155
| 1
| 1
| null | null | null | null |
ISO-8859-1
|
Scilab
| false
| false
| 437
|
sce
|
suite_recu.sce
|
// Termes d'une suite recurrente
clear
function [y]=f(x)
// u_n+1 = sqrt ( u_n +2 )
y=sqrt(x+2)
// u_n+1 = 2*u_n // suite géométrique
//y=2*x
// u_n+1 = u_n + 1 // suite arithmétique
//y=x+1
endfunction
// u_courant = u_n
// u_precedent = u_n-1
n=0
u_precedent=1;
u_courant=u_precedent
while (1) // boucle infinie More (y or n) ? => n puis CTRL + C pour quitter
n=n+1
u_courant=f(u_precedent)
u_precedent=u_courant;
end
|
29b8927568e5a027af7071396b779593bd2c60fd
|
717ddeb7e700373742c617a95e25a2376565112c
|
/806/DEPENDENCIES/123.sci
|
e5ae08a729e0d444cd6c6b3570d9358c25cf94ab
|
[] |
no_license
|
appucrossroads/Scilab-TBC-Uploads
|
b7ce9a8665d6253926fa8cc0989cda3c0db8e63d
|
1d1c6f68fe7afb15ea12fd38492ec171491f8ce7
|
refs/heads/master
| 2021-01-22T04:15:15.512674
| 2017-09-19T11:51:56
| 2017-09-19T11:51:56
| 92,444,732
| 0
| 0
| null | 2017-05-25T21:09:20
| 2017-05-25T21:09:19
| null |
UTF-8
|
Scilab
| false
| false
| 71
|
sci
|
123.sci
|
S=0.83//Specific gravity of fluid
v=0.0004//m^2/s(kinematic viscosity)
|
64e76eec4743b54535e0a7c00b1428d045cb46c5
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2345/CH6/EX6.5/Ex6_5.sce
|
647dd26220a8dd7c6115b968dfc0188c1b7314a7
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 377
|
sce
|
Ex6_5.sce
|
//Finding loss and frequency
//Example 6.5(pg 214)
clc
clear
P=4//no of poles
N=1600// Speed in rpm
f=P*N/120//Frequency of magnetic reversal
V=5400//volume
d=7.5//density
m=(V*d)/1000//Mass of armature in kg
L=1.76//Loss in W/kg
Cl=L*m//Core loss in Watts
printf('Thus Frequency of magnetic reversal is %3.2f c/s',f)
printf('\n and Core loss is %3.2f Watts',Cl)
|
2b57ef2dbc12cbe5d2af977f81895f72e9350b5f
|
c247bce84b3facd1a13b48e7417327c40c8b3898
|
/FOPID/stepinfo.sci
|
ee82008315c1f79f09f24fe823fa70769a3a4c58
|
[] |
no_license
|
AstroSayan/FuzzyFOPID
|
9de9fa761301da6ae1f5dfe7b8e7e8214f3b472b
|
ea0e31e8fa0b36e407de9dfa466cf46b583e4103
|
refs/heads/main
| 2023-04-26T19:18:30.590337
| 2021-05-13T18:27:32
| 2021-05-13T18:27:32
| 367,137,779
| 2
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 2,033
|
sci
|
stepinfo.sci
|
function sinfo=stepinfo(G,t,yf)
y=csim('step',t,G); exec('isfinite.sci');
if y==[] then
disp('Empty Data')
else
TF=isfinite(y);
if TF==1 then ns=length(y);
[sinfo.Peak,ipeak]=max(abs(y));
sinfo.PeakTime=t(ipeak);
if yf==0 then
sinfo.Overshoot=%inf;
if and(y>=0) then
sinfo.Undershoot=0;
else
sinfo.Undershoot=%inf;
end
else
yrel=y/yf; sinfo.Overshoot=100*max(0,max(yrel-1));
sinfo.Undershoot=-100*min(0,min(yrel));
end
tolBand=0.02; err=abs(y-yf);
tol=tolBand*max(err); nn=length(err);
nn1=nn;
for i=1:nn
err1(nn1)=err(i); nn1=nn1-1;
end
err1=err1';
isettle=find(err1>tol,1); nny=length(y);
nny1=nny;
for i=1:nny
y1(nny1)=y(i); nny1=nny1-1;
end
y1=y1';
t1=t(length(t)):-(t(2)-t(1)):t(1);
if isettle==[] then
sinfo.SettlingTime=0;
elseif isettle==ns
sinfo.SettlingTime=%nan;
elseif y1(isettle)~=y1(isettle+1)
y1Settle=yf+sign(y1(isettle)-yf)*tol;
sinfo.SettlingTime = t1(isettle) +...
