blob_id stringlengths 40 40 | directory_id stringlengths 40 40 | path stringlengths 6 214 | content_id stringlengths 40 40 | detected_licenses listlengths 0 50 | license_type stringclasses 2 values | repo_name stringlengths 6 87 | snapshot_id stringlengths 40 40 | revision_id stringlengths 40 40 | branch_name stringclasses 15 values | visit_date timestamp[us]date 2016-08-04 09:00:04 2023-09-05 17:18:33 | revision_date timestamp[us]date 1998-12-11 00:15:10 2023-09-02 05:42:40 | committer_date timestamp[us]date 2005-04-26 09:58:02 2023-09-02 05:42:40 | github_id int64 436k 586M ⌀ | star_events_count int64 0 12.3k | fork_events_count int64 0 6.3k | gha_license_id stringclasses 7 values | gha_event_created_at timestamp[us]date 2012-11-16 11:45:07 2023-09-14 20:45:37 ⌀ | gha_created_at timestamp[us]date 2010-03-22 23:34:58 2023-01-07 03:47:44 ⌀ | gha_language stringclasses 36 values | src_encoding stringclasses 17 values | language stringclasses 1 value | is_vendor bool 1 class | is_generated bool 1 class | length_bytes int64 5 10.4M | extension stringclasses 15 values | filename stringlengths 2 96 | content stringlengths 5 10.4M |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ab33565b7551bcf9b2d0a8e37e91b379a1b48e36 | 897ce6a3fd5b682122c396af7e24fa53014c7cb3 | /src_script/scilab/_import/rtsx_10/common/polyval.sci | dacefcc05861f0130aeecc2c573de4a2b8b5be18 | [] | no_license | stub22/glue-ai-v1_friendularity | e66f5ab357eba45de2def6f7900f414e358a4125 | 74949dc3e9b0d08b39857735aad901915e61322d | refs/heads/master | 2022-12-19T18:57:01.336831 | 2017-08-04T12:55:12 | 2017-08-04T12:55:12 | 284,544,364 | 0 | 0 | null | 2020-10-14T00:08:14 | 2020-08-02T21:24:34 | Java | UTF-8 | Scilab | false | false | 223 | sci | polyval.sci | // polyval.sci evaluate polynomial
// www.controlsystemslab.com August 2012
function Y=polyval(P,X)
Y = 0*X;
n = length(P);
for i=1:n
Y = Y + P(i)*X.^(n-i);
end
endfunction
|
1ae92244e6023280ac71408870b9df3aeaf9f409 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3834/CH6/EX6.2.1/Ex6_2_1.sce | 365f1911c1ab81ef6fdea4d48b838274bd1fa619 | [] | 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 | 503 | sce | Ex6_2_1.sce | //Fiber-optics communication technology, by Djafer K. Mynbaev and Lowell L. Scheiner
//Example 6.2.1
//windows 8
//Scilab version-6.0.0
clc;
clear ;
//given
a1=12.45E-6;//radius of the cladding for silica fiber
a=4.15E-6;//radius of the core for silica fiber
w0=5.15E-6;//in m
lambda=1600E-9;//wavelength in m
x=exp(-2*(a1^2/w0^2));
y=1-x;
Ploss=-10*log10(y);//power leakage in dB
mprintf("Possible power leakage= %.2f micro-dB",Ploss*1e6);//multiplication by 1e6 to convert unit from dB to micro dB
|
fefe1a148ba5999984fd626c96e4a84b14adead8 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1760/CH3/EX3.47/EX3_47.sce | e0dade497e921814fb8d7219235e173d6a218f77 | [] | 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 | 420 | sce | EX3_47.sce | //EXAMPLE 3-47 PG NO-202-203
Vab=212;
Vbc=212;
Vca=212;
Iab=10;
Ibc=5;
Ica=7.07;
P=[(Vab*Iab*0.707)+(Vbc*Ibc*0.707)+(212*7.07*0)];
disp('i) ACTIVE POWER (P) is = '+string (P) +' W ');
Q=[(Vab*Iab*0.707)+(Vbc*Ibc*-0.707)+(212*7.07*-1)]
disp('ii)REACTIVE POWER (Q) is = '+string (Q) +' vars ');
S=[P^2+(Q^2)]^0.5;
disp('i) APPARENT POWER (S) is = '+string (S) +' VA ');
|
a0505c4a43bcc0120a40a3f010c5e0de9a87bb99 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1619/CH4/EX4.8.3/Example4_8_3.sce | ef514ab55ffcf6049c635ff25e3f53e395ae0011 | [] | 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 | 484 | sce | Example4_8_3.sce | //Example 4.8.3 page 4.40
clc;
clear;
C= 5*10^-12;
B =50*10^6;
Ip= 1*10^-7;
e= 1.602*10^-19;
k= 1.38*10^-23;
T= 18+273;
M= 1;
Rl= 1/(2*%pi*C*B);
S_N= Ip^2/((2*e*B*Ip)+(4*k*T*B/Rl));
S_N = 10*log10(S_N); //in db
printf("The S/N ratio is %.2f dB",S_N);
M=41.54;
S_N_new= (M^2*Ip^2)/((2*e*B*Ip*M^2.3)+(4*k*T*B/Rl));
S_N_new = 10*log10(S_N_new); //in db
printf("\n\nThe new S/N ratio is %.2f dB",S_N_new);
printf("\n\nImprovement over M=1 is %.1f dB",S_N_new-S_N);
|
1f988e87633e0bcda270d5e4472fd74047f46390 | 449d555969bfd7befe906877abab098c6e63a0e8 | /14/CH14/EX14.9/example_14_9.sce | 266512013ac6141b316149e46dd24acebf1a9a7f | [] | 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 | 3,022 | sce | example_14_9.sce | //Chapter 14
//Example 14.9
//Page 404
//multimachine
clear;clc;
//Given
P_g1 = 400e6;V_g1 = 20e3;X1_dg1 = 0.067;H_g1 = 11.2;
P_g2 = 250e6;V_g2 = 18e3;X1_dg2 = 0.10;H_g2 = 8;
E_3 = 1;
//From Table 14.2
X_14 = 0.022;
X_25 = 0.040;
R_34 = 0.007;X_34 = 0.04;Y_34 = 0.082;
R_35_1 = 0.008;X_35_1 = 0.047;Y_35_1 = 0.098;
R_35_2 = 0.008;X_35_2 = 0.047;Y_35_2 = 0.098;
R_45 = 0.018;X_45 = 0.11;Y_45 = 0.226;
//From Table 14.3
V1 = 1.03 * (cos(8.88 * %pi / 180) + %i * sin(8.88 * %pi / 180));
P1 = 3.5;Q1 = 0.712;
V2 = 1.02 * (cos(6.38 * %pi / 180) + %i * sin(6.38 * %pi / 180));
P2 = 1.85;Q2 = 0.298;
V3 = 1;
V4 = 1.018 * (cos(4.68 * %pi / 180) + %i * sin(4.68 * %pi / 180));
P4 = 1;Q4 = 0.44;
V5 = 1.011 * (cos(2.27 * %pi / 180) + %i * sin(2.27 * %pi / 180));
P5 = 0.5;Q5 = 0.16;
//Calculations
I1 = (P1 + %i * Q1)' / V1';
I2 = (P2 + %i * Q2)' / V2';
E1_1 = V1 + %i * X1_dg1 * I1;
E1_2 = V2 + %i * X1_dg2 * I2;
E1_3 = E_3;
Y_L4 = (P4 + %i * Q4)' / (abs(V4))^2;
Y_L5 = (P5 + %i * Q5)' / (abs(V5))^2;
//formation of bus admittance matrix
Ybus = zeros(5,5);
Ybus(1,1) = 1 / (%i * (X1_dg1 + X_14));Ybus(1,4) = - Ybus(1,1);
Ybus(2,2) = 1 / (%i * (X1_dg2 + X_25));Ybus(2,5) = - Ybus(2,2);
Ybus(3,3) = 1 / (R_34 + %i * X_34) + 1 / (R_35_1 + %i * X_35_1) + 1 / (R_35_2 + %i * X_35_2) + %i * Y_34 / 2 + %i * Y_35_1;
Ybus(3,4) = - 1 / (R_34 + %i * X_34);
Ybus(3,5) = - 2 / (R_35_1 + %i * X_35_1);
Ybus(4,1) = Ybus(1,4);Ybus(4,3) = Ybus(3,4);Ybus(4,3) = Ybus(3,4);
Ybus(4,4) = 1 / (%i * (X1_dg1 + X_14)) + %i * Y_34 / 2 + %i * Y_45 / 2 + 1 / (R_34 + %i * X_34) + 1 / (R_45 + %i * X_45) + Y_L4;
Ybus(4,5) = - 1 / (R_45 + %i * X_45);
Ybus(5,2) = Ybus(2,5);Ybus(5,3) =Ybus(3,5);Ybus(5,4) = Ybus(4,5);
Ybus(5,5) = 2 / (R_35_1 + %i * X_35_1) + 1 / (R_45 + %i * X_45) + Y_L5 + %i * Y_35_1 + %i * Y_45 / 2 + Ybus(2,2);
disp(Ybus,'Elements of prefault bus admittance matrix')
printf("\n\n\n")
Ybus_1 = Ybus(1:3,1:3);
Ybus_2 = [Ybus_1 Ybus(1:3,5:5)];
Ybus_new = [Ybus_2 ; Ybus(5:5,1:3) Ybus(5,5)];
disp(Ybus_new,'After bus 4 is shorted the matrix becomes')
[m,n] = size(Ybus_new);
Ybus_fault = zeros(m-1,n-1);
for c = 1:m-1
for d = 1:n-1
Ybus_fault(c,d) = Ybus_new(c,d) - ((Ybus_new(c,4)*Ybus_new(4,d)) / Ybus_new(4,4));
end
end
printf("\n\n\n")
disp(Ybus_fault,'Elements of faulted bus admittance matrices')
//calculations for swing equation
Pe1 = 0;//Since G11 = real(Ybus_fault(1,1)) = 0;Ybus_fault(1,2) = Ybus_fault(1,3) = 0;
Pe2_1 = abs(E1_2)^2 * real(Ybus_fault(2,2));
Pe2_2 = abs(E1_2) * abs(E_3) * abs(Ybus_fault(2,3));
theta_23 = atan(real(Ybus_fault(2,3)),imag(Ybus_fault(2,3)));
printf("\n Pe1 = 0 \n Pe2 = %.4f + %.4fsin(delta_2 - %.3f) \n",Pe2_1,Pe2_2,- theta_23 * 180 / %pi)
Pa1 = P1 - Pe1;
printf("\n Swing Equation for machine 1 on fault in elec deg/square sec \n d^2(delta_1)/dt^2 = (180f/%.1f) * (%.1f) \n",H_g1,Pa1)
Pa2 = P2 - Pe2_1;
printf("\n Swing equation for machine 2 on fault in elec deg/square sec \n d^2(delta_2)/dt^2 = (180f/%.1f) * (%.4f - %.4fsin(delta_2 - %.3f)\n",H_g2,Pa2,Pe2_2,- theta_23 * 180 / %pi) |
d83541a63f35392ea0f1fa2cdd2d870691061dc4 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3689/CH12/EX12.8/12_8.sce | 845b46c31040c4e34da6cc4b13a25f18ced92d28 | [] | 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 | 626 | sce | 12_8.sce | //////
//Variable Declaration
n = 50 //Number of separate experiments
j1 = 25 //Number of sucessful expt with heads up
j2 = 10 //Number of sucessful expt with heads up
//Calculation
C25 = factorial(n)/(factorial(j1)*factorial(n-j1))
PE25 = (1/2)**j1
PEC25 = (1-(1/2))**(n-j1)
P25 = C25*PE25*PEC25
C10 = factorial(n)/(factorial(j2)*factorial(n-j2))
PE10 = (1/2)**j2
PEC10 = (1-(1/2))**(n-j2)
P10 = C10*PE10*PEC10
//Results
printf("\n Probability of getting 25 head out of 50 tossing is %4.3f",P25)
printf("\n Probability of getting 10 head out of 50 tossing is %4.3e",P10)
|
e803e9d462857e1e993fa8a4ae49762d4b0abdcd | b0b9e886919dfc6a8d8d5e37e0b61e19447f0e2a | /Data/yalefaces/readyalefaces.sce | 3e5683b25e09ff9903a004d9e8539b482d5e04c2 | [] | no_license | SHINE1607/facerecognition_PCA | 97f8d1f7053787cfb0cff6ae3717f6777328d4b7 | 4d0817ddee4899702091e657c4b08750ed81d31d | refs/heads/master | 2021-02-28T08:34:41.895997 | 2020-03-07T18:22:01 | 2020-03-07T18:22:01 | 245,678,219 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 71 | sce | readyalefaces.sce | clear all
clc
for i = 1:15
for j = 1:2
end
end
|
ca21e1ebb5c8c3dcf251ed951d3ec32c381cdeee | 449d555969bfd7befe906877abab098c6e63a0e8 | /2732/CH6/EX6.15/Ex6_15.sce | 428ac058df8f0173f8d5d5885956996ee76bbc53 | [] | 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 | 311 | sce | Ex6_15.sce | clc
//initialization of variables
clear
// linked to 6_14