(t1(isettle)-t1(isettle+1))/...
(y1(isettle)-y1(isettle+1))...
*(y1Settle-y1(isettle));
else
sinfo.SettlingTime=t1(isettle+1);
end
yLow=y(1)+0.1*(yf-y(1));
iLow=1+find((y(1:ns-1)-yLow).*(y(2:ns)-yLow)<=0,1);
if iLow==[] then
tLow=%nan;
elseif iLow>1 && y(iLow)~=y(iLow-1)
tLow=t(iLow)+(t(iLow)-t(iLow-1))/...
(y(iLow)-y(iLow-1))*(yLow-y(iLow));
else
tLow=t(iLow);
end
yHigh=y(1) + 0.9*(yf-y(1));
iHigh=1+find((y(1:ns-1)-yHigh).*(y(2:ns)-yHigh)<=0,1);
if iHigh==[] then
tHigh=%nan;
sinfo.SettlingMin=%nan; sinfo.SettlingMax=%nan;
else
if iHigh>1 && y(iHigh)~=y(iHigh-1)
tHigh=t(iHigh)+(t(iHigh)-t(iHigh-1))/...
(y(iHigh)-y(iHigh-1))*(yHigh-y(iHigh));
else
tHigh=t(iHigh);
end
yRisen=y(iHigh:length(y));
sinfo.SettlingMin=min(yRisen);
sinfo.SettlingMax=max(yRisen);
end
sinfo.RiseTime=tHigh-tLow;
sinfo.SettlingMin=min(yRisen);
sinfo.SettlingMax=max(yRisen);
else
sinfo.RiseTime=%nan;
sinfo.SettlingTime=%nan;
sinfo.SettlingMin=%nan;
sinfo.SettlingMax=%nan;
sinfo.Overshoot=%nan; sinfo.Undershoot=%nan;
sinfo.Peak=%inf; sinfo.PeakTime=%inf;
end
end
endfunction
|
e5262d7186919132bf3119e066bdea9f0c8414cf
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2507/CH9/EX9.4/Ex9_4.sce
|
0a9c69bb9959bf0a09b1b8e0c800e60c360c3635
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 342
|
sce
|
Ex9_4.sce
|
clc
clear
printf("Example 9.4 | Page number 256 \n\n");
//Calculate Cp of air
//Given Data
Cv = 718 //J/kgK //specific at constant volume
M = 28.97 //kg/kmol //molar mass of air
R = 8314.3 //J/kmolK
//Solution
Cp = (R/M)+Cv //J/kgK //specific heat at constant pressure
printf("Specific heat at constant pressure = %.1f J/kg K",Cp)
|
b264e0e7f1f920332b018b3ed24eb8735955b1a3
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1118/CH19/EX19.4/eg19_4.sce
|
b1f37986aa6778ae7694f68e3978e0d1b937cfa8
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 471
|
sce
|
eg19_4.sce
|
clear;
//clc();
f=50;
s=60;
j=9000;
p=2;
bs=50;
n=120*f/p;
ke=0.5*j*(2*(%pi)*n/60)^2;
printf("The kinetic energy at rated speed is:%.0f MJ\n",ke/1000000);
//to calculate inertia constants M and H
H=ke/s;
printf("the inertia constants H is:%.3f MJ/MVA\n",H/1000000);
M=ke/(180*f*1000000);
printf("the inertia constants M is:%.3f MJs/elec.deg\n",M);
//the inertia constants
iner_const=M/bs;
printf("The inertia constant is:%.6f pu",iner_const);
|
125f458057522ffc125b917e61ee211ffd10f855
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1949/CH2/EX2.3/2_3.sce
|
1912e27bdccf800085ed79fc280fb4af9984c1ea
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 352
|
sce
|
2_3.sce
|
//Chapter-2,Example 2_3,Page 2-31
clc()
//Given Data:
m=1 //order
lam=4*10^-7 //Wavelength of light
a=10^-6 //width of slit
//Calculations:
//We know, a*sin(theta)=m*lam
theta=asin(m*lam/a)*180/%pi //angular position in first minima
printf('angular position in first minima is = %.2f degrees',theta)
|
cc030b1102372e28eff3ca354683b74a46233341
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3136/CH3/EX3.3/Ex3_3.sce
|
3ccbe7b6eb7c3f274f2a44fbeeb76d02e4cae0eb
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 945
|
sce
|
Ex3_3.sce
|
clear all; clc;
//This numerical is Ex 3_2E,page 44.