D=10 //cm
d= 1 //cm
n=20
P=60 //kg
G=8*10^5 //kg/cm^2
// calculations
m=D/d
fs=8*P*D/(d^3*%pi)
fs1=fs*(1+0.615/m+3/(4*m-4))
// results
printf('The shear stress with and without correction facor are \n respectively %d, %d kg/cm^2',fs,fs1)
|
ffe57bd319faac9de478e2a1cf9177341e55a0c9 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2318/CH2/EX2.41/ex_2_41.sce | b2bdb091f985279578c3b93ba8d552067ef1590b | [] | 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 | 464 | sce | ex_2_41.sce | //Example 2.41:primary current ,phase error
clc;
clear;
close;
zs=0.433+%i*0.25;//ohm
zs1=0.15+%i*0.0;//ohm
zs2=zs+zs1;//ohm
zsa=sqrt(real(zs2)^2+imag(zs2)^2);//
zsng=atand(imag(zs2)/real(zs2));//
nt=2;//turns
l1=8;//
l2=4;//
ie=l2/nt;//
im=l1/nt;//
tnt=198;//turns
is=5;//A
K=((tnt/2)+((ie*cosd(zsng))+(im*sind(zsng)))/is);//
ip=K*is;//A
th=((im*cosd(zsng))-(ie*sind(zsng)))/((tnt/2)*is);//
disp(ip,"primary current is,(A)=")
disp(th,"phase error is,(radian)=")
|
71176c90306bc020411ecbb04161074f8a5e8af0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2345/CH15/EX15.12/Ex15_12.sce | 4d69a26bad94bd114b3d3578a82e833ce7c4f32a | [] | 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 | 263 | sce | Ex15_12.sce | //Finding resistivity
//Example 15.12(pg 399)
clc
clear
V=0.05//volume in m^3
l=300//length in m
R=0.0306//resistance of conductor in ohm
rho=R*V/(l^2)//resistivity of conducting material
printf('Thus resistivity of conducting material is %e ohm-m',rho)
|
152246ce545c314debb79d1a2b549860b6bb0182 | e04f3a1f9e98fd043a65910a1d4e52bdfff0d6e4 | /New LSTMAttn Model/.data/form-split/GOLD-TEST/cre.tst | 87c7a2f391eea5e8b7299586f80c62133721f657 | [] | no_license | davidgu13/Lemma-vs-Form-Splits | c154f1c0c7b84ba5b325b17507012d41b9ad5cfe | 3cce087f756420523f5a14234d02482452a7bfa5 | refs/heads/master | 2023-08-01T16:15:52.417307 | 2021-09-14T20:19:28 | 2021-09-14T20:19:28 | 395,023,433 | 3 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 59,793 | tst | cre.tst | pāsew ga kẻ pāsewananowuk V;NO3PA;PRF;IND;PL;1+INCL;FUT
i iumwuk V;NO3SI;IND;PL;3;PRS
kesikamukun ā kẻ kesikamukủkātookwā V;PRF;COND+SBJV
peẻtokwah peẻtokwahảtananuk V;NO3PA;IND;PL;1+INCL;PST
kesikamukun ā kesikamukủkepunātookwā V;IPFV;COND+SBJV
kwaskỏtot kitta kẻ kwaskỏtotuman V;NO3SI;PRF;SBJV;SG;1;FUT
mikeskaw ā wẻ mikeskakepun V;IPFV;SBJV+OPT
pāsew pāsewawuk V;NO3PA;IND;SG;2;PRS
tapwảt ga tapwảtảtanan V;NO3SI;POT;PL;1+INCL;PST
i itảtawaw V;NO3SA;IND;PL;2;PST
i ā kẻ iumảkepun V;NO3SI;PFV;SBJV;PL;1+INCL
sakeh kitta sakehumảkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
mispoon kitta wẻ mispoonookopun V;IPFV;COND+POT+OPT
isitissả ga kẻ isitissảtảtyuk V;NO3PA;PFV;POT;SG;2
i ga itảty V;NO3PA;POT;SG;3;PST
tipiskaw kitta kẻ wẻ tipiskakepun V;PFV;COND+POT+OPT
sakeh kitta sakehumủk V;NO3SI;SBJV;PL;1+INCL;FUT
pāsew ga kẻ pāsewān V;NO3SI;PRF;IND;SG;1;FUT
isitissả ga kẻ isitissảwāo V;NO3SA;PRF;IND;SG;3;FUT
nuku nukutānanow V;NO3SI;IND;PL;1+INCL;PRS
peẻtokwah ga kẻ peẻtokwahawuk V;NO3PA;PRF;IND;SG;2;FUT
kissinamukun kitta kẻ wẻ kissinamukủk V;PFV;SBJV+OPT;FUT
pāsew kẻ pāsewảtananuk V;NO3PA;IND;PL;1+INCL;PST
sekahảt ga kẻ sekahảtowaw V;ANIM;NO3SA;POT;SG;1;PRS
kekesk kitta kekeskủkikepun V;NO3SI;SBJV+POT;PL;3;PST
pusustả ga kẻ pusustảwananow V;NO3SA;PRF;IND;PL;1+INCL;FUT
peẻtokwah ā peẻtokwahatchik V;NO3PA;SBJV;PL;3;PRS
kisastāo kitta kisastātookwā V;COND+IND;FUT
sakeh ga kẻ sakehananuk V;NO3PA;POT;PL;1+INCL;PRS
itāyim ā kẻ itāyimủmāk V;NO3SI;PRF;SBJV;PL;2
kwaskỏtot ga kwaskỏtotảtawaw V;NO3SI;POT;PL;3;PST
wapun kitta wẻ wapunopun V;IPFV;POT+OPT
itāyim ā itāyimukeetchik V;NO3PA;SBJV;PL;1;PRS
na kẻ naumoowảpun V;NO3SI;PFV;IND;PL;3
mikeskaw kẻ mikeskapun V;PFV;IND
na kitta kẻ naumupun V;NO3SI;PFV;SBJV+POT;SG;2
kwaskỏtot kẻ kwaskỏtotowananowuk V;NO3PA;PRF;IND;PL;1+INCL
kekesk ga kekeskowanan V;NO3SA;IND;PL;1+INCL;FUT
isitissả isitissảwawuk V;NO3PA;IND;SG;1;PRS
kwaskỏtot kitta kẻ kwaskỏtotumun V;NO3SI;PRF;SBJV;SG;2;FUT
pāsew pāsewảkākook V;NO3SA;IMP;PL;2;FUT
kisastāo ā wẻ kisastākepun V;IPFV;SBJV+OPT
kwaskỏtot ga kẻ kwaskỏtotum V;NO3SI;PRF;IND;SG;3;FUT
sakeh kẻ sakehảtawawuk V;NO3PA;IND;PL;2;PST
kekesk kekeskowảty V;IND;SG;3;PST
isitissảhum ga isitissảhumowảtananowuk V;NO3PA;POT;PL;1+INCL;PST
peẻtokwah peẻtokwahtak V;NO3SI;IMP;PL;1+INCL;PRS
isitissả kitta kẻ isitissảủkik V;NO3SI;PRF;SBJV;PL;3;FUT
isitissảhum kẻ isitissảhumả V;NO3SI;PFV;IND;SG;2
i kẻ itananowuk V;NO3PA;PRF;IND;PL;1+INCL
kisastāmukun kitta kẻ wẻ kisastāmukunotookwā V;COND+POT+OPT;PRS
nuku ga nukutananowuk V;NO3PA;IND;PL;1+INCL;FUT
isitissảhum isitissảhumowāo V;NO3PA;IND;SG;3;PRS
isitissả ga kẻ isitissảảtanan V;NO3SI;PFV;POT;PL;1+INCL
kwaskỏtot kẻ kwaskỏtotowảtanan V;NO3SA;PFV;IND;PL;1+INCL
tipiskamukun kẻ wẻ tipiskamukủkwā V;PRF;ADM+OPT
peẻtokwah kẻ peẻtokwahāwuk V;NO3SA;PRF;IND;PL;3
isitissả ā kẻ isitissảumảkepun V;NO3SI;PFV;SBJV;PL;1+INCL
i iả V;NO3SI;IND;SG;2;PST
kissechewunomukun kitta kissechewunomukunookwā V;ADM;FUT
i ga kẻ itananow V;NO3SA;PRF;IND;PL;1+INCL;FUT
isitissảhum kitta kẻ isitissảhumumupun V;NO3SI;PFV;SBJV+POT;SG;2
kwaskỏtot kwaskỏtotowāwuk V;NO3PA;IND;PL;3;PRS
nuku ga kẻ nukutawaw V;NO3SA;POT;PL;2;PRS
i kẻ itāwuk V;NO3PA;PRF;IND;PL;3
kekesk ā kẻ kekeskumủkepun V;NO3SI;PFV;SBJV;PL;1+INCL
sakeh kitta sakehumapan V;NO3SI;SBJV+POT;SG;1;PST
kekesk kẻ kekeskowảtyuk V;NO3PA;IND;SG;1;PST
yootin kitta kẻ wẻ yootinookopun V;PFV;COND+POT+OPT
mikeskaw kitta mikeskakwā V;ADM;FUT
pāsew ā pāsewumủkepun V;NO3SI;SBJV;PL;1+INCL;PST
tapwảt tapwảtum V;NO3SI;IND;SG;3;PRS
sakeh ā kẻ sakehumwảpun V;NO3SI;PFV;SBJV;PL;3
kwaskỏtot ga kwaskỏtotān V;NO3SI;IND;SG;2;FUT
kwaskỏtot kwaskỏtotowatak V;NO3SA;IMP;PL;1+INCL;PRS
tipiskaw ā kẻ tipiskakepun V;PFV;COND+SBJV
pusustả kitta pusustảumủk V;NO3SI;SBJV;PL;1+INCL;FUT
na ga kẻ naānawapun V;NO3SI;PFV;POT;PL;2
pipoon pipoonootookwā V;COND+IND;PRS
pusustả ga kẻ pusustảả V;NO3SI;PFV;POT;SG;1
nuku ga kẻ nukuảtawaw V;NO3SI;PFV;POT;PL;3
kissinamukun kitta kẻ wẻ kissinamukủkwā V;PFV;ADM+OPT;FUT
itāyim ga kẻ itāyimawuk V;NO3PA;PRF;IND;SG;1;FUT
sekahảt ā kẻ sekahảtủkik V;NO3SI;PRF;SBJV;PL;3
na kẻ natảtawaw V;NO3SA;PFV;IND;PL;2
kisastāmukun ā kẻ wẻ kisastāmukỏk V;PRF;SBJV+OPT
pusustả pusustảwảkunik V;NO3PA;IMP;SG;2;FUT
kekesk kitta kekeskủmāk V;NO3SI;SBJV;PL;2;FUT
isitissảhum ga isitissảhumowảty V;NO3SA;POT;SG;1;PST
kesikaw kẻ kesikakopun V;PFV;COND+IND
nuku kitta kẻ nukuuman V;NO3SI;PRF;SBJV;SG;1;FUT
nuku nukutảtananowuk V;NO3PA;IND;PL;1+INCL;PST
na ga naumopuneek V;NO3SI;POT;PL;3;PST
mispoonomukun ā wẻ mispoonomukunookopunā V;IPFV;ADM+OPT
kekesk ga kekeskowāwuk V;NO3PA;IND;PL;3;FUT
tapwảt ga kẻ tapwảtowawaw V;NO3SA;POT;PL;2;PRS
kisastāmukun ā kisastāmukunookopunā V;IPFV;ADM
isitissảhum kitta kẻ isitissảhumủkikepun V;NO3SI;PFV;SBJV+POT;PL;3
peẻtokwah peẻtokwahāo V;NO3PA;IND;SG;3;PRS
mispoonomukun kẻ wẻ mispoonomukunopun V;PFV;IND+OPT
mispoon kẻ wẻ mispoonookopunā V;PFV;ADM+OPT
pusustả ga kẻ pusustảwananuk V;NO3PA;PRF;IND;PL;1+INCL;FUT
kwaskỏtot kwaskỏtotumwuk V;NO3SI;IND;PL;3;PRS
isitissả isitissảwikảkāk V;NO3SA;IMP;PL;2;FUT
i kẻ itanan V;NO3SA;PRF;IND;PL;1+INCL
kissechewunomukun wā kissechewunomukủkepunā V;IPFV;ADM
nuku ā kẻ nukuủkwảpun V;NO3SI;PFV;SBJV;PL;3
nỏtāpuyew kẻ nỏtāpuyepun V;PFV;IND
pusustả ā pusustảủkikepun V;NO3SI;SBJV;PL;3;PST
kekesk kẻ kekeskowảtananow V;NO3SA;PFV;IND;PL;1+INCL
isitissảhum ga kẻ isitissảhumowawaw V;NO3SA;PRF;IND;PL;2;FUT
tipiskamukun wẻ tipiskamukun V;IND+OPT;PRS
meyooskumeew ā wẻ meyooskumeekepunā V;IPFV;ADM+OPT
sekahảt sekahảtānawaw V;NO3SI;IND;PL;2;PRS
na ga kẻ natảtanan V;NO3SA;PFV;POT;PL;1+INCL
kimewun kẻ kimewunookwā V;PRF;ADM
isitissả ā isitissảwatchik V;NO3SA;SBJV;PL;3;PRS
peẻtokwah ā peẻtokwahatchik V;NO3SA;SBJV;PL;3;PRS
i ga itanan V;NO3SA;IND;PL;1+INCL;FUT
kekesk kekeskānanow V;NO3SI;PRF;IND;PL;1+INCL
na natảkook V;NO3SA;IMP;PL;2;PRS
yootin kẻ wẻ yootinookopun V;PFV;COND+IND+OPT
kekesk kekeskowảkākook V;NO3SA;IMP;PL;2;FUT
sekahảt ga kẻ sekahảtả V;NO3SI;PFV;POT;SG;2
sekahảt ā sekahảtowukeet V;NO3SA;SBJV;PL;1;PRS
isitissảhum isitissảhumānapun V;NO3SI;IND;SG;2;PST
kwaskỏtot ā kwaskỏtotủk V;NO3SI;SBJV;SG;3;PRS
kissechewunomukun kẻ wẻ kissechewunomukunookopun V;PFV;COND+IND+OPT
tipiskaw kitta kẻ wẻ tipiskakopun V;PFV;COND+POT+OPT
tapwảt tapwảtowatan V;NO3SA;IMP;PL;1;PRS
tapwảt ga tapwảtumoowảpun V;NO3SI;POT;PL;3;PST
kissinamukun kitta wẻ kissinamukủk V;SBJV+OPT;FUT
isitissả isitissảwananow V;NO3SA;IND;PL;1+INCL;PRS
sekahảt ga kẻ sekahảtānapun V;NO3SI;PFV;POT;SG;1
kwaskỏtot ga kwaskỏtotảtawaw V;NO3SI;POT;PL;2;PST
peẻtokwah ga peẻtokwahảtawaw V;NO3SA;POT;PL;3;PST
pusustả ga kẻ pusustảwāo V;NO3SA;PRF;IND;SG;3;FUT
sakeh ga kẻ sakehảtananow V;NO3SA;PFV;POT;PL;1+INCL
kimewun kẻ kimewủkepunā V;PFV;ADM
tapwảt kẻ tapwảtả V;NO3SI;PFV;IND;SG;3
i ā iumảkepun V;NO3SI;SBJV;PL;1+INCL;PST
peẻtokwah ga peẻtokwahảtyuk V;NO3PA;POT;SG;2;PST
peẻtokwah ga kẻ peẻtokwahananuk V;NO3PA;POT;PL;1+INCL;PRS
sakeh kitta kẻ sakehumủkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
kisastāo kitta kẻ kisastākepun V;PFV;SBJV+POT
isitissả kitta kẻ isitissảumảkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
kisastāo kitta kẻ wẻ kisastākātookwā V;PFV;COND+SBJV+OPT;FUT
peẻtokwah kẻ peẻtokwahān V;NO3SI;PRF;IND;SG;1
isitissả ā isitissảumảkepun V;NO3SI;SBJV;PL;1+INCL;PST
sekahảt kitta kẻ sekahảtumủk V;NO3SI;PRF;SBJV;PL;1+INCL;FUT
isitissả ā isitissảwatchik V;NO3PA;SBJV;PL;3;PRS
yootin ā wẻ yooteẻkepun V;IPFV;COND+SBJV+OPT
meyooskumeew meyooskumeekopun V;IPFV;COND+IND
kisastāmukun kisastāmukunotookwā V;COND+IND;PRS
meyooskumeew kitta wẻ meyooskumeekātookwā V;COND+SBJV+OPT;FUT
peẻtokwah kitta kẻ peẻtokwahuman V;NO3SI;PRF;SBJV;SG;1;FUT
kwaskỏtot kẻ kwaskỏtotānawaw V;NO3SI;PRF;IND;PL;2
pusustả ga pusustảānawapun V;NO3SI;POT;PL;2;PST
tapwảt ā kẻ tapwảtumwảpun V;NO3SI;PFV;SBJV;PL;3
isitissảhum ga isitissảhumumopun V;NO3SI;POT;SG;3;PST
na kẻ natảtawaw V;NO3PA;IND;PL;3;PST
isitissả ā kẻ isitissảủkikepun V;NO3SI;PFV;SBJV;PL;3
na natảkun V;NO3PA;IMP;SG;2;FUT
isitissả kẻ isitissảwāwuk V;NO3SA;PRF;IND;PL;3
mispoon kitta wẻ mispookepunā V;IPFV;ADM+POT+OPT
pāsew ga kẻ pāsewảtanan V;NO3SI;PFV;POT;PL;1+INCL
mispoon kitta kẻ mispoỏkepun V;PFV;SBJV+POT
itāyim ga kẻ itāyimawuk V;NO3PA;POT;SG;1;PRS
kekesk kekeskảtanan V;NO3SI;IND;PL;1+INCL;PST
na kẻ natawuk V;NO3PA;PRF;IND;SG;2
kekesk kekeskowảty V;NO3SA;IND;SG;2;PST
pusustả ga pusustảwaw V;ANIM;NO3SA;IND;SG;1;FUT
sekahảt sekahảtowānanow V;NO3SI;IND;PL;1+INCL;PRS
itāyim kẻ itāyimảtanan V;NO3SA;PFV;IND;PL;1+INCL
i ga itảtanan V;NO3SA;POT;PL;1+INCL;PST
kwaskỏtot ā kẻ kwaskỏtotuman V;NO3SI;PRF;SBJV;SG;1
kissinamukun kitta kẻ wẻ kissinamukỏkepun V;PFV;SBJV+POT+OPT
i kẻ itảtawaw V;NO3SA;PFV;IND;PL;2
sakeh kẻ sakehảty V;PFV;IND;SG;3
nỏtāpuyew kẻ wẻ nỏtāpuyikwā V;PRF;ADM+OPT
kissinaw ā kẻ wẻ kissinakepun V;PFV;SBJV+OPT
itāyim itāyimumopuneek V;NO3SI;IND;PL;3;PST
pusustả ga pusustảwawuk V;NO3PA;IND;SG;2;FUT
sekahảt kẻ sekahảtowāwuk V;NO3SA;PRF;IND;PL;3
kisastāo ā wẻ kisastākepun V;IPFV;COND+SBJV+OPT
kwaskỏtot ga kẻ kwaskỏtotả V;NO3SI;PFV;POT;SG;1
na ga naumopun V;NO3SI;POT;SG;3;PST
mispoon kitta wẻ mispoonookopun V;IPFV;COND+POT+OPT
mispoonomukun ā mispoonomukủkepun V;IPFV;SBJV
pipoon kẻ wẻ pipoonopun V;PFV;IND+OPT
kesikaw kitta kesikatookwā V;COND+IND;FUT
sakeh sakehānanow V;NO3SI;PRF;IND;PL;1+INCL
peẻtokwah kitta peẻtokwahumảkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
kissechewunomukun kẻ kissechewunomukủkwā V;PRF;ADM
sakeh sakehatak V;NO3SA;IMP;PL;1+INCL;PRS
pāsew kẻ pāsewảtanan V;NO3SI;PFV;IND;PL;1+INCL
kwaskỏtot kẻ kwaskỏtotānapun V;NO3SI;PFV;IND;SG;1
sakeh ā kẻ sakehuman V;NO3SI;PRF;SBJV;SG;1
isitissả isitissảwāo V;NO3PA;IND;SG;3;PRS
nỏtāpuyew kitta nỏtāpuyātookwā V;COND+IND;FUT
itāyim itāyimumwuk V;NO3SI;IMP;PL;3;PRS
i ga kẻ itawuk V;NO3PA;PRF;IND;SG;2;FUT
nuku ga kẻ nukutāo V;NO3SA;POT;SG;3;PRS
itāyim ā itāyimutchik V;NO3PA;SBJV;SG;2;PRS
nỏtāpuyew kitta kẻ wẻ nỏtāpuyikwā V;PFV;ADM+OPT;FUT
tipiskamukun kitta tipiskamukunookopun V;IPFV;COND+POT
tipiskaw kitta tipiskapun V;IPFV;POT
kesikaw ā wẻ kesikakepun V;IPFV;COND+SBJV+OPT
isitissả ga kẻ isitissảwananowuk V;NO3PA;PRF;IND;PL;1+INCL;FUT
kimewun kitta kẻ kimewủk V;PFV;SBJV;FUT
nuku kitta kẻ nukuumảk V;NO3SI;PRF;SBJV;PL;1+INCL;FUT
kimewun kẻ wẻ kimewunookopunā V;PFV;ADM+OPT
kekesk kẻ kekeskowảtawaw V;NO3SA;PFV;IND;PL;3
peẻtokwah ga kẻ peẻtokwahảtananuk V;NO3PA;PFV;POT;PL;1+INCL
tapwảt kitta kẻ tapwảtumun V;NO3SI;PRF;SBJV;SG;2;FUT
i ga kẻ itāwuk V;NO3SA;POT;PL;3;PRS
sekahảt kẻ sekahảtowảty V;PFV;IND;SG;3
mispoonomukun kitta kẻ mispoonomukủkepunā V;PFV;ADM+POT
sekahảt ga kẻ sekahảtān V;NO3SI;PRF;IND;SG;1;FUT
kissinaw kitta kissinakepun V;IPFV;SBJV+POT
i ā kẻ iumảk V;NO3SI;PRF;SBJV;PL;1+INCL
pusustả pusustảān V;NO3SI;IND;SG;2;PRS
i ga itảtyuk V;NO3PA;POT;SG;2;PST
pāsew ga kẻ pāsewảtawawuk V;NO3PA;PFV;POT;PL;2
pāsew ga pāsewumopuneek V;NO3SI;POT;PL;3;PST
tapwảt ā kẻ tapwảtủpun V;NO3SI;PFV;SBJV;SG;3
kwaskỏtot ga kẻ kwaskỏtotowaw V;NO3SA;PRF;IND;SG;2;FUT
sekahảt kitta sekahảtumảk V;NO3SI;SBJV;PL;1+INCL;FUT
pusustả ga kẻ pusustảảtawaw V;NO3SI;PFV;POT;PL;3
sekahảt kitta sekahảtowāo V;NO3PA;IMP;SG;3;PRS
tipiskaw ā tipiskakātookwā V;COND+SBJV;PRS
i ga itảtawaw V;NO3SA;POT;PL;3;PST
sakeh ga kẻ sakehả V;NO3SI;PFV;POT;SG;1
pusustả ga kẻ pusustảwanan V;NO3SA;POT;PL;1+INCL;PRS
na ā kẻ naumun V;NO3SI;PRF;SBJV;SG;2
kekesk ā kekeskumun V;NO3SI;SBJV;SG;2;PRS
itāyim ga itāyimawuk V;NO3PA;IND;SG;2;FUT
isitissả kẻ isitissảānapun V;NO3SI;PFV;IND;SG;2
mispoon kẻ mispoonookwā V;PRF;ADM
peẻtokwah kẻ peẻtokwahānawapun V;NO3SI;PFV;IND;PL;2
isitissảhum ga kẻ isitissảhumowảtananuk V;NO3PA;PFV;POT;PL;1+INCL
kissinamukun kẻ kissinamukủkwā V;PRF;ADM
nuku ā nukuumupun V;NO3SI;SBJV;SG;2;PST
itāyim ga itāyimananowuk V;NO3PA;IND;PL;1+INCL;FUT
mikeskaw kitta kẻ mikeskakepunā V;PFV;ADM+POT
itāyim ga kẻ itāyimumoowảpun V;NO3SI;PFV;POT;PL;3
pāsew kẻ pāsewaw V;ANIM;NO3SA;PRF;IND;SG;1
kissinaw kitta kẻ wẻ kissinakepunā V;PFV;ADM+POT+OPT
na ā natủk V;NO3SA;SBJV;PL;1+INCL;PRS
mispoonomukun kẻ wẻ mispoonomukunopun V;PFV;IND+OPT
isitissảhum isitissảhumowik V;NO3PA;IMP;SG;2;PRS
na natảtawaw V;NO3SA;IND;PL;2;PST
nuku nukutāwuk V;NO3SA;IND;PL;3;PRS
pāsew kẻ pāsewananuk V;NO3PA;PRF;IND;PL;1+INCL
itāyim ga itāyimaw V;NO3SA;IND;SG;2;FUT
i ga kẻ itảty V;NO3SA;PFV;POT;SG;1
itāyim ga kẻ itāyimananow V;NO3SA;PRF;IND;PL;1+INCL;FUT
itāyim ā itāyimủk V;NO3SA;SBJV;PL;1+INCL;PRS
kwaskỏtot ā kwaskỏtotủkwaw V;NO3SI;SBJV;PL;3;PRS
tapwảt ga kẻ tapwảtảtanan V;NO3SI;PFV;POT;PL;1+INCL
kekesk kẻ kekeskowanan V;NO3SA;PRF;IND;PL;1+INCL
tipiskaw kẻ wẻ tipiskaw V;PRF;IND+OPT
tipiskamukun kẻ tipiskamukunotookwā V;PRF;COND+IND
itāyim ga kẻ itāyimum V;NO3SI;PRF;IND;SG;3;FUT
kwaskỏtot kitta kẻ kwaskỏtotủkwaw V;NO3SI;PRF;SBJV;PL;3;FUT
kisastāmukun kitta kẻ wẻ kisastāmukunookopunā V;PFV;ADM+POT+OPT
isitissả kitta isitissảwāo V;NO3SA;IMP;SG;3;PRS
tipiskamukun ā kẻ wẻ tipiskamukỏk V;PRF;SBJV+OPT
isitissảhum isitissảhumowawuk V;NO3PA;IND;SG;2;PRS
i kẻ itawuk V;NO3PA;PRF;IND;SG;2
isitissảhum ga kẻ isitissảhumowananow V;NO3SA;POT;PL;1+INCL;PRS
pāsew ga kẻ pāsewawawuk V;NO3PA;POT;PL;2;PRS
wapun ey wapủkepunā V;IPFV;ADM
kesikaw ā kesikakepun V;IPFV;COND+SBJV
kisastāo ā kisastākepun V;IPFV;SBJV
itāyim ā itāyimuman V;NO3SI;SBJV;SG;1;PRS
pāsew kitta pāsewủpun V;NO3SI;SBJV+POT;SG;3;PST
tapwảt tapwảtowikảkāk V;NO3SA;IMP;PL;2;FUT
tapwảt ā tapwảtowutchik V;NO3PA;SBJV;SG;2;PRS
nuku ga nukutảtawaw V;NO3SA;POT;PL;2;PST
pusustả pusustảwảkun V;NO3PA;IMP;SG;2;FUT
sekahảt sekahảtowawuk V;NO3PA;IND;SG;2;PRS
isitissả isitissảānawapun V;NO3SI;IND;PL;2;PST
na natatak V;NO3SA;IMP;PL;1+INCL;PRS
sakeh kẻ sakehumoowảpun V;NO3SI;PFV;IND;PL;3
kissechewunomukun ā kissechewunomukủk V;SBJV;PRS
kekesk kitta kekeskủkik V;NO3SI;SBJV;PL;3;FUT
itāyim itāyimanan V;NO3SA;IND;PL;1;PRS
kisastāo kẻ wẻ kisastākopun V;PFV;COND+IND+OPT
wapun kitta wẻ wapunopun V;IPFV;POT+OPT
na kẻ natawawuk V;NO3PA;PRF;IND;PL;2
sakeh kẻ sakehawawuk V;NO3PA;PRF;IND;PL;2
isitissả isitissảumwuk V;NO3SI;IND;PL;3;PRS
kekesk kitta kẻ kekeskumảkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
kwaskỏtot ā kwaskỏtotowủk V;NO3SA;SBJV;PL;1+INCL;PRS
isitissảhum ga kẻ isitissảhumowawuk V;NO3PA;PRF;IND;SG;1;FUT
isitissảhum ga kẻ isitissảhumowāo V;NO3PA;PRF;IND;SG;3;FUT
peẻtokwah ā kẻ peẻtokwahủkikepun V;NO3SI;PFV;SBJV;PL;3
itāyim ga itāyimawawuk V;NO3PA;IND;PL;2;FUT
kekesk kitta kẻ kekeskumupun V;NO3SI;PFV;SBJV+POT;SG;2
tapwảt tapwảtả V;NO3SI;IND;SG;3;PST
kekesk kekeskowảkủkwanik V;NO3PA;IMP;PL;1+INCL;FUT
sekahảt kitta kẻ sekahảtumapan V;NO3SI;PFV;SBJV+POT;SG;1
kissinaw kitta kẻ wẻ kissinak V;PFV;SBJV+OPT;FUT
isitissảhum ga kẻ isitissảhumowawuk V;NO3PA;PRF;IND;SG;2;FUT
isitissảhum kẻ isitissảhumowảtawaw V;NO3SA;PFV;IND;PL;2
isitissả kẻ isitissảwảtananowuk V;NO3PA;IND;PL;1+INCL;PST
nuku nukutananuk V;NO3PA;IND;PL;1;PRS
tapwảt kẻ tapwảtowảtawawuk V;NO3PA;IND;PL;2;PST
na naumopun V;NO3SI;IND;SG;3;PST
kwaskỏtot ā kẻ kwaskỏtotumupun V;NO3SI;PFV;SBJV;SG;2
kwaskỏtot kwaskỏtotowāwuk V;NO3SA;IND;PL;3;PRS
isitissảhum kẻ isitissảhumảtananow V;NO3SI;PFV;IND;PL;1+INCL
meyooskumeew meyooskumeetookwā V;COND+IND;PRS
i ga itảty V;NO3SA;POT;SG;1;PST
na kitta nauman V;NO3SI;SBJV;SG;1;FUT
sekahảt ā kẻ sekahảtumākepun V;NO3SI;PFV;SBJV;PL;2
pusustả kitta pusustảủkepun V;NO3SI;SBJV+POT;SG;3;PST
isitissảhum kitta isitissảhumumủkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
kekesk ga kẻ kekeskānan V;NO3SI;PRF;IND;PL;1+INCL;FUT
isitissảhum ga kẻ isitissảhumowāwuk V;NO3PA;PRF;IND;PL;3;FUT
kwaskỏtot kẻ kwaskỏtotumoowảpun V;NO3SI;PFV;IND;PL;3
mispoon kitta wẻ mispoonātookwā V;COND+IND+OPT;FUT
sakeh ga kẻ sakehảty V;NO3PA;PFV;POT;SG;3
itāyim ga kẻ itāyimảtawaw V;NO3SI;PFV;POT;PL;2
kekesk ā kẻ kekeskumảkepun V;NO3SI;PFV;SBJV;PL;1+INCL
sakeh sakehảtanan V;NO3SI;IND;PL;1+INCL;PST
kesikaw kitta kẻ wẻ kesikakepun V;PFV;COND+POT+OPT
pāsew kitta kẻ pāsewumủkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
pāsew ga pāsewananowuk V;NO3PA;IND;PL;1+INCL;FUT
isitissảhum kitta isitissảhumumảk V;NO3SI;SBJV;PL;1+INCL;FUT
peẻtokwah kitta peẻtokwahủmāk V;NO3SI;SBJV;PL;2;FUT
kisastāmukun kẻ kisastāmukủkepunā V;PFV;ADM
sakeh ga sakehānawaw V;NO3SI;IND;PL;2;FUT