V_r1=7.47
U_1=20.9
V_r2=3.27
U_2=62.7
//let x=tanbeta1
x=V_r1/U_1
printf("\n The value of ß_f1 is equal to %0.3f degrees",x)
beta_f1=(atan(x))*180/%pi
printf("\n Thus the value of ß_f1 is %0.2f degrees",beta_f1)
V_1=V_r1
W_1=(U_1^2+V_r1^2)^0.5
printf("\n Thus the value of W_1 is %0.2f ft/s",W_1)
beta_f2=beta_f1-10
printf("\n Hence the value of beta_f2 is equal to %0.2f degrees",beta_f2)
//rounding of value of betaf2 to be equal to 9.6
beta_f2=9.6
W_u2=V_r2/tan(beta_f2*%pi/180)
printf("\n Hence the value of W_u2 is %0.1f ft/s",W_u2)
V_u2=U_2-W_u2
printf("\n Hence the value of V_u2 is equal to %0.1f ft/s",V_u2)
//rounding off Wu2
W_u2=19.3
W_2=(W_u2^2+V_r2^2)^0.5
printf("\n The value of W_u2 is equal to %0.3f ft/s",W_2)
//rounding off Vu2
V_u2=43.4
V_2=(V_u2^2+V_r2^2)^0.5
printf("\n Thus he value of V_2 is equal to %0.2f ft/s",V_2)
|
a4d2ea19db3899e57f471662080b487a8012d523
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2273/CH9/EX9.5/ex9_5.sce
|
bbadfa1df3ce48b4788728cb844fc4ff4c1943fd
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 274
|
sce
|
ex9_5.sce
|
//Determine internal diameter of shealth D and diameter of conductor d
clear;
clc;
//soltion
//given
gmax=23*10^5;//V/cm
V=10000;//Volts
d=2*V/gmax;
D=exp(1)*d*1000;
printf("Diameter of conductor(d)= %.1f mm \nInternal diameter of shealth (D)= %.2f mm",d*1000,D);
|
054eaa37976ded43bf99eb47fed8d040a5c46901
|
01697f0dc71290a6b6e233849a73d19a883845f1
|
/sem01/lab04/q01.sce
|
a3002e7bb1785f834422ac8bd6f801dd42e2ee95
|
[] |
no_license
|
aaruni96/Math-Lab
|
5d83a13547308bd9d1b7daa28be29a49e1020fbd
|
488469c9aba9251f5725e0851fb19e2aef38d234
|
refs/heads/master
| 2021-01-12T06:29:53.790743
| 2018-04-27T09:21:40
| 2018-04-27T09:21:40
| 77,370,232
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 181
|
sce
|
q01.sce
|
//tracing cardioid
clc;
clear;
t=[0:%pi/32:2*%pi];
a=2;
function r=f(t)
r=a*(1+cos(t));
endfunction
polarplot(t,f(t));
xlabel("Initial Line");
ylabel("t=pi/2");
title("Cardioid");
|
4e76e22fcb57589f303ab44e29f296e4aa5a242d
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/377/CH12/EX12.2/12_2.sce
|
8b56a807535c9d3601a8411d7bfb6b127a606bbe
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 372
|
sce
|
12_2.sce
|
q=1.6*10^-19;
Nd=2*10^15;
a=0.6*10^-4;
c=12.4*8.854*10^-14; //say c=Єs
Vp=q*Nd*a^2/(2*c);
printf('\n The value of Vp is %fV\n',Vp);
d=0.026; //sat d=K*T/q
Nc=4.7*10^17;
disp("φn=(K*T/q)*log(Nc/Nd)");
b=d*log(Nc/Nd);
printf('\n The value of φn is %fV\n',b);
disp("Vbi=φb0-φn");
e=0.89; //say e=φb0
Vbi=e-b;
printf('\n The value of Vbi is %fV\n',Vbi);
|
2b7388c1f105ad9a263583b360e871288b544d35
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2006/CH11/EX11.8/ex11_8.sce
|
ed7f9ec40d8fed8f9eef920e13e5ae9f78bd8ef1
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,069
|
sce
|
ex11_8.sce
|
clc;
p1=10; // Initial pressure in MPa
T1=263; // Initial temperature in Kelvin
p2=1.5; // Final pressure in MPa
R_1=8.3143; // Universal gas constant in kJ/kmol K
M=28; // Molecular mass
// The crictical properties for nitrogen gas
Tc=126.2; // Temperature in kelvin
Pc=3.39; // Pressure in MPa
// Reduced properties are
Pr1=p1/Pc; Pr2=p2/Pc;
Tr1=T1/Tc;
// From the generalized chart for enthalpy departure at Pr1 & Tr1
h_11=8.7*Tc/M;
// The solution involves iteration procedure. Assume T2 and check if h2_h1=0
// First approximation T2=200 K
T2=200; // In K
Tr2=T2/Tc;
Cpr=1.046;
h_21=Cpr*(T2-T1);
// From the generalized chart for enthalpy departure at Pr1 & Tr1
h_22=1*Tc/M;
h2_h1=h_11-T2+T1-h_22;
// Second approximation
T2=190; // In K
Tr2=T2/Tc;
Cpr=1.046;
h_21=Cpr*(T2-T1);
// From the generalized chart for enthalpy departure at Pr1 & Tr1
h_22=1.5*Tc/M;
h2_h1=h_11-T2+T1-h_22;
disp ("Here also h2-h1 != 0. Therefore the temperature is dropping.Thus Joule-Thomson coefficient is positive.There is cooling in this process");
|
f5084ae6ada3c13f9db7cd82aec005b25c7e4435
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1466/CH3/EX3.13/3_13.sce
|
2a1812b76d3266b3d83cc861e932e8441a59bf3a
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 234
|
sce
|
3_13.sce
|
clc
//initialisation of variables
d= 10 //in
h= 3.5 //in
g= 32.2 //ft/sec^2
//CALCULATIONS
A= (%pi/4)*(d^2/144)
V= sqrt(2*g*(h/12))
vm= (2/3)*V
Q= vm*A*60
//RESULTS
printf (' Quantity flowing per minute = %.1f ft^3 ',Q)
|
004e2f0030c6dbdc269b9e16dd8f0042581796d6
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/3886/CH21/EX21.7/21_7.sce
|
1808899a1ae4b954747f5ac54918bd5ed8f2249c
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 75
|
sce
|
21_7.sce
|
//Length of pendulum
L=(1*9.81)/(4*%pi*%pi) //m
printf("\nL=%.3f m",L)
|
6f6a5226a8be73869f60548ed596e3f1db59dacb
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/896/CH2/EX2.2/2.sce
|
384adaa61d048105dd53eeabf5dfcfe7e7c7f197
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 271
|
sce
|
2.sce
|
clc
//calc pressure at depth of 304.9m
d=304.9;//m
rho_water=1024;//Kg/m^3
g=9.81;//m/s^2
p_atm=101.3;//KPa
//gauge pressure=(desity)*(acc. due to gravity)*(depth)
p_depth=p_atm+rho_water*g*d/1000;//KPa
disp("pressure at the depth is")
disp(p_depth)
disp("KPa")
|
c73da6c826376ef766e692bb1bb64817dfb3e4d1
|
1db0a7f58e484c067efa384b541cecee64d190ab
|
/macros/truth.sci
|
e4e967ed9432fb8d844da98c0c7a165534948969
|
[] |
no_license
|
sonusharma55/Signal-Toolbox
|
3eff678d177633ee8aadca7fb9782b8bd7c2f1ce
|
89bfeffefc89137fe3c266d3a3e746a749bbc1e9
|
refs/heads/master
| 2020-03-22T21:37:22.593805
| 2018-07-12T12:35:54
| 2018-07-12T12:35:54
| 140,701,211