na kẻ naum V;NO3SI;PRF;IND;SG;3
itāyim itāyimeẻkook V;NO3SA;IMP;PL;2;PRS
kekesk ga kẻ kekeskowanan V;NO3SA;PRF;IND;PL;1;FUT
wapun kitta wẻ wapủkepunā V;IPFV;ADM+POT+OPT
pusustả pusustảwanan V;NO3SA;IND;PL;1;PRS
kekesk ā kekeskủmāk V;NO3SI;SBJV;PL;2;PRS
peẻtokwah ā kẻ peẻtokwahumảk V;NO3SI;PRF;SBJV;PL;1+INCL
sekahảt ga kẻ sekahảtowawaw V;NO3SA;PRF;IND;PL;2;FUT
kekesk kitta kekeskủk V;NO3SI;SBJV;SG;3;FUT
kesikaw kitta kẻ wẻ kesikakātookwā V;PFV;COND+SBJV+OPT;FUT
sakeh ga kẻ sakehaw V;NO3SA;PRF;IND;SG;2;FUT
sakeh sakehāo V;NO3PA;IND;SG;3;PRS
pusustả ga pusustảả V;NO3SI;POT;SG;2;PST
isitissảhum kitta kẻ isitissảhumumủk V;NO3SI;PRF;SBJV;PL;1+INCL;FUT
tapwảt ga tapwảtả V;NO3SI;POT;SG;2;PST
peẻtokwah ā kẻ peẻtokwahủmāk V;NO3SI;PRF;SBJV;PL;2
isitissảhum isitissảhumowāwuk V;NO3PA;IND;PL;3;PRS
pusustả pusustảảtawaw V;NO3SI;IND;PL;2;PST
kisastāo kitta kẻ kisastāo V;PFV;IND;FUT
peẻtokwah kitta peẻtokwahumun V;NO3SI;SBJV;SG;2;FUT
na kẻ natảty V;PFV;IND;SG;3
sakeh sakehtak V;NO3SI;IMP;PL;1+INCL;PRS
kwaskỏtot ā kwaskỏtotowākook V;NO3PA;SBJV;PL;2;PRS
peẻtokwah ā peẻtokwahumapan V;NO3SI;SBJV;SG;1;PST
pāsew pāsewaw V;NO3SA;IND;SG;1;PRS
i itatan V;NO3SA;IMP;PL;1;PRS
kisastāo kitta kẻ kisastātookwā V;PFV;COND+IND;FUT
sakeh ga kẻ sakehumoowảpun V;NO3SI;PFV;POT;PL;3
isitissảhum ga isitissảhumān V;NO3SI;IND;SG;1;FUT
itāyim kẻ itāyimumoowảpun V;NO3SI;PFV;IND;PL;3
nuku ā nukuủkwaw V;NO3SI;SBJV;PL;3;PRS
pusustả kitta pusustảủk V;NO3SI;SBJV;SG;3;FUT
kekesk kekeskowawawuk V;NO3PA;IND;PL;2;PRS
isitissảhum isitissảhumowảty V;NO3PA;IND;SG;3;PST
peẻtokwah ga peẻtokwahawuk V;NO3PA;IND;SG;1;FUT
pāsew pāsewumoowảpun V;NO3SI;IND;PL;3;PST
itāyim kẻ itāyimānanapun V;NO3SI;PFV;IND;PL;1+INCL
peẻtokwah kẻ peẻtokwahāo V;NO3PA;PRF;IND;SG;3
pusustả ga kẻ pusustảwaw V;NO3SA;PRF;IND;SG;2;FUT
mispoonomukun ā wẻ mispoonomukủkepunā V;IPFV;ADM+OPT
itāyim itāyimānapun V;NO3SI;IND;SG;2;PST
itāyim itāyimảtawaw V;NO3PA;IND;PL;3;PST
nuku ga kẻ nukutāo V;NO3PA;POT;SG;3;PRS
tipiskamukun wẻ tipiskamukun V;IND+OPT;PRS
kekesk ga kẻ kekeskowawawuk V;NO3PA;POT;PL;2;PRS
na ga kẻ natawaw V;NO3SA;POT;PL;2;PRS
nuku ā nukuumủkepun V;NO3SI;SBJV;PL;1+INCL;PST
sakeh ga kẻ sakehảtawaw V;NO3SI;PFV;POT;PL;2
pusustả ga kẻ pusustảwananowuk V;NO3PA;PRF;IND;PL;1+INCL;FUT
tapwảt kitta tapwảtowāo V;NO3PA;IMP;SG;3;PRS
nuku nukutảtawaw V;NO3PA;IND;PL;3;PST
sekahảt sekahảtowāwuk V;NO3SA;IND;PL;3;PRS
nuku ga kẻ nukutảty V;PFV;POT;SG;3
na ā naủkepun V;NO3SI;SBJV;SG;3;PST
pusustả ā kẻ pusustảủkikepun V;NO3SI;PFV;SBJV;PL;3
peẻtokwah kitta peẻtokwahāo V;NO3SA;IMP;SG;3;PRS
pāsew kitta pāsewủkwảpun V;NO3SI;SBJV+POT;PL;3;PST
isitissảhum ga isitissảhumowawuk V;NO3PA;IND;SG;1;FUT
tipiskamukun kitta tipiskamukủkepunā V;IPFV;ADM+POT
kekesk ga kẻ kekeskowāwuk V;NO3PA;PRF;IND;PL;3;FUT
tapwảt kitta kẻ tapwảtủkwảpun V;NO3SI;PFV;SBJV+POT;PL;3
kisastāmukun kitta kẻ wẻ kisastāmukunotookwā V;COND+POT+OPT;PRS
sekahảt ā kẻ sekahảtủkwaw V;NO3SI;PRF;SBJV;PL;3
sakeh ga kẻ sakehānapun V;NO3SI;PFV;POT;SG;2
kissinamukun kitta kẻ kissinamukủkepun V;PFV;SBJV+POT
kekesk ga kẻ kekeskowảtananuk V;NO3PA;PFV;POT;PL;1+INCL
itāyim itāyimảtawaw V;NO3SI;IND;PL;3;PST
kimewun kẻ wẻ kimewủkepunā V;PFV;ADM+OPT
isitissảhum kitta isitissảhumủkwaw V;NO3SI;SBJV;PL;3;FUT
sakeh ga kẻ sakehanan V;NO3SA;POT;PL;1+INCL;PRS
i iảtawaw V;NO3SI;IND;PL;2;PST
kissinamukun kitta wẻ kissinamukủkepunā V;IPFV;ADM+POT+OPT
na kitta naủkikepun V;NO3SI;SBJV+POT;PL;3;PST
mispoon kẻ wẻ mispoonookwā V;PRF;ADM+OPT
pusustả ā pusustảwatchik V;NO3SA;SBJV;PL;3;PRS
kwaskỏtot ā kwaskỏtotowukeetchik V;NO3PA;SBJV;PL;1;PRS
na kitta kẻ naumảk V;NO3SI;PRF;SBJV;PL;1+INCL;FUT
isitissảhum kẻ isitissảhumowāwuk V;NO3PA;PRF;IND;PL;3
kissinaw kitta wẻ kissinakwā V;ADM+OPT;FUT
nuku ga kẻ nukutảtyuk V;NO3PA;PFV;POT;SG;2
i ga itảtawaw V;NO3SA;POT;PL;2;PST
i itānanow V;NO3SI;IND;PL;1+INCL;PRS
kimewun kitta kimewunookopunā V;IPFV;ADM+POT
i kẻ iumopuneek V;NO3SI;PFV;IND;PL;3
isitissả ga isitissảumwuk V;NO3SI;IND;PL;3;FUT
sakeh ga kẻ sakehāo V;NO3PA;PRF;IND;SG;3;FUT
pāsew ā pāsewủkwaw V;NO3SI;SBJV;PL;3;PRS
isitissả kẻ isitissảtảtyuk V;NO3PA;IND;SG;2;PST
kekesk ga kekeskowảtananuk V;NO3PA;POT;PL;1+INCL;PST
kisastāo ā kisastāk V;SBJV;PRS
kissechewunomukun ā kissechewunomukủk V;SBJV;PRS
sekahảt ā sekahảtumun V;NO3SI;SBJV;SG;2;PRS
isitissảhum kẻ isitissảhumowảtanan V;NO3SA;PFV;IND;PL;1+INCL
tapwảt ga kẻ tapwảtả V;NO3SI;PFV;POT;SG;2
nuku ga nukuānawapun V;NO3SI;POT;PL;2;PST
sakeh ga kẻ sakehawawuk V;NO3PA;PRF;IND;PL;2;FUT
pāsew ga pāsewaw V;ANIM;NO3SA;IND;SG;1;FUT
kisastāmukun kẻ kisastāmukunookwā V;PRF;ADM
sekahảt ga kẻ sekahảtả V;NO3SI;PFV;POT;SG;3
sakeh kẻ sakehānapun V;NO3SI;PFV;IND;SG;1
itāyim ā itāyimủkikepun V;NO3SI;SBJV;PL;3;PST
kesikaw kitta wẻ kesikakepun V;IPFV;SBJV+POT+OPT
sekahảt kitta kẻ sekahảtủkwaw V;NO3SI;PRF;SBJV;PL;3;FUT
meyooskumeew kitta meyooskumeepun V;IPFV;POT
isitissảhum ga isitissảhumowāwuk V;NO3SA;IND;PL;3;FUT
sekahảt ga sekahảtowảtawaw V;NO3SA;POT;PL;2;PST
peẻtokwah peẻtokwahảkākook V;NO3SA;IMP;PL;2;FUT
tipiskaw kitta wẻ tipiskakepun V;IPFV;SBJV+POT+OPT
tipiskaw kẻ wẻ tipiskatookwā V;PRF;COND+IND+OPT
kekesk ā kekeskowủk V;NO3SA;SBJV;PL;1+INCL;PRS
meyooskumeew ā meyooskumeekātookwā V;COND+SBJV;PRS
nỏtāpuyew kitta wẻ nỏtāpuyepun V;IPFV;POT+OPT
kwaskỏtot ga kẻ kwaskỏtotowawuk V;NO3PA;PRF;IND;SG;2;FUT
kimewun kitta wẻ kimewunookopunā V;IPFV;ADM+POT+OPT
sakeh ga kẻ sakehaw V;NO3SA;POT;SG;2;PRS
pāsew kitta kẻ pāsewủkik V;NO3SI;PRF;SBJV;PL;3;FUT
tipiskamukun kitta kẻ tipiskamukỏkepun V;PFV;SBJV+POT
nuku ā nukuủpun V;NO3SI;SBJV;SG;3;PST
kisastāmukun ā kẻ kisastāmukủk V;PRF;SBJV
kwaskỏtot kwaskỏtotowảtananow V;NO3SA;IND;PL;1+INCL;PST
itāyim kẻ itāyimả V;NO3SI;PFV;IND;SG;1
sekahảt sekahảtānanapun V;NO3SI;IND;PL;1+INCL;PST
peẻtokwah kitta kẻ peẻtokwahủkwảpun V;NO3SI;PFV;SBJV+POT;PL;3
sakeh ga kẻ sakehānapun V;NO3SI;PFV;POT;SG;1
kekesk kitta kẻ kekeskumủkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
tipiskaw kitta wẻ tipiskapun V;IPFV;POT+OPT
kekesk ā kekeskủpun V;NO3SI;SBJV;SG;3;PST
isitissả ā isitissảumảk V;NO3SI;SBJV;PL;1+INCL;PRS
nuku nukuả V;NO3SI;IND;SG;2;PST
na natảtananuk V;NO3PA;IND;PL;1+INCL;PST
kisastāmukun ā kisastāmukủk V;SBJV;PRS
isitissả isitissảānanow V;NO3SI;PRF;IND;PL;1+INCL;FUT
tapwảt kẻ tapwảtowảtawaw V;NO3SA;PFV;IND;PL;2
pusustả kitta pusustảumủkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
tapwảt tapwảtow V;NO3SA;IMP;SG;2;PRS
kwaskỏtot kwaskỏtotumopuneek V;NO3SI;IND;PL;3;PST
kwaskỏtot kwaskỏtotowảk V;NO3SA;IMP;PL;2;PRS
meyooskumeew ā meyooskumeekepunā V;IPFV;ADM
kisastāo ā kisastākepun V;IPFV;COND+SBJV
itāyim kitta itāyimuman V;NO3SI;SBJV;SG;1;FUT
pāsew ga pāsewảtyuk V;NO3PA;POT;SG;1;PST
isitissả ga isitissảwawuk V;NO3PA;IND;SG;1;FUT
isitissảhum isitissảhumowảkủk V;NO3PA;IMP;PL;1;FUT
kwaskỏtot ga kwaskỏtotowāo V;NO3PA;IND;SG;3;FUT
na kitta kẻ naumun V;NO3SI;PRF;SBJV;SG;2;FUT
kesikamukun ā kesikamukủkepunātookwā V;IPFV;COND+SBJV
pusustả ā pusustảumupun V;NO3SI;SBJV;SG;2;PST
i kitta kẻ iumākepun V;NO3SI;PFV;SBJV+POT;PL;2
sakeh ga sakehānapun V;NO3SI;POT;SG;2;PST
meyooskumeew kitta wẻ meyooskumeew V;IND+OPT;FUT
nuku kitta kẻ nukuumupun V;NO3SI;PFV;SBJV+POT;SG;2
na ga kẻ nataw V;ANIM;NO3SA;POT;SG;1;PRS
i ga iảtawaw V;NO3SI;POT;PL;2;PST
i ga kẻ iānapun V;NO3SI;PFV;POT;SG;1
i ā itatchik V;NO3PA;SBJV;PL;3;PRS
kekesk ga kekeskả V;NO3SI;POT;SG;1;PST
pāsew ga kẻ pāsewanan V;NO3SA;POT;PL;1+INCL;PRS
pusustả pusustảumopuneek V;NO3SI;IND;PL;3;PST
pusustả kẻ pusustảwảtananowuk V;NO3PA;IND;PL;1+INCL;PST
na kẻ natawaw V;NO3SA;PRF;IND;PL;2
pāsew pāsewumwuk V;NO3SI;IND;PL;3;PRS
kesikaw kesikapun V;IPFV;IND
tipiskamukun kitta kẻ tipiskamukủk V;PFV;SBJV;FUT
kwaskỏtot ga kwaskỏtotowảty V;POT;SG;3;PST
pusustả ga kẻ pusustảwawuk V;NO3PA;PRF;IND;SG;2;FUT
nuku ga kẻ nukutāwuk V;NO3PA;POT;PL;3;PRS
pāsew ga kẻ pāsewumopuneek V;NO3SI;PFV;POT;PL;3
isitissả ga kẻ isitissảānawapun V;NO3SI;PFV;POT;PL;2
meyooskumeew kitta kẻ meyooskumeetookwā V;COND+POT;PRS
nuku ā nukutat V;NO3SA;SBJV;SG;3;PRS
nuku nukutatak V;NO3SA;IMP;PL;1+INCL;PRS
nuku ga nukuả V;NO3SI;POT;SG;1;PST
kesikamukun kẻ wẻ kesikamukủkwā V;PRF;ADM+OPT
sakeh kẻ sakehāo V;NO3PA;PRF;IND;SG;3
pusustả kitta pusustảumảkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
pipoon kitta kẻ wẻ pipoonātookwā V;PFV;COND+IND+OPT;FUT
isitissả kitta isitissảủkikepun V;NO3SI;SBJV+POT;PL;3;PST
pāsew ga kẻ pāsewawuk V;NO3PA;PRF;IND;SG;1;FUT
sakeh kitta kẻ sakehủk V;NO3SI;PRF;SBJV;SG;3;FUT
nuku ā nukutatchik V;NO3PA;SBJV;PL;3;PRS
sakeh kẻ sakehānawapun V;NO3SI;PFV;IND;PL;2
sakeh ga sakehumoowảpun V;NO3SI;POT;PL;3;PST
i ga kẻ itawuk V;NO3PA;PRF;IND;SG;1;FUT
itāyim itāyimtak V;NO3SI;IMP;PL;1+INCL;PRS
kissinamukun kitta kẻ kissinamukunookwā V;PFV;ADM;FUT
kisastāmukun kitta wẻ kisastāmukunookopunā V;IPFV;ADM+POT+OPT
pāsew kitta pāsewủkepun V;NO3SI;SBJV+POT;SG;3;PST
kwaskỏtot ā kẻ kwaskỏtotumủk V;NO3SI;PRF;SBJV;PL;1+INCL
sekahảt sekahảtowảty V;NO3SA;IND;SG;1;PST
yootin ā yooteẻkepun V;IPFV;SBJV
tipiskamukun ā tipiskamukủkepun V;IPFV;SBJV
na ā naumủk V;NO3SI;SBJV;PL;1+INCL;PRS
sekahảt sekahảtānan V;NO3SI;IND;PL;1+INCL;PRS
kekesk kẻ kekeskowananow V;NO3SA;PRF;IND;PL;1+INCL
pusustả ga kẻ pusustảwāo V;NO3SA;POT;SG;3;PRS
tapwảt tapwảtowảkunik V;NO3PA;IMP;SG;2;FUT
kesikaw kitta kesikakātookwā V;COND+SBJV;FUT
isitissả ga kẻ isitissảwanan V;NO3SA;PRF;IND;PL;1;FUT
itāyim kitta kẻ itāyimumwảpun V;NO3SI;PFV;SBJV+POT;PL;3
sekahảt kitta kẻ sekahảtủkwảpun V;NO3SI;PFV;SBJV+POT;PL;3
kissinaw ā wẻ kissinakepunā V;IPFV;ADM+OPT
sekahảt sekahảtowảty V;NO3SA;IND;SG;2;PST
peẻtokwah ā peẻtokwahuman V;NO3SI;SBJV;SG;1;PRS
sekahảt ga sekahảtowảtanan V;NO3SA;POT;PL;1+INCL;PST
kissinaw ā wẻ kissinakātookwā V;COND+SBJV+OPT;PRS
pipoon kẻ wẻ pipoonookwā V;PRF;ADM+OPT
tapwảt ga kẻ tapwảtowawuk V;NO3PA;POT;SG;1;PRS
itāyim ga itāyimumoowảpun V;NO3SI;POT;PL;3;PST
isitissả ā isitissảủmāk V;NO3SI;SBJV;PL;2;PRS
nỏtāpuyew kitta kẻ wẻ nỏtāpuyikepun V;PFV;SBJV+POT+OPT
sakeh ga sakehảtanan V;NO3SI;POT;PL;1+INCL;PST
tapwảt ga kẻ tapwảtowāwuk V;NO3SA;POT;PL;3;PRS
kissinaw kitta kẻ kissinapun V;PFV;POT
peẻtokwah ga peẻtokwahảtyuk V;NO3PA;POT;SG;1;PST
itāyim kẻ itāyimānapun V;NO3SI;PFV;IND;SG;1
kekesk ga kẻ kekeskowảtawaw V;NO3SA;PFV;POT;PL;3
isitissảhum ā isitissảhumowukik V;NO3PA;SBJV;SG;1;PRS
mispoonomukun ā kẻ mispoonomukủkepun V;PFV;SBJV
pusustả kẻ pusustảtảty V;NO3SA;PFV;IND;SG;2
nuku ga nukutảtawaw V;NO3PA;POT;PL;3;PST
yootin kẻ yootinookwā V;PRF;ADM
mikeskaw kẻ wẻ mikeskakwā V;PRF;ADM+OPT
pāsew kẻ pāsewảtawaw V;NO3SA;PFV;IND;PL;3
meyooskumeew meyooskumeew V;IND;PRS
kissechewunomukun wā kissechewunomukunookwā V;ADM;PRS
nỏtāpuyew kitta kẻ wẻ nỏtāpuyepun V;PFV;POT+OPT
tapwảt ga kẻ tapwảtowảtawaw V;NO3PA;PFV;POT;PL;3
i kẻ itảtawawuk V;NO3PA;IND;PL;2;PST
isitissảhum isitissảhumānan V;NO3SI;IND;PL;1+INCL;PRS
tapwảt ga kẻ tapwảtowananuk V;NO3PA;POT;PL;1+INCL;PRS
peẻtokwah ga kẻ peẻtokwahảty V;PFV;POT;SG;3
sekahảt ā sekahảtumảk V;NO3SI;SBJV;PL;1+INCL;PRS
itāyim ga itāyimảtawaw V;NO3SA;POT;PL;2;PST
nuku kẻ nukutawuk V;NO3PA;PRF;IND;SG;2
i itawuk V;NO3PA;IND;SG;2;PRS
nuku ā nukuủmāk V;NO3SI;SBJV;PL;2;PRS
kisastāo kitta wẻ kisastāk V;SBJV+OPT;FUT
pusustả ga kẻ pusustảwananow V;NO3SA;POT;PL;1+INCL;PRS
meyooskumeew kitta kẻ wẻ meyooskumeekwā V;PFV;ADM+OPT;FUT
kekesk ga kẻ kekeskowảtyuk V;NO3PA;PFV;POT;SG;1
tapwảt tapwảtowawuk V;NO3PA;IND;SG;1;PRS
peẻtokwah kẻ peẻtokwahảtananow V;NO3SI;PFV;IND;PL;1+INCL
peẻtokwah ga peẻtokwahāwuk V;NO3SA;IND;PL;3;FUT
peẻtokwah peẻtokwaheẻkook V;NO3SA;IMP;PL;2;PRS
peẻtokwah peẻtokwahủtan V;NO3SI;IMP;PL;1+INCL;PRS
pāsew ga pāsewawaw V;NO3SA;IND;PL;2;FUT
tapwảt ga kẻ tapwảtumwuk V;NO3SI;PRF;IND;PL;3;FUT
kesikamukun ey wẻ kesikamukủkwā V;ADM+OPT;PRS
isitissảhum ga kẻ isitissảhumumoowảpun V;NO3SI;PFV;POT;PL;3
tipiskamukun kitta kẻ wẻ tipiskamukunookwā V;PFV;ADM+OPT;FUT
pāsew ga pāsewāo V;NO3PA;IND;SG;3;FUT
sakeh ā sakehumupun V;NO3SI;SBJV;SG;2;PST
kwaskỏtot ga kwaskỏtotả V;NO3SI;POT;SG;1;PST
kwaskỏtot ga kẻ kwaskỏtotowawuk V;NO3PA;POT;SG;2;PRS
kesikaw ey kesikakepunā V;IPFV;ADM
kwaskỏtot kwaskỏtotowảkủk V;NO3PA;IMP;PL;1;FUT
tipiskaw kitta wẻ tipiskaw V;IMP+OPT
mikeskaw kitta wẻ mikeskakwā V;ADM+OPT;FUT
wapun kitta wẻ wapun V;IMP+OPT
sekahảt ā kẻ sekahảtủk V;NO3SI;PRF;SBJV;SG;3
nỏtāpuyew wẻ nỏtāpuyetookwā V;COND+IND+OPT;PRS
na natảkủkwawik V;NO3PA;IMP;PL;1+INCL;FUT
peẻtokwah kitta peẻtokwahumảk V;NO3SI;SBJV;PL;1+INCL;FUT
yootin kitta wẻ yootinopun V;IPFV;POT+OPT
meyooskumeew kitta kẻ wẻ meyooskumeekātookwā V;PFV;COND+SBJV+OPT;FUT
sekahảt ā kẻ sekahảtumảkepun V;NO3SI;PFV;SBJV;PL;1+INCL
isitissả ga isitissảả V;NO3SI;POT;SG;2;PST
pusustả kẻ pusustảum V;NO3SI;PRF;IND;SG;3
i kẻ itảty V;NO3PA;IND;SG;3;PST
tapwảt ā tapwảtủk V;NO3SI;SBJV;SG;3;PRS
peẻtokwah ga kẻ peẻtokwahananow V;NO3SA;PRF;IND;PL;1+INCL;FUT
pipoon ā kẻ pipoỏkepun V;PFV;SBJV
sakeh ga kẻ sakehảty V;NO3SA;PFV;POT;SG;1
tapwảt ga kẻ tapwảtān V;NO3SI;PRF;IND;SG;2;FUT
sekahảt sekahảtowaw V;NO3SA;IND;SG;1;PRS
isitissảhum kitta isitissảhumumwảpun V;NO3SI;SBJV+POT;PL;3;PST
sekahảt kitta kẻ sekahảtuman V;NO3SI;PRF;SBJV;SG;1;FUT
kekesk kekeskumopuneek V;NO3SI;IND;PL;3;PST
tapwảt ga tapwảtowảty V;POT;SG;3;PST
i ā kẻ iủmāk V;NO3SI;PRF;SBJV;PL;2
kissinamukun ā wẻ kissinamukunookwā V;ADM+OPT;PRS
sakeh kitta kẻ sakehủkepun V;NO3SI;PFV;SBJV+POT;SG;3
pusustả ga pusustảwāo V;NO3PA;IND;SG;3;FUT
isitissảhum isitissảhumả V;NO3SI;IND;SG;3;PST
itāyim kitta kẻ itāyimumảkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
kwaskỏtot kẻ kwaskỏtotowảtawaw V;NO3PA;IND;PL;3;PST
kekesk kitta kẻ kekeskủkik V;NO3SI;PRF;SBJV;PL;3;FUT
kisastāo kitta kẻ kisastākwā V;PFV;ADM;FUT
nuku kẻ nukuānawaw V;NO3SI;PRF;IND;PL;2
sakeh sakehāwuk V;NO3PA;IND;PL;3;PRS
nuku nukutanan V;NO3SA;IND;PL;1;PRS
isitissảhum ga kẻ isitissảhumowảtawaw V;NO3SA;PFV;POT;PL;3
tipiskaw ā wẻ tipiskakātookwā V;COND+SBJV+OPT;PRS
kekesk kekeskowảtawaw V;NO3PA;IND;PL;3;PST
kekesk ga kekeskum V;NO3SI;IND;SG;3;FUT
isitissảhum kẻ isitissảhumowawaw V;NO3SA;PRF;IND;PL;2
tapwảt kitta kẻ tapwảtumủk V;NO3SI;PRF;SBJV;PL;1+INCL;FUT
kimewun kitta wẻ kimewủkātookwā V;COND+SBJV+OPT;FUT
kwaskỏtot kẻ kwaskỏtotowawaw V;NO3SA;PRF;IND;PL;2
nỏtāpuyew ā nỏtāpuyikātookwā V;COND+SBJV;PRS
i ā itutchik V;NO3PA;SBJV;SG;2;PRS
tipiskaw kitta kẻ tipiskakepun V;PFV;SBJV+POT
nuku ga kẻ nukutananuk V;NO3PA;POT;PL;1+INCL;PRS
pusustả ā pusustảumủkepun V;NO3SI;SBJV;PL;1+INCL;PST
sakeh ā sakehat V;NO3PA;SBJV;SG;3;PRS
kekesk ga kẻ kekeskowaw V;NO3SA;POT;SG;2;PRS
sekahảt kẻ sekahảtowảty V;NO3SA;PFV;IND;SG;2
nuku kẻ nukutāo V;NO3PA;PRF;IND;SG;3
kwaskỏtot ā kẻ kwaskỏtotumun V;NO3SI;PRF;SBJV;SG;2
kissechewunomukun kẻ wẻ kissechewunomukunookopun V;PFV;COND+IND+OPT
sakeh ā sakehumapan V;NO3SI;SBJV;SG;1;PST
mispoon kẻ wẻ mispookwā V;PRF;ADM+OPT
kwaskỏtot kwaskỏtotānan V;NO3SI;IND;PL;1+INCL;PRS
tipiskamukun kitta wẻ tipiskamukỏk V;SBJV+OPT;FUT
i kitta iumủk V;NO3SI;SBJV;PL;1+INCL;FUT
sekahảt ga sekahảtānawapun V;NO3SI;POT;PL;2;PST
kwaskỏtot kwaskỏtotowảty V;NO3SA;IND;SG;1;PST
sekahảt kẻ sekahảtānawapun V;NO3SI;PFV;IND;PL;2
pāsew pāsewảtananuk V;NO3PA;IND;PL;1+INCL;PST
kwaskỏtot kwaskỏtotả V;NO3SI;IND;SG;1;PST
na kitta naủkwảpun V;NO3SI;SBJV+POT;PL;3;PST
pāsew kitta kẻ pāsewuman V;NO3SI;PRF;SBJV;SG;1;FUT
sekahảt kẻ sekahảtowawaw V;NO3SA;PRF;IND;PL;2
peẻtokwah kẻ peẻtokwahảtanan V;NO3SI;PFV;IND;PL;1+INCL
kisastāmukun kitta kẻ wẻ kisastāmukunopun V;PFV;POT+OPT
pāsew pāsewảtananow V;NO3SA;IND;PL;1+INCL;PST
mispoonomukun ā mispoonomukủkepun V;IPFV;SBJV
isitissả ā isitissảumupun V;NO3SI;SBJV;SG;2;PST
kwaskỏtot ga kẻ kwaskỏtotānapun V;NO3SI;PFV;POT;SG;1
peẻtokwah ga peẻtokwahả V;NO3SI;POT;SG;3;PST
i ga kẻ iānapun V;NO3SI;PFV;POT;SG;2
kisastāmukun kitta wẻ kisastāmukunookwā V;ADM+OPT;FUT
wapun kitta wẻ wapủkwā V;ADM+OPT;FUT
sekahảt ga kẻ sekahảtowảtawawuk V;NO3PA;PFV;POT;PL;2
na natảtawawuk V;NO3PA;IND;PL;2;PST
pāsew pāsewānan V;NO3SI;IND;PL;1+INCL;PRS
tipiskamukun ā wẻ tipiskamukunookopunā V;IPFV;ADM+OPT
i i ả V;NO3SI;IMP;SG;2;PRS
i ga kẻ itawuk V;NO3PA;POT;SG;1;PRS
nuku nukutảkākook V;NO3SA;IMP;PL;2;FUT
tapwảt kitta tapwảtumun V;NO3SI;SBJV;SG;2;FUT
sakeh ga sakehảtananow V;NO3SA;POT;PL;1+INCL;PST
mispoon kitta mispookwā V;ADM;FUT
na ga kẻ natananuk V;NO3PA;POT;PL;1+INCL;PRS
kwaskỏtot kwaskỏtotowāo V;NO3SA;IND;SG;3;PRS
i itảty V;IND;SG;3;PST
kisastāo kitta kẻ wẻ kisastākepunā V;PFV;ADM+POT+OPT
kwaskỏtot kitta kẻ kwaskỏtotumupun V;NO3SI;PFV;SBJV+POT;SG;2
sakeh ga kẻ sakehảtyuk V;NO3PA;PFV;POT;SG;2
kisastāo kitta kisastāpun V;IPFV;POT
yootin ā kẻ yooteẻkepun V;PFV;COND+SBJV
pāsew ā kẻ pāsewủkwảpun V;NO3SI;PFV;SBJV;PL;3
nuku ā nukutat V;NO3PA;SBJV;SG;3;PRS
tapwảt kẻ tapwảtowaw V;NO3SA;PRF;IND;SG;2
mispoon kitta kẻ mispoonookwā V;PFV;ADM;FUT
itāyim ā itāyimākook V;NO3PA;SBJV;PL;2;PRS
tapwảt ga tapwảtowảtawaw V;NO3SA;POT;PL;3;PST
tapwảt ā kẻ tapwảtủk V;NO3SI;PRF;SBJV;SG;3
i itaw V;NO3SA;IND;SG;2;PRS
sekahảt ga sekahảtān V;NO3SI;IND;SG;1;FUT
tapwảt ga kẻ tapwảtowawaw V;NO3SA;PRF;IND;PL;2;FUT
isitissả ga isitissảumoowảpun V;NO3SI;POT;PL;3;PST
sakeh ā sakehukik V;NO3PA;SBJV;SG;1;PRS
na kẻ naānapun V;NO3SI;PFV;IND;SG;1
tipiskamukun kitta wẻ tipiskamukủkepun V;IPFV;SBJV+POT+OPT
isitissả ga isitissảwāo V;NO3SA;IND;SG;3;FUT
kekesk ga kẻ kekeskowawuk V;NO3PA;POT;SG;2;PRS
tapwảt tapwảtānan V;NO3SI;IND;PL;1+INCL;PRS
meyooskumeew wẻ meyooskumeew V;IND+OPT;PRS
sakeh sakehảtawaw V;NO3SA;IND;PL;3;PST
kekesk kekeskowảtanan V;NO3SA;IND;PL;1+INCL;PST
pusustả ā pusustảủk V;NO3SI;SBJV;SG;3;PRS
tipiskaw kitta tipiskak V;SBJV;FUT
itāyim ga kẻ itāyimả V;NO3SI;PFV;POT;SG;1
tapwảt ga kẻ tapwảtowaw V;NO3SA;POT;SG;2;PRS
nuku ā nukuủkwảpun V;NO3SI;SBJV;PL;3;PST
pusustả ga kẻ pusustảwāwuk V;NO3PA;PRF;IND;PL;3;FUT
mispoon ā mispoonookopunā V;IPFV;ADM
i ga iānawapun V;NO3SI;POT;PL;2;PST
na ga natāo V;NO3PA;IND;SG;3;FUT
kekesk ga kekeskānan V;NO3SI;IND;PL;1+INCL;FUT
kissinaw ā kissinakwā V;ADM;PRS
kissinaw kẻ wẻ kissinakopun V;PFV;COND+IND+OPT
kimewun kẻ kimewunookopunā V;PFV;ADM
nỏtāpuyew ey wẻ nỏtāpuyikwā V;ADM+OPT;PRS
sekahảt sekahảtānanow V;NO3SI;PRF;IND;PL;1+INCL
tipiskamukun ā tipiskamukủkepunā V;IPFV;ADM
i ga kẻ iumopun V;NO3SI;PFV;POT;SG;3
mispoonomukun ā kẻ mispoonomukủkepun V;PFV;SBJV