| 2
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 46
|
sci
|
truth.sci
|
function f = truth()
y = %t
f = y
endfunction
|
b16924fae6622ba3f0118fa7fa451355983fd643
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/944/CH5/EX5.1/example5_1_TACC.sce
|
e64de8835b66df27d7d4351cb9b94f071d2b3b93
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 499
|
sce
|
example5_1_TACC.sce
|
//example 5.1
clear;
clc;
//given:
T1=373;//initial temperature [K]
T2=573;//final temperature [K]
Q2=750;//Heat absorbed by carnot engine[J]
//to find the workdone , heat rejected , and efficiency of the engine
e=(T2-T1)/T2;//efficiency of the engine
W=e*Q2;//Workdone by the engine[J]
Q1=T1*Q2/T2;//Heat rejected by the engine[J]
printf("Efficiency of the engine = %f ", e);
printf("\n Workdone by the engine = %f J", W);
printf("\n Heat rejected by the engine = %f J", Q1);
|
cca4ab40945fb7e95b5882ffa6dca2106438d56a
|
caafd05eb866a2bd249681ceeb5734ca2df71833
|
/TP4/newton.sci
|
92d613874dc9e5316deb80f3de6c94ee0cb4014c
|
[
"MIT"
] |
permissive
|
mmewen/MT09-numerical-analysis
|
5fb1f251e86f9d43d7eeb23ce7bcc91d6ca3fa8b
|
cde3871aa885811bc31166e778b2a4f052e74b64
|
refs/heads/master
| 2021-01-11T22:11:18.631204
| 2017-01-14T10:59:23
| 2017-01-14T10:59:23
| 78,934,966
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 743
|
sci
|
newton.sci
|
function [x, k] = newton(foncjac, tol, N, x0)
// Résolution du système
// tol : erreur RELATIVE en dessous de laquelle on considère la solution stationnaire
// N : nb max d'itérations
// x0 : valeur de x à laquelle on commmence les itérations
// k : nb d'itérations effectuées
n = length(x0);
x = zeros(n, 1);
x = x0;
for k = 1:N
[F, J] = foncjac(x);
h = J\F;
x = x - h;
// Si évolution < tol, on retourne le résultat
if norm(h) / norm(x) < tol then
return;
end
end
// Si nb max d'itération atteint, erreur
error('Le nombre maximum d itérations a été atteint sans converger');
endfunction
|
66063731e17ff1f3c2b2b6414841149453c770d9
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2858/CH6/EX6.5/Ex6_5.sce
|
0664a78db1ca88acdb93f716dc2128f5cb17b549
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 620
|
sce
|
Ex6_5.sce
|
//example 6.5
clc; funcprot(0);
P=['A','B','C','D','E','F','G','H','I','J','K','L','M','N'];//point
k=1.2*ones(1,14);//Q/A
x=[-38,-24, -12, 0, 12, 24, 38, 38, 24, 12, 0, -12, -24, -38];
x1=0.0017*x;
y=[48,48,48,48,48,48,48, -48, -48, -48, -48, -48, -48, -48];
y1=-0.0011*y;
printf("point\t Q\A (kip/ft^2)\t x(ft)\t 0.0017x(ft)\t\t y(ft)\t 0.0011y(ft)\t q(kip/ft^2)\n")
for i=1:14
q(i)=1.2+x1(i)+y1(i);
printf("%s\t %.2f\t\t %.2f\t\t%.2f\t\t %.2f\t %.2f\t\t %.2f\n ",P(i),k(i),x(i),x1(i),y(i),y1(i),q(i))
end
printf("the soil pressure at all point is less than the given qallnet=1.5 kip/ft^2");