isitissả ga kẻ isitissảwawuk V;NO3PA;POT;SG;2;PRS
itāyim ga itāyimumopuneek V;NO3SI;POT;PL;3;PST
peẻtokwah ga kẻ peẻtokwahumwuk V;NO3SI;PRF;IND;PL;3;FUT
mispoon kitta kẻ mispookepunā V;PFV;ADM+POT
kwaskỏtot ā kẻ kwaskỏtotumảkepun V;NO3SI;PFV;SBJV;PL;1+INCL
kekesk ga kẻ kekeskowảtawaw V;NO3PA;PFV;POT;PL;3
mikeskaw kitta wẻ mikeskātookwā V;COND+IND+OPT;FUT
nuku ā nukuumủk V;NO3SI;SBJV;PL;1+INCL;PRS
itāyim itāyimananuk V;NO3PA;IND;PL;1;PRS
itāyim ā kẻ itāyimủpun V;NO3SI;PFV;SBJV;SG;3
tapwảt tapwảtowảtananuk V;NO3PA;IND;PL;1+INCL;PST
itāyim kẻ itāyimananowuk V;NO3PA;PRF;IND;PL;1+INCL
pipoon kitta kẻ wẻ pipoonātookwā V;PFV;COND+IND+OPT;FUT
itāyim itāyimảtananowuk V;NO3PA;IND;PL;1+INCL;PST
kesikamukun kẻ kesikamukủkepunā V;PFV;ADM
pipoon ā kẻ pipoỏkepun V;PFV;SBJV
mikeskaw kitta wẻ mikeskakātookwā V;COND+SBJV+OPT;FUT
isitissảhum isitissảhumowảtawaw V;NO3SA;IND;PL;2;PST
kwaskỏtot kẻ kwaskỏtotowanan V;NO3SA;PRF;IND;PL;1+INCL
kisastāo kitta kisastākepunā V;IPFV;ADM+POT
itāyim ga itāyimảtananowuk V;NO3PA;POT;PL;1+INCL;PST
nuku nukutảty V;NO3PA;IND;SG;3;PST
meyooskumeew kẻ wẻ meyooskumeepun V;PFV;IND+OPT
meyooskumeew kẻ wẻ meyooskumeekwā V;PRF;ADM+OPT
peẻtokwah ga kẻ peẻtokwahumopun V;NO3SI;PFV;POT;SG;3
kekesk ga kekeskumwuk V;NO3SI;IND;PL;3;FUT
isitissả kẻ isitissảwaw V;NO3SA;PRF;IND;SG;2
itāyim kitta kẻ itāyimủkwaw V;NO3SI;PRF;SBJV;PL;3;FUT
kisastāo kẻ kisastākopun V;PFV;COND+IND
kissinaw ā wẻ kissinak V;SBJV+OPT;PRS
kissinaw ā kẻ wẻ kissinakātookwā V;PRF;COND+SBJV+OPT
sakeh sakehaw V;NO3SA;IND;SG;1;PRS
itāyim kẻ itāyimānanapun V;NO3SI;PFV;IND;PL;1+INCL
peẻtokwah peẻtokwahảtananow V;NO3SA;IND;PL;1+INCL;PST
sakeh ga kẻ sakehāo V;NO3PA;POT;SG;3;PRS
tapwảt ga tapwảtowảtanan V;NO3SA;POT;PL;1+INCL;PST
kimewun kitta kẻ kimewủk V;PFV;SBJV;FUT
i ga iānawaw V;NO3SI;IND;PL;2;FUT
i kitta kẻ iumapan V;NO3SI;PFV;SBJV+POT;SG;1
sekahảt sekahảtānanapun V;NO3SI;IND;PL;1+INCL;PST
itāyim ga itāyimảtawawuk V;NO3PA;POT;PL;2;PST
peẻtokwah peẻtokwahumoowảpun V;NO3SI;IND;PL;3;PST
na naānawaw V;NO3SI;IND;PL;2;PRS
tapwảt ā kẻ tapwảtủkik V;NO3SI;PRF;SBJV;PL;3
pipoon kitta wẻ pipoonookwā V;ADM+OPT;FUT
sekahảt sekahảtowảtananow V;NO3SA;IND;PL;1+INCL;PST
sakeh ga sakehumwuk V;NO3SI;IND;PL;3;FUT
isitissả ā kẻ isitissảủmāk V;NO3SI;PRF;SBJV;PL;2
peẻtokwah ga kẻ peẻtokwahāwuk V;NO3SA;PRF;IND;PL;3;FUT
isitissả kitta isitissảwāo V;NO3PA;IMP;SG;3;PRS
na natawuk V;NO3PA;IND;SG;2;PRS
nuku nukutảkunik V;NO3PA;IMP;SG;2;FUT
itāyim ga kẻ itāyimāwuk V;NO3PA;PRF;IND;PL;3;FUT
peẻtokwah kẻ peẻtokwahảty V;NO3SA;PFV;IND;SG;2
pāsew ga kẻ pāsewảtananowuk V;NO3PA;PFV;POT;PL;1+INCL
itāyim ga itāyimaw V;ANIM;NO3SA;IND;SG;1;FUT
nỏtāpuyew ā kẻ nỏtāpuyikepun V;PFV;SBJV
kissinaw kitta kẻ kissinātookwā V;PFV;COND+IND;FUT
isitissả ga kẻ isitissảtảty V;NO3SA;PFV;POT;SG;2
tapwảt kẻ tapwảtum V;NO3SI;PRF;IND;SG;3
i ium V;NO3SI;IND;SG;3;PRS
tapwảt ga tapwảtowāo V;NO3SA;IND;SG;3;FUT
isitissả ga isitissảtảtyuk V;NO3PA;POT;SG;1;PST
yootin kitta yootinopun V;IPFV;POT
isitissả ga isitissảwawawuk V;NO3PA;IND;PL;2;FUT
pāsew pāsewảtawawuk V;NO3PA;IND;PL;2;PST
isitissả kẻ isitissảumopun V;NO3SI;PFV;IND;SG;3
sakeh ga kẻ sakehananow V;NO3SA;POT;PL;1+INCL;PRS
peẻtokwah ā kẻ peẻtokwahủpun V;NO3SI;PFV;SBJV;SG;3
peẻtokwah peẻtokwahawuk V;NO3PA;IND;SG;2;PRS
isitissả isitissảumook V;NO3SI;IMP;PL;2;PRS
peẻtokwah peẻtokwahānapun V;NO3SI;IND;SG;1;PST
pipoon kẻ pipoỏkepunā V;PFV;ADM
isitissả ga kẻ isitissảumoowảpun V;NO3SI;PFV;POT;PL;3
nuku ā kẻ nukuủkikepun V;NO3SI;PFV;SBJV;PL;3
sakeh ga kẻ sakehảtananow V;NO3SI;PFV;POT;PL;1+INCL
kesikamukun ā kesikamukủkepun V;IPFV;SBJV
nuku ga kẻ nukutāo V;NO3PA;PRF;IND;SG;3;FUT
tapwảt tapwảtowảtanan V;NO3SA;IND;PL;1+INCL;PST
kwaskỏtot kwaskỏtotả V;NO3SI;IND;SG;2;PST
peẻtokwah ga kẻ peẻtokwahảty V;NO3SA;PFV;POT;SG;1
pāsew ga pāsewānan V;NO3SI;IND;PL;1+INCL;FUT
isitissả ā kẻ isitissảủpun V;NO3SI;PFV;SBJV;SG;3
sekahảt ga kẻ sekahảtowanan V;NO3SA;PRF;IND;PL;1;FUT
pusustả ga kẻ pusustảānapun V;NO3SI;PFV;POT;SG;1
na kẻ natảtanan V;NO3SA;PFV;IND;PL;1+INCL
pusustả kẻ pusustảumopuneek V;NO3SI;PFV;IND;PL;3
nuku ga kẻ nukuảtawaw V;NO3SI;PFV;POT;PL;2
kwaskỏtot kwaskỏtotowawawuk V;NO3PA;IND;PL;2;PRS
kimewun kẻ wẻ kimewủkwā V;PRF;ADM+OPT
tapwảt tapwảtumoowảpun V;NO3SI;IND;PL;3;PST
nỏtāpuyew kitta nỏtāpuyikepunā V;IPFV;ADM+POT
sekahảt ga kẻ sekahảtowaw V;ANIM;NO3SA;PRF;IND;SG;1;FUT
kwaskỏtot kwaskỏtotowảkākook V;NO3SA;IMP;PL;2;FUT
sekahảt sekahảtả V;NO3SI;IND;SG;1;PST
kekesk ga kekeskowảty V;NO3PA;POT;SG;3;PST
mispoon kitta kẻ mispoỏkepun V;PFV;SBJV+POT
sakeh ā sakehủkook V;NO3PA;SBJV;PL;1+INCL;PRS
sakeh sakehumopun V;NO3SI;IND;SG;3;PST
isitissảhum kitta kẻ isitissảhumủkik V;NO3SI;PRF;SBJV;PL;3;FUT
pāsew ga pāsewảtawaw V;NO3PA;POT;PL;3;PST
sekahảt sekahảtowảty V;IND;SG;3;PST
kimewun kitta kẻ wẻ kimewunotookwā V;COND+POT+OPT;PRS
tipiskaw kitta kẻ wẻ tipiskapun V;PFV;POT+OPT
isitissảhum ga isitissảhumumoowảpun V;NO3SI;POT;PL;3;PST
pipoon pipoonootookwā V;COND+IND;PRS
nuku ga nukutawaw V;NO3SA;IND;PL;2;FUT
tipiskaw kitta kẻ tipiskatookwā V;COND+POT;PRS
isitissả kitta isitissảuman V;NO3SI;SBJV;SG;1;FUT
pusustả kẻ pusustảwawuk V;NO3PA;PRF;IND;SG;2
itāyim itāyimảtananow V;NO3SI;IND;PL;1+INCL;PST
isitissảhum kitta isitissảhumumảkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
tipiskaw ā kẻ wẻ tipiskakepun V;PFV;COND+SBJV+OPT
kisastāmukun kitta kẻ wẻ kisastāmukunopun V;PFV;POT+OPT
pāsew kitta pāsewumapan V;NO3SI;SBJV+POT;SG;1;PST
mikeskaw mikeskakopun V;IPFV;COND+IND
kisastāo wẻ kisastāo V;IND+OPT;PRS
nuku nukuānapun V;NO3SI;IND;SG;1;PST
isitissả isitissảwảtawawuk V;NO3PA;IND;PL;2;PST
pusustả kitta kẻ pusustảuman V;NO3SI;PRF;SBJV;SG;1;FUT
kwaskỏtot ga kwaskỏtotảtanan V;NO3SI;POT;PL;1+INCL;PST
sekahảt ga sekahảtān V;NO3SI;IND;SG;2;FUT
isitissả isitissảảtawaw V;NO3SI;IND;PL;2;PST
pāsew ga kẻ pāsewảty V;NO3SA;PFV;POT;SG;2
isitissảhum ga isitissảhumowảtyuk V;NO3PA;POT;SG;2;PST
kwaskỏtot kẻ kwaskỏtotumwuk V;NO3SI;PRF;IND;PL;3
na ga naả V;NO3SI;POT;SG;3;PST
meyooskumeew kitta kẻ wẻ meyooskumeekepunā V;PFV;ADM+POT+OPT
peẻtokwah peẻtokwahảtawaw V;NO3SA;IND;PL;2;PST
i itawawuk V;NO3PA;IND;PL;2;PRS
kekesk kẻ kekeskumopun V;NO3SI;PFV;IND;SG;3
pusustả kẻ pusustảtảtyuk V;NO3PA;IND;SG;2;PST
isitissả kẻ isitissảwawuk V;NO3PA;PRF;IND;SG;2
sakeh ga kẻ sakehaw V;ANIM;NO3SA;PRF;IND;SG;1;FUT
pusustả pusustảānawaw V;NO3SI;IND;PL;2;PRS
pāsew kitta kẻ pāsewủpun V;NO3SI;PFV;SBJV+POT;SG;3
pāsew kitta pāsewuman V;NO3SI;SBJV;SG;1;FUT
kekesk ga kẻ kekeskowananow V;NO3SA;PRF;IND;PL;1+INCL;FUT
nuku nukut V;NO3SA;IMP;SG;2;PRS
kesikaw kitta kẻ kesikapun V;PFV;POT
isitissảhum isitissảhumoweẻk V;NO3SA;IMP;PL;2;PRS
nỏtāpuyew kitta kẻ nỏtāpuyew V;PFV;IND;FUT
peẻtokwah ga kẻ peẻtokwahānapun V;NO3SI;PFV;POT;SG;1
wapun ey wẻ wapunookwā V;ADM+OPT;PRS
kissinaw kẻ kissinaw V;PRF;IND
i ā kẻ iuman V;NO3SI;PRF;SBJV;SG;1
kwaskỏtot ga kwaskỏtotānapun V;NO3SI;POT;SG;1;PST
isitissảhum isitissảhumowāwuk V;NO3SA;IND;PL;3;PRS
isitissả ga kẻ isitissảwāwuk V;NO3PA;POT;PL;3;PRS
kisastāmukun kitta kẻ wẻ kisastāmukủkwā V;PFV;ADM+OPT;FUT
isitissảhum ga isitissảhumảtanan V;NO3SI;POT;PL;1+INCL;PST
peẻtokwah peẻtokwahananowuk V;NO3PA;IND;PL;1+INCL;PRS
kekesk ga kẻ kekeskả V;NO3SI;PFV;POT;SG;1
pusustả pusustảumoowảpun V;NO3SI;IND;PL;3;PST
kwaskỏtot kwaskỏtotowaw V;NO3SA;IND;SG;1;PRS
meyooskumeew ā kẻ wẻ meyooskumeekepun V;PFV;SBJV+OPT
sakeh ga kẻ sakehānan V;NO3SI;PRF;IND;PL;1+INCL;FUT
pāsew kitta kẻ pāsewumākepun V;NO3SI;PFV;SBJV+POT;PL;2
pāsew kitta kẻ pāsewủmāk V;NO3SI;PRF;SBJV;PL;2;FUT
kesikamukun ey wẻ kesikamukunookopunā V;IPFV;ADM+OPT
itāyim ga itāyimảty V;NO3SA;POT;SG;1;PST
pāsew kẻ pāsewaw V;NO3SA;PRF;IND;SG;2
peẻtokwah ga peẻtokwahảty V;NO3PA;POT;SG;3;PST
sakeh ga sakehāo V;NO3PA;IND;SG;3;FUT
sekahảt sekahảt ả V;NO3SI;IMP;SG;2;PRS
kekesk kẻ kekeskowawuk V;NO3PA;PRF;IND;SG;1
kekesk kekeskowānanow V;NO3SI;IND;PL;1+INCL;PRS
pusustả kitta kẻ pusustảumākepun V;NO3SI;PFV;SBJV+POT;PL;2
na kitta kẻ naủmāk V;NO3SI;PRF;SBJV;PL;2;FUT
sekahảt ga kẻ sekahảtowananow V;NO3SA;PRF;IND;PL;1+INCL;FUT
meyooskumeew kitta kẻ meyooskumeew V;PFV;IND;FUT
kissinamukun kitta kissinamukunookwā V;ADM;FUT
itāyim kitta itāyimumảkepun V;NO3SI;SBJV+POT;PL;1+INCL;PST
meyooskumeew kitta kẻ wẻ meyooskumeekopun V;PFV;COND+POT+OPT
pusustả ga kẻ pusustảả V;NO3SI;PFV;POT;SG;3
sakeh ga sakehānan V;NO3SI;IND;PL;1+INCL;FUT
tapwảt kitta tapwảtủkwảpun V;NO3SI;SBJV+POT;PL;3;PST
itāyim ā itāyimatchik V;NO3SA;SBJV;PL;3;PRS
sakeh sakehảtananow V;NO3SA;IND;PL;1+INCL;PST
peẻtokwah ga kẻ peẻtokwahānawaw V;NO3SI;PRF;IND;PL;2;FUT
tipiskaw kitta kẻ tipiskakātookwā V;PFV;COND+SBJV;FUT
tapwảt ga kẻ tapwảtowāwuk V;NO3SA;PRF;IND;PL;3;FUT
isitissả ga kẻ isitissảwảtawawuk V;NO3PA;PFV;POT;PL;2
kekesk kekeskowảtyuk V;NO3PA;IND;SG;1;PST
sekahảt ā kẻ sekahảtuman V;NO3SI;PRF;SBJV;SG;1
tapwảt ga kẻ tapwảtả V;NO3SI;PFV;POT;SG;3
sakeh ga sakehảty V;NO3SA;POT;SG;2;PST
kwaskỏtot kẻ kwaskỏtotả V;NO3SI;PFV;IND;SG;2
tapwảt kitta kẻ tapwảtumwảpun V;NO3SI;PFV;SBJV+POT;PL;3
na ā naumupun V;NO3SI;SBJV;SG;2;PST
sekahảt kẻ sekahảtowảtananowuk V;NO3PA;IND;PL;1+INCL;PST
kisastāo kitta kisastātookwā V;COND+IND;FUT
tipiskaw kitta wẻ tipiskatookwā V;COND+IND+OPT;FUT
i kitta iumảk V;NO3SI;SBJV;PL;1+INCL;FUT
wapun kitta kẻ wẻ wapunookwā V;PFV;ADM+OPT;FUT
kissinaw kẻ wẻ kissinaw V;PRF;IND+OPT
nuku kẻ nukuum V;NO3SI;PRF;IND;SG;3
kekesk kẻ kekeskowāo V;NO3PA;PRF;IND;SG;3
sekahảt ga kẻ sekahảtảtawaw V;NO3SI;PFV;POT;PL;3
nuku ga nukuảtananow V;NO3SI;POT;PL;1+INCL;PST
itāyim ga kẻ itāyimaw V;NO3SA;PRF;IND;SG;2;FUT
peẻtokwah peẻtokwahảtawaw V;NO3SI;IND;PL;3;PST
i itảtananowuk V;NO3PA;IND;PL;1+INCL;PST
tapwảt ga kẻ tapwảtowảtawaw V;NO3SA;PFV;POT;PL;3
sakeh sakehảtawaw V;NO3SA;IND;PL;2;PST
pāsew ga pāsewả V;NO3SI;POT;SG;1;PST
kekesk kẻ kekeskowāwuk V;NO3PA;PRF;IND;PL;3
isitissảhum kẻ isitissảhumowảtyuk V;NO3PA;IND;SG;2;PST
pāsew ga kẻ pāsewảtawaw V;NO3SI;PFV;POT;PL;2
itāyim ga itāyimảtawaw V;NO3PA;POT;PL;3;PST
tapwảt ā kẻ tapwảtumākepun V;NO3SI;PFV;SBJV;PL;2
sekahảt sekahảtān V;NO3SI;IND;SG;2;PRS
kissinaw kẻ wẻ kissinakwā V;PRF;ADM+OPT
na ga kẻ natảty V;NO3PA;PFV;POT;SG;3
mikeskaw kitta kẻ mikeskakopun V;PFV;COND+POT
nỏtāpuyew kitta kẻ wẻ nỏtāpuyetookwā V;COND+POT+OPT;PRS
kisastāmukun ā kisastāmukunookwā V;ADM;PRS
pāsew ga pāsewả V;NO3SI;POT;SG;2;PST
mispoonomukun kẻ wẻ mispoonomukunookopunā V;PFV;ADM+OPT
na naānanow V;NO3SI;PRF;IND;PL;1+INCL
sekahảt kẻ sekahảtum V;NO3SI;PRF;IND;SG;3
pusustả kẻ pusustảwaw V;ANIM;NO3SA;PRF;IND;SG;1
kesikaw wẻ kesikatookwā V;COND+IND+OPT;PRS
nỏtāpuyew kitta kẻ nỏtāpuyepun V;PFV;POT
nuku ga kẻ nukutawuk V;NO3PA;POT;SG;1;PRS
i ga kẻ iảtawaw V;NO3SI;PFV;POT;PL;2
isitissả kẻ isitissảwảtananow V;NO3SA;PFV;IND;PL;1+INCL
mispoon kitta wẻ mispoonātookwā V;COND+IND+OPT;FUT
kwaskỏtot kẻ kwaskỏtotumopun V;NO3SI;PFV;IND;SG;3
meyooskumeew kitta kẻ wẻ meyooskumeekepun V;PFV;COND+POT+OPT
na kẻ natawuk V;NO3PA;PRF;IND;SG;1
sekahảt ga kẻ sekahảtānapun V;NO3SI;PFV;POT;SG;2
nuku kitta nukuumảk V;NO3SI;SBJV;PL;1+INCL;FUT
itāyim ga itāyimānapun V;NO3SI;POT;SG;2;PST
i ga itảtawawuk V;NO3PA;POT;PL;2;PST
sakeh ā sakehākook V;NO3PA;SBJV;PL;2;PRS
i ā itatchik V;NO3SA;SBJV;PL;3;PRS
isitissả ā isitissảủkwảpun V;NO3SI;SBJV;PL;3;PST
nỏtāpuyew ā kẻ nỏtāpuyik V;PRF;SBJV
itāyim ga kẻ itāyimānawapun V;NO3SI;PFV;POT;PL;2
itāyim kitta kẻ itāyimủkik V;NO3SI;PRF;SBJV;PL;3;FUT
kekesk ā kekeskumảkepun V;NO3SI;SBJV;PL;1+INCL;PST
kwaskỏtot ā kwaskỏtotowāk V;NO3SA;SBJV;PL;2;PRS
sakeh kẻ sakehawaw V;NO3SA;PRF;IND;PL;2
nỏtāpuyew kitta nỏtāpuyepun V;IPFV;POT
kimewun kẻ wẻ kimewunookwā V;PRF;ADM+OPT
tipiskamukun kitta kẻ wẻ tipiskamukủkwā V;PFV;ADM+OPT;FUT
peẻtokwah kẻ peẻtokwahảty V;PFV;IND;SG;3
nuku nukuumwuk V;NO3SI;IMP;PL;3;PRS
na ga kẻ nataw V;NO3SA;POT;SG;2;PRS
peẻtokwah ga peẻtokwahānapun V;NO3SI;POT;SG;2;PST
isitissả kitta kẻ isitissảủk V;NO3SI;PRF;SBJV;SG;3;FUT
tapwảt tapwảtowatak V;NO3SA;IMP;PL;1+INCL;PRS
tipiskamukun ā tipiskamukỏk V;SBJV;PRS
peẻtokwah ga kẻ peẻtokwahảtawaw V;NO3SA;PFV;POT;PL;2
kekesk kekeskumook V;NO3SI;IMP;PL;2;PRS
tipiskamukun kẻ tipiskamukunotookwā V;PRF;COND+IND
peẻtokwah kitta kẻ peẻtokwahumākepun V;NO3SI;PFV;SBJV+POT;PL;2
nuku nukuumopuneek V;NO3SI;IND;PL;3;PST
pipoon kẻ wẻ pipoonopun V;PFV;IND+OPT
wapun kitta kẻ wẻ wapủkepunā V;PFV;ADM+POT+OPT
na ga natāwuk V;NO3PA;IND;PL;3;FUT
isitissảhum isitissảhumowảtananuk V;NO3PA;IND;PL;1+INCL;PST
kisastāo kẻ kisastāpun V;PFV;IND
i ga kẻ itảty V;NO3PA;PFV;POT;SG;3
pusustả kẻ pusustảwảtawaw V;NO3SA;PFV;IND;PL;3
kesikamukun kitta kẻ wẻ kesikamukunookwā V;PFV;ADM+OPT;FUT
sakeh kẻ sakehawuk V;NO3PA;PRF;IND;SG;2
sekahảt sekahảtowảkākook V;NO3SA;IMP;PL;2;FUT
pusustả ā pusustảủkik V;NO3SI;SBJV;PL;3;PRS
i itatak V;NO3SA;IMP;PL;1+INCL;PRS
wapun kitta kẻ wapunookwā V;PFV;ADM;FUT
nuku kitta kẻ nukuumủk V;NO3SI;PRF;SBJV;PL;1+INCL;FUT
pusustả ga kẻ pusustảwāwuk V;NO3PA;POT;PL;3;PRS
yootin kitta kẻ wẻ yootinookopunā V;PFV;ADM+POT+OPT
isitissảhum ga kẻ isitissảhumowaw V;NO3SA;PRF;IND;SG;2;FUT
peẻtokwah kitta peẻtokwahumākepun V;NO3SI;SBJV+POT;PL;2;PST
isitissảhum ga kẻ isitissảhumowananuk V;NO3PA;PRF;IND;PL;1+INCL;FUT
pāsew ga kẻ pāsewāo V;NO3PA;PRF;IND;SG;3;FUT
pāsew pāsewảkook V;NO3SA;IMP;PL;2;PRS
peẻtokwah peẻtokwahawawuk V;NO3PA;IND;PL;2;PRS
isitissả ga isitissảwảtananowuk V;NO3PA;POT;PL;1+INCL;PST
kwaskỏtot ga kẻ kwaskỏtotảtawaw V;NO3SI;PFV;POT;PL;3
pāsew kitta kẻ pāsewủkikepun V;NO3SI;PFV;SBJV+POT;PL;3
na kẻ naả V;NO3SI;PFV;IND;SG;2
kesikaw ā kẻ kesikak V;PRF;SBJV
tapwảt tapwảtả V;NO3SI;IND;SG;1;PST
nỏtāpuyew kitta kẻ wẻ nỏtāpuyātookwā V;PFV;COND+IND+OPT;FUT
sakeh ga kẻ sakehāwuk V;NO3PA;POT;PL;3;PRS
tapwảt ga kẻ tapwảtowananowuk V;NO3PA;PRF;IND;PL;1+INCL;FUT
i ga iả V;NO3SI;POT;SG;2;PST
sekahảt sekahảtowāo V;NO3SA;IND;SG;3;PRS
tapwảt ā tapwảtumủk V;NO3SI;SBJV;PL;1+INCL;PRS
peẻtokwah peẻtokwahảkủkwawik V;NO3PA;IMP;PL;1+INCL;FUT
sekahảt ga sekahảtảtawaw V;NO3SI;POT;PL;3;PST
nuku nukuānawaw V;NO3SI;IND;PL;2;PRS
yootin kitta yooteẻkepun V;IPFV;COND+POT
kisastāo kisastāpun V;IPFV;IND
sakeh ā sakehumảk V;NO3SI;SBJV;PL;1+INCL;PRS
tapwảt ā tapwảtủpun V;NO3SI;SBJV;SG;3;PST
sekahảt kẻ sekahảtowảtyuk V;NO3PA;IND;SG;1;PST
i ga kẻ ium V;NO3SI;PRF;IND;SG;3;FUT
nuku kẻ nukuả V;NO3SI;PFV;IND;SG;1
nuku kitta nukuumun V;NO3SI;SBJV;SG;2;FUT
kekesk ga kẻ kekeskumwuk V;NO3SI;PRF;IND;PL;3;FUT
mispoonomukun kẻ wẻ mispoonomukunookwā V;PRF;ADM+OPT
kissechewunomukun kitta wẻ kissechewunomukủkwā V;ADM+OPT;FUT
kekesk ga kekeskumopun V;NO3SI;POT;SG;3;PST
nỏtāpuyew kitta kẻ wẻ nỏtāpuyikepunā V;PFV;ADM+POT+OPT
isitissả ā isitissảumwảpun V;NO3SI;SBJV;PL;3;PST
kisastāo kitta wẻ kisastākepun V;IPFV;COND+POT+OPT
kwaskỏtot ga kẻ kwaskỏtotowảtananowuk V;NO3PA;PFV;POT;PL;1+INCL
kisastāmukun kisastāmukunotookwā V;COND+IND;PRS
peẻtokwah ā peẻtokwahủk V;NO3SI;SBJV;SG;3;PRS
kesikamukun ā kesikamukủkepun V;IPFV;SBJV
na ga kẻ naả V;NO3SI;PFV;POT;SG;3
kwaskỏtot ga kwaskỏtotowảty V;NO3SA;POT;SG;1;PST
tapwảt ā tapwảtowukeetchik V;NO3PA;SBJV;PL;1;PRS
pāsew ga pāsewānapun V;NO3SI;POT;SG;2;PST
mikeskaw kẻ wẻ mikeskatookwā V;PRF;COND+IND+OPT
tapwảt kitta tapwảtumwảpun V;NO3SI;SBJV+POT;PL;3;PST
nuku ā kẻ nukuumākepun V;NO3SI;PFV;SBJV;PL;2
peẻtokwah ga kẻ peẻtokwahảtyuk V;NO3PA;PFV;POT;SG;1
tipiskaw kitta wẻ tipiskakepunā V;IPFV;ADM+POT+OPT
kekesk kekesktak V;NO3SI;IMP;PL;1+INCL;PRS
sakeh kẻ sakehumwuk V;NO3SI;PRF;IND;PL;3
mikeskaw ā kẻ wẻ mikeskak V;PRF;SBJV+OPT
itāyim kẻ itāyimaw V;NO3SA;PRF;IND;SG;2
peẻtokwah ā peẻtokwahumwảpun V;NO3SI;SBJV;PL;3;PST
i kitta iủk V;NO3SI;SBJV;SG;3;FUT
sekahảt ā kẻ sekahảtumảk V;NO3SI;PRF;SBJV;PL;1+INCL
meyooskumeew kitta wẻ meyooskumeetookwa V;COND+IND+OPT;FUT
pusustả ga kẻ pusustảwawuk V;NO3PA;PRF;IND;SG;1;FUT
nỏtāpuyew kitta kẻ wẻ nỏtāpuyew V;PFV;IND+OPT;FUT
na ā natủkook V;NO3PA;SBJV;PL;1+INCL;PRS
kissechewunomukun kitta kissechewunomukủkwā V;ADM;FUT
sakeh ā sakehuman V;NO3SI;SBJV;SG;1;PRS
kissinamukun ā kissinamukỏkepun V;IPFV;SBJV
tipiskamukun kitta kẻ tipiskamukủkepun V;PFV;SBJV+POT
tapwảt ga tapwảtowảtyuk V;NO3PA;POT;SG;2;PST
kekesk ga kẻ kekeskowảty V;PFV;POT;SG;3
isitissảhum ga kẻ isitissảhumowảtananow V;NO3SA;PFV;POT;PL;1+INCL
kissinamukun kẻ wẻ kissinamukunookopunā V;PFV;ADM+OPT
yootin kẻ wẻ yootinookopunā V;PFV;ADM+OPT
kekesk kekeskowảty V;NO3PA;IND;SG;3;PST
kimewun kitta kẻ wẻ kimewunotookwā V;COND+POT+OPT;PRS
kimewun kitta wẻ kimewủkātookwā V;COND+SBJV+OPT;FUT
pusustả ga kẻ pusustảtảtyuk V;NO3PA;PFV;POT;SG;1
sekahảt ga kẻ sekahảtowaw V;NO3SA;POT;SG;2;PRS
sekahảt kitta sekahảtủkwaw V;NO3SI;SBJV;PL;3;FUT
kwaskỏtot kitta kẻ kwaskỏtotủkwảpun V;NO3SI;PFV;SBJV+POT;PL;3
nuku ga kẻ nukutawawuk V;NO3PA;PRF;IND;PL;2;FUT
nuku nukutảtawaw V;NO3SA;IND;PL;2;PST
sakeh sakehảtanan V;NO3SA;IND;PL;1+INCL;PST
na na ả V;NO3SI;IMP;SG;2;PRS
itāyim kẻ itāyimananow V;NO3SA;PRF;IND;PL;1+INCL
kwaskỏtot kẻ kwaskỏtotowāwuk V;NO3PA;PRF;IND;PL;3
nỏtāpuyew kitta kẻ nỏtāpuyikepunā V;PFV;ADM+POT
i ga itảty V;POT;SG;3;PST
mispoon kẻ mispookepunā V;PFV;ADM
isitissảhum kẻ isitissảhumảtawaw V;NO3SI;PFV;IND;PL;3
isitissảhum ga kẻ isitissảhumānan V;NO3SI;PRF;IND;PL;1+INCL;FUT
kissinamukun kitta kissinamukỏkepun V;IPFV;SBJV+POT
i kitta kẻ iumủkepun V;NO3SI;PFV;SBJV+POT;PL;1+INCL
peẻtokwah ga peẻtokwahảtanan V;NO3SI;POT;PL;1+INCL;PST
nuku nukutak V;NO3SI;IMP;PL;1+INCL;PRS
pāsew pāsewả V;NO3SI;IND;SG;3;PST
nuku ga nukutāwuk V;NO3SA;IND;PL;3;FUT
wapun ey wapunookopunā V;IPFV;ADM
isitissảhum ga kẻ isitissảhumān V;NO3SI;PRF;IND;SG;2;FUT
itāyim kitta kẻ itāyimủk V;NO3SI;PRF;SBJV;SG;3;FUT
pusustả kẻ pusustảwāwuk V;NO3PA;PRF;IND;PL;3
sakeh kẻ sakehả V;NO3SI;PFV;IND;SG;1
pāsew ā kẻ pāsewuman V;NO3SI;PRF;SBJV;SG;1
kwaskỏtot kwaskỏtotả V;NO3SI;IND;SG;3;PST
kekesk kekeskānan V;NO3SI;IND;PL;1+INCL;PRS
nuku ā kẻ nukuủk V;NO3SI;PRF;SBJV;SG;3
itāyim itāyimả V;NO3SI;IND;SG;1;PST
peẻtokwah kẻ peẻtokwahānapun V;NO3SI;PFV;IND;SG;2
isitissảhum kẻ isitissảhumān V;NO3SI;PRF;IND;SG;1
tipiskamukun kitta tipiskamukunookopun V;IPFV;COND+POT
i ga kẻ itāwuk V;NO3SA;PRF;IND;PL;3;FUT
sekahảt sekahảtả V;NO3SI;IND;SG;3;PST
na nateẻkook V;NO3SA;IMP;PL;2;PRS
kekesk ā kekeskumảk V;NO3SI;SBJV;PL;1+INCL;PRS
itāyim itāyimāo V;NO3SA;IND;SG;3;PRS
peẻtokwah ga peẻtokwahảtananow V;NO3SA;POT;PL;1+INCL;PST
kekesk ā kekeskumapan V;NO3SI;SBJV;SG;1;PST