|
3065e20f0718eac2693a2793577e1ed30849ec32
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/2789/CH2/EX2.8/Ex2_8.sce
|
d8f953747c29ad35543721ed424b1726785f8918
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 348
|
sce
|
Ex2_8.sce
|
clear;
clc;
//page no. 48
gam = 53.0;// lb/cuft
D = 17;// inches
d = 12;// inches
V = (%pi/6)*(D/12)^3;
V1 = 0.584;//cuft
V2 = 0.711;//cuft
W = V*gam;
F_B = V1*62.4;
F_ACA = (V2)*62.4;
F = W+F_ACA-F_B;
printf('The force exerted between sphere and orfice plate = %.1f lb',F);
//there is an error in the answer given in textbook
|
30681d9314a91aa6d81da9215da4b68d660c7e65
|
449d555969bfd7befe906877abab098c6e63a0e8
|
/1820/CH9/EX9.4/Example9_4.sce
|
8565dbd342332b656f345a1b949ea958dc4790ad
|
[] |
no_license
|
FOSSEE/Scilab-TBC-Uploads
|
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
|
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
|
refs/heads/master
| 2020-04-09T02:43:26.499817
| 2018-02-03T05:31:52
| 2018-02-03T05:31:52
| 37,975,407
| 3
| 12
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 1,458
|
sce
|
Example9_4.sce
|
// ELECTRIC POWER TRANSMISSION SYSTEM ENGINEERING ANALYSIS AND DESIGN
// TURAN GONEN
// CRC PRESS
// SECOND EDITION
// CHAPTER : 9 : SYMMETRICAL COMPONENTS AND FAULT ANALYSIS
// EXAMPLE : 9.4 :
clear ; clc ; close ; // Clear the work space and console
// GIVEN DATA
l = 40 ; // line length in miles
// Conductor parameter from Table A.3
r_a = 0.206 ; // Ohms per conductor per mile in Ω/mi
r_b = r_a ; // r_a = r_b = r_c in Ω/mi
D_s = 0.0311 ; // GMR in ft where D_s = D_sa = D_sb = D_sc
D_ab = sqrt(2^2 + 8^2) ; // GMR in ft
D_bc = sqrt(3^2 + 13^2) ; // GMR in ft
D_ac = sqrt(5^2 + 11^2) ; // GMR in ft
D_e = 2788.5 ; // GMR in ft since earth resistivity is zero
r_e = 0.09528 ; // At 60 Hz in Ω/mi
// CALCULATIONS
// For case (a)
Z_s =[(r_a + r_e) + %i*0.1213*log(D_e/D_s)]*l ; // Self impedance of line conductor in Ω . From equ 9.49
D_eq = (D_ab * D_bc * D_ac)^(1/3) ; // Equ GMR
Z_m = [r_e + %i*0.1213*log(D_e/D_eq)]*l ; // From equ 9.50
Z_abc = [Z_s Z_m Z_m ; Z_m Z_s Z_m ; Z_m Z_m Z_s] ; // Line impedance matrix
// For case (b)
Z_012 = [(Z_s+2*Z_m) 0 0 ; 0 (Z_s-Z_m) 0 ; 0 0 (Z_s-Z_m)] ; // Sequence impedance matrix . From equ 9.54
// DISPLAY RESULTS
disp("EXAMPLE : 9.4 : SOLUTION :-") ;
printf("\n (a) Line impedance matrix when line is completely transposed , [Z_abc] = \n") ; disp(Z_abc) ;
printf("\n (b) Sequence impedance matrix when line is completely transposed , [Z_012] = \n") ; disp(Z_012) ;
|
ef554cdbcba55c1ac1c8efe814a0e921d3ffece1
|
d0be4aa35a2d245d22814309fdcff594f6964c2d
|
/code/utkarsh_experiment_4.sce
|
1209f7d0c2e18bf6a105d6bfb48969b0b8ee61cf
|
[] |
no_license
|
utkarshsharma00/digital_circuits_lab_sem_5
|
450bbe574efbf97b00dcd300f22978cf25a5eb36
|
fa9a05c6ea2c5f73598d24f77382c1a00259d3d9
|
refs/heads/master
| 2020-07-23T13:44:41.110959
| 2019-10-21T12:48:16
| 2019-10-21T12:48:16
| 207,578,144
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 290
|
sce
|
utkarsh_experiment_4.sce
|
pi = 3.14;
t = 0:(pi/50):pi;
x = sin(t);
delta = 0.2;
L = length(x);
plot(x,'r');
Xn = 0;
for i = 1:L;
if x(i) > Xn(i);
d(i) = 1;
Xn(i+1) = Xn(i) + delta;
else;
d(i) = 0;
Xn(i+1) = Xn(i) - delta;
end;
end;
plot2d2(Xn);
title("Delta Modulation");
|
d68caf271f31fc9f7d1b1d30a425a235b535e311
|
cc8590d48fbf1cc9d2dfffdb260b554a6b07ffea
|
/Lista3.sce
|
3d71044e44fa93d98a21689160820af9f559ef1f
|
[] |
no_license
|
Anthony20153298/Lista_3
|
0eaaf0b998df219ab0107064b3e20f160df19427
|
6119227f51c38064190b9e30952b1a6bd99fd36f
|
refs/heads/master
| 2022-12-03T18:10:56.713545
| 2020-08-21T07:56:39
| 2020-08-21T07:56:39
| 289,211,589
| 0
| 0
| null | null | null | null |
UTF-8
|
Scilab
| false
| false
| 4,866
|
sce
|
Lista3.sce
|
//Motor DC
//Autor: Vasquez Rivera Anthony A.
//Sistema de Control Avanzado
ap= [-675,-26.25;1050,-0.093]// Matrix A
bp = [250,0;0,250]// Matrix B
cp = [1,0;0,1]// Matrix C
dp = 0*ones(2,2)// Matrix D
Gs= syslin("c",ap, bp, cp, dp)//Linear system definition
[tf]=ss2tf(Gs)//Conversion from state-space to transfer function
// Calculation of poles and zeros of the plant //
plzr(tf);// Pole-zero plot
scf(1);
// Definition of stability and performance barriers //
w=logspace(-3,3,400);
a=200;b=130;c=70;
x1=40*ones(1,a); x2=60*zeros(1,b); x3=-40*ones(1,c);
xt=[x1 x2 x3];
x4=[5*ones(1,100) 0*zeros(1,300)];
scf(2);
plot2d("ln", w, x4,3, rect=[10^-1 -60 10^3 60])
plot2d("ln", w, xt)
xgrid(12)
xtitle("Stability Barriers","Frequency w(rad/s)", "Amplitude (dB)");
s= svd(ap);
// Plot of maximum and minimum singular values //
tri = trzeros(Gs)//Transmission zeros and normal rank
w = logspace(-3,3);
svi = svplot(Gs,w);//Singular-value sigma-plot
scf(3);
plot2d("ln", w, 20*log(svi')/log(10))
xgrid(12)
xtitle("Design Plant Singular Values","Frequency (rad/s)", "Amplitude (dB)");
// We add an integrator to the plant //
[ns,nc]=size(bp); // ns = number of entries; nc = number of controls
Ai=[ap,bp;0*ones(nc,ns),0*ones(nc,nc)]; //Matrix A with integrator
Bi=[0*ones(ns,nc); eye(nc,nc)];//Matrix B with integrator
Ci=[cp 0*ones(nc,nc)];//Matrix C with integrator
Di=0*ones(nc,nc);//Matrix D with integrator
sysi=syslin('c',Ai,Bi,Ci,Di);
I=eye(nc);//Identity matrix
// Calculation and plotting of singular values with integrator //
tri = trzeros(sysi)
w = logspace(-3,3);
svi = svplot(sysi,w);
scf(4);
plot2d("ln", w, 20*log(svi')/log(10))
xgrid(12)
xtitle("Design Plant Singular Values","Frequency (rad/s)", "Amplitude (dB)");
// LQR controller //
C=0.7*Ci'*Ci; // Weighting matrix Q
rho=1e-1; // Value of rho
R = rho*eye(nc); // Associated with the cost matrix C
B=Bi*inv(R)*Bi'; // Recalculating B
A=Ai;
// Riccati in the system //
X=riccati(A,B,C,'c','eigen');
// The gain of the controller //
G=inv(R)*Bi'*X;
// Kalman filter layout //
ll= inv(cp*inv(-ap)*bp+dp); // Matrix L
lh = -inv(ap)*bp*ll;
Lp=[lh,
ll];
pnint = eye(nc,nc) // Values for the duality of the Filter
mu = 0.1; // LQR controller, applying Riccati
THETA = mu*eye(nc,nc)
Ah=Ai'; // Calculation of Ah
Bh=Ci'*inv(THETA)*Ci; // Calculation of Bh
Ch=Lp*Lp'; //Calculation of Ch
Xh=riccati(Ah,Bh,Ch,'c','eigen'); // Riccati application to the system
// Calculation of the gain of H
H=(inv(THETA)*Ci*Xh)';
sysh = syslin('c',Ai,H,Ci,Di);
// Calculation of singular values of the filter //
trh = trzeros(sysh)
w = logspace(-3,3);
svh = svplot(sysh,w);
scf(5);
plot2d("ln", w, 20*log(svh')/log(10))
xgrid(12)
xtitle("Singular Values – Kalman Filter","Frequency (rad/s)","Amplitude (dB)");
//Compensator//
Ak = [ Ai-Bi*G-H*Ci 0*ones(ns+nc,nc)
G 0*ones(nc,nc) ]//Matrix A with compensator
Bk = [ H
0*ones(nc,nc) ]//Matrix B with compensator
Ck = [0*ones(nc, ns+nc) eye(nc,nc) ]//Matrix C with compensator
Dk = 0*ones(nc,nc);//Matrix D with compensator
sysk=syslin('c',Ak,Bk,Ck,Dk);
// Calculation of singular values of the compensator //
trk = trzeros(sysk)
w = logspace(-3,3);
svk = svplot(sysk,w);
scf(6);
plot2d("ln", w, 20*log(svk')/log(10))
xgrid(12)
// We analyze in an open loop //
Abo = [ ap bp*Ck
0*ones(ns+nc+nc,ns) Ak ]//Matrix A in open loop
Bbo = [ 0*ones(ns,nc)
Bk ]
//Matrix B in open loop
Cbo = [ cp 0*ones(nc,ns+nc+nc) ]//Matrix C in open loop
Dbo = 0*ones(nc,nc);//Matrix D in open loop
sysbo = syslin('c',Abo,Bbo,Cbo,Dbo);
//Singular values of open loop //
vsbo = svplot(sysbo,w);
scf(7)
plot2d("ln", w, 20*log(vsbo')/log(10))
xgrid(12)
xtitle("Singular values plot del bucle abierto","Frequency (rad/s)", "Amplitude (dB)");
xtitle("Compensator Singular Values","Frequency (rad/s)", "Amplitude (dB)");
// Sensitivity analysis of S //
SS= syslin("c",Abo-Bbo*Cbo, Bbo, -Cbo, eye(nc,nc))
ssi = svplot(SS,w);
scf(8)
plot2d("ln", w, 20*log(ssi')/log(10))
xgrid(12)
xtitle("Singular values plot sensibility S","Frequency (rad/s)", "Amplitude (dB)");
// Sensitivity analysis of T //
ST= syslin('c',Abo-Bbo*Cbo, Bbo, Cbo, Dbo)
sti = svplot(ST,w);
scf(9)
plot2d("ln", w, 20*log(sti')/log(10))
xgrid(12)
xtitle("Singular values plot Sensibility T","Frequency (rad/s)", "Amplitude (dB)");
// Analysis of overlapping S and T //
scf(10)
plot2d("ln", w, [20*log(ssi')/log(10)])
plot2d("ln", w, [20*log(sti')/log(10)])
xgrid(12)
xtitle("Singular values plot S y T","Frequency (rad/s)", "Amplitude (dB)");
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