itāyim ā kẻ itāyimumun V;NO3SI;PRF;SBJV;SG;2
isitissả isitissảw V;NO3SA;IMP;SG;2;PRS
wapun kitta wẻ wapun V;IMP+OPT
pāsew kẻ pāsewawawuk V;NO3PA;PRF;IND;PL;2
sakeh ga sakehaw V;NO3SA;IND;SG;2;FUT
nuku kẻ nukuānapun V;NO3SI;PFV;IND;SG;2
yootin kitta wẻ yootinookopun V;IPFV;COND+POT+OPT
yootin kitta kẻ yooteẻkepun V;PFV;COND+POT
kwaskỏtot kitta kwaskỏtotủkwaw V;NO3SI;SBJV;PL;3;FUT
sekahảt kitta kẻ sekahảtumākepun V;NO3SI;PFV;SBJV+POT;PL;2
nuku ga kẻ nukuānapun V;NO3SI;PFV;POT;SG;2
tapwảt tapwảtowawuk V;NO3PA;IND;SG;2;PRS
kwaskỏtot kwaskỏtotủtan V;NO3SI;IMP;PL;1+INCL;PRS
nuku ga kẻ nukuumoowảpun V;NO3SI;PFV;POT;PL;3
pusustả ā kẻ pusustảumủkepun V;NO3SI;PFV;SBJV;PL;1+INCL
na naumwuk V;NO3SI;IMP;PL;3;PRS
isitissảhum kẻ isitissảhumum V;NO3SI;PRF;IND;SG;3
kwaskỏtot ā kwaskỏtotủpun V;NO3SI;SBJV;SG;3;PST
i it V;NO3SA;IMP;SG;2;PRS
kwaskỏtot ga kẻ kwaskỏtotowāo V;NO3SA;POT;SG;3;PRS
kekesk ga kekeskowananowuk V;NO3PA;IND;PL;1+INCL;FUT
na ga kẻ natawuk V;NO3PA;POT;SG;2;PRS
pāsew ā kẻ pāsewumapan V;NO3SI;PFV;SBJV;SG;1
isitissảhum isitissảhumowảty V;NO3SA;IND;SG;2;PST
pusustả ga kẻ pusustảả V;NO3SI;PFV;POT;SG;2
kwaskỏtot kẻ kwaskỏtotowảtyuk V;NO3PA;IND;SG;2;PST
meyooskumeew kitta kẻ wẻ meyooskumeepun V;PFV;POT+OPT
itāyim ā itāyimủpun V;NO3SI;SBJV;SG;3;PST
kesikamukun ā kẻ kesikamukủkātookwā V;PRF;COND+SBJV
kisastāmukun kitta kẻ kisastāmukỏkepun V;PFV;SBJV+POT
itāyim ā itāyimủkepun V;NO3SI;SBJV;SG;3;PST
na ā kẻ naumākepun V;NO3SI;PFV;SBJV;PL;2
kisastāo kitta kisastāo V;IND+IMP
sakeh kitta sakehumwảpun V;NO3SI;SBJV+POT;PL;3;PST
peẻtokwah ā peẻtokwahumủk V;NO3SI;SBJV;PL;1+INCL;PRS
sekahảt sekahảtủtan V;NO3SI;IMP;PL;1+INCL;PRS
kwaskỏtot ga kẻ kwaskỏtotowananowuk V;NO3PA;POT;PL;1+INCL;PRS
isitissảhum isitissảhumủtan V;NO3SI;IMP;PL;1+INCL;PRS
itāyim ā itāyimatik V;NO3PA;SBJV;SG;3;PRS
pāsew kitta kẻ pāsewumupun V;NO3SI;PFV;SBJV+POT;SG;2
pusustả ga kẻ pusustảảtawaw V;NO3SI;PFV;POT;PL;2
kekesk ā kẻ kekeskumupun V;NO3SI;PFV;SBJV;SG;2
nuku kẻ nukutảtananowuk V;NO3PA;IND;PL;1+INCL;PST
tapwảt kitta tapwảtủpun V;NO3SI;SBJV+POT;SG;3;PST
pāsew kẻ pāsewảty V;PFV;IND;SG;3
i ā kẻ iumun V;NO3SI;PRF;SBJV;SG;2
itāyim kẻ itāyimānapun V;NO3SI;PFV;IND;SG;2
isitissả ā kẻ isitissảumapan V;NO3SI;PFV;SBJV;SG;1
itāyim kẻ itāyimawuk V;NO3PA;PRF;IND;SG;1
isitissảhum kẻ isitissảhumumwuk V;NO3SI;PRF;IND;PL;3
pusustả kẻ pusustảwananow V;NO3SA;PRF;IND;PL;1+INCL
kekesk ā kẻ kekeskủkikepun V;NO3SI;PFV;SBJV;PL;3
nuku kitta nukuuman V;NO3SI;SBJV;SG;1;FUT
isitissả isitissảweẻk V;NO3SA;IMP;PL;2;PRS
mispoonomukun ā mispoonomukunookopunā V;IPFV;ADM
na ga kẻ natawuk V;NO3PA;PRF;IND;SG;2;FUT
itāyim kitta kẻ itāyimumupun V;NO3SI;PFV;SBJV+POT;SG;2
nuku ā kẻ nukuủkepun V;NO3SI;PFV;SBJV;SG;3
isitissảhum ga kẻ isitissảhumānapun V;NO3SI;PFV;POT;SG;1
tapwảt ga kẻ tapwảtānan V;NO3SI;PRF;IND;PL;1+INCL;FUT
na ga natawawuk V;NO3PA;IND;PL;2;FUT
isitissả kẻ isitissảtảtyuk V;NO3PA;IND;SG;1;PST
peẻtokwah kitta kẻ peẻtokwahủkik V;NO3SI;PRF;SBJV;PL;3;FUT
|
6f630ec504790946da6b7f4c228026b6ccbe01f9 | 66106821c3fd692db68c20ab2934f0ce400c0890 | /test/disassembler/clr.instr.tst | 87d148d5faac01dd43bd205771fff8c28712e929 | [] | no_license | aurelf/avrora | 491023f63005b5b61e0a0d088b2f07e152f3a154 | c270f2598c4a340981ac4a53e7bd6813e6384546 | refs/heads/master | 2021-01-19T05:39:01.927906 | 2008-01-27T22:03:56 | 2008-01-27T22:03:56 | 4,779,104 | 2 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,438 | tst | clr.instr.tst | ; @Harness: disassembler
; @Result: PASS
section .text size=0x00000040 vma=0x00000000 lma=0x00000000 offset=0x00000034 ;2**0
section .data size=0x00000000 vma=0x00000000 lma=0x00000000 offset=0x00000074 ;2**0
start .text:
label 0x00000000 ".text":
0x0: 0x00 0x24 eor r0, r0
0x2: 0x11 0x24 eor r1, r1
0x4: 0x22 0x24 eor r2, r2
0x6: 0x33 0x24 eor r3, r3
0x8: 0x44 0x24 eor r4, r4
0xa: 0x55 0x24 eor r5, r5
0xc: 0x66 0x24 eor r6, r6
0xe: 0x77 0x24 eor r7, r7
0x10: 0x88 0x24 eor r8, r8
0x12: 0x99 0x24 eor r9, r9
0x14: 0xaa 0x24 eor r10, r10
0x16: 0xbb 0x24 eor r11, r11
0x18: 0xcc 0x24 eor r12, r12
0x1a: 0xdd 0x24 eor r13, r13
0x1c: 0xee 0x24 eor r14, r14
0x1e: 0xff 0x24 eor r15, r15
0x20: 0x00 0x27 eor r16, r16
0x22: 0x11 0x27 eor r17, r17
0x24: 0x22 0x27 eor r18, r18
0x26: 0x33 0x27 eor r19, r19
0x28: 0x44 0x27 eor r20, r20
0x2a: 0x55 0x27 eor r21, r21
0x2c: 0x66 0x27 eor r22, r22
0x2e: 0x77 0x27 eor r23, r23
0x30: 0x88 0x27 eor r24, r24
0x32: 0x99 0x27 eor r25, r25
0x34: 0xaa 0x27 eor r26, r26
0x36: 0xbb 0x27 eor r27, r27
0x38: 0xcc 0x27 eor r28, r28
0x3a: 0xdd 0x27 eor r29, r29
0x3c: 0xee 0x27 eor r30, r30
0x3e: 0xff 0x27 eor r31, r31
start .data:
|
8002c450bf54b47814e4295964c58a134576a3c2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3363/CH10/EX10.5/Ex10_5.sce | d564f6229c970c07989bdc2b9ff0e5809aa944cb | [] | 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 | 166 | sce | Ex10_5.sce | //Example 10.5, page 386
clc
a=1*(1+1)
x=a+a-a
y=2*a
g=1+(x/y)
u=9.3*10^-24//amp-m2
B=1/10//in Tesla
delta_E=u*B*g
printf("\n The displace energy is %e ev",delta_E) |
59abc8d91c61419c45b4d934e6040eed92018d52 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2870/CH3/EX3.14/Ex3_14.sce | 4b291d2e43da7013dfb5483fa7c18d2853610c13 | [] | 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 | 509 | sce | Ex3_14.sce | clc;clear;
//Example 3.14
//given value
T=25;
//from table 3-1
Psat=3.17;//on kPa
//calculations
//Relative Humidity 10%
Pv1=0.1*Psat
//Relative Humidity 80%
Pv2=0.8*Psat
//Relative Humidity 100%
Pv3=1*Psat
// from table 3-1 Tsat at these Pressures are
T1=-8;
T2=21.2;
T3=25;
disp(T1,'With relative humidity 10%the water temp in celcius is');
disp(T2,'With relative humidity 80% the water temp in celcius is');
disp(T3,'With relative humidity 100% the water temp in celcius is')
|
832ca09ccc056d92f4e7884709c151c38b744dd8 | 1bb72df9a084fe4f8c0ec39f778282eb52750801 | /test/SER5.prev.tst | a4464666e85d61b425b174a5009e1b900cce925e | [
"Apache-2.0",
"LicenseRef-scancode-unknown-license-reference"
] | permissive | gfis/ramath | 498adfc7a6d353d4775b33020fdf992628e3fbff | b09b48639ddd4709ffb1c729e33f6a4b9ef676b5 | refs/heads/master | 2023-08-17T00:10:37.092379 | 2023-08-04T07:48:00 | 2023-08-04T07:48:00 | 30,116,803 | 2 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 51 | tst | SER5.prev.tst | A111111 1,2,3,4
A222222 2,2,3,4
A333333 3,2,3,4
|
822cd10d24cbb3f0830e10996c5b27040a9ad51a | 449d555969bfd7befe906877abab098c6e63a0e8 | /761/CH14/EX14.1/14_1.sce | 29d06a2f197fff25e387de7b09a0abb4685f23eb | [] | 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 | 245 | sce | 14_1.sce | clc;
//page no 461
//prob no. 14.1
//A coaxial cable with capacitance=90pF/m & characteristic impedance=50 ohm
C=90*10^-12;Zo=50;
//Determination of inductance of 1m length
L=(Zo^2)*C;
disp('nH/m',L*10^9,'The inductance of 1m length is'); |
3b00bbb717a784878eea5c06320f31fceb9af791 | 449d555969bfd7befe906877abab098c6e63a0e8 | /389/CH8/EX8.3/Example8_3.sce | b8cd0fcfe2d8641897eb69ef84d1869f064be25f | [] | 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 | 1,456 | sce | Example8_3.sce | clear;
clc;
// Illustration 8.3
// Page: 292
printf('Illustration 8.3 - Page: 292\n\n');
// solution
// Since tower is a tray device:
// Following changes in notation is made:
// L1 to LNp
// L2 to L0
// X1 to XNp
// X2 to X0
// G1 to GNpPlus1
// G2 to G1
// Y1 to YNpPlus1
// Y2 to Y1
// x1 to xNp
// x2 to x0
// y1 to yNpPlus1
// y2 to y1
// From Illustration 8.2:
yNpPlus1 = 0.02;
Y1 = 0.00102;
y1 = Y1/(1+Y1);
GNpPlus1 = 0.01075;// [kmol/s]
x0 = 0.005;
m = 0.125;// [m = y_star/x]
Ls = 1.787*10^(-3);// [kmol/s]
Gs = 0.01051;// [kmol/s]
XNp = 0.1190;
LNp = Ls*(1+XNp);// [kmol/s]
ANp = LNp/(m*GNpPlus1);
X0 = x0/(1-x0);
L0 = Ls*(1+X0);// [kmol/s]
G1 = Gs*(1+Y1);// [kmol/s]
A1 = L0/(m*G1);
A = (ANp*A1)^0.5;
// From Eqn. 5.55:
Np = (log((yNpPlus1-(m*x0))/(y1-(m*x0))*(1-(1/A))+(1/A)))/log(A);
printf("Absorber\n");
printf("From Analytical Method, no. of theoretical trays required is %f \n",Np);
// From Fig. 8.13 (Pg292):
Np = 7.6;
printf("From Graphical Method, no. of theoretical trays required is %f \n",Np);
// Stripper
SNp = 1/ANp;
S1 = 1/A1;
// Due to relative nonconstancy of the stripping factor,graphical method should be used.
printf("Stripper\n");
// From Fig. 8.11 (Pg 289):
Np = 6.7;
printf("From Graphical Method, no. of theoretical trays required is %f \n",Np);
// From Fig. 5.16 (Pg 129):
Np = 6.0;
printf("From Fig. 5.16, no. of theoretical trays required is %f \n",Np); |
aba57e6a2c191dbf6fcec76424a8e9a8dc7822a7 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1019/CH7/EX7.20/Example_7_20.sce | 95e12c6076b364236936c013ccc7a304a093a58c | [] | 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 | 457 | sce | Example_7_20.sce | //Example 7.20
clear;
clc;
//Given
R=82;//gas constant in atm cm^3 K^-1 mol^-1
w2=1.35;//mass of solute in g
h1=9.9;//the osmotic pressure in cm of water
T=300;//temperature in K
V=100;//volume of solution in ml
//To determine the molecular mass of the polymer
pi=(980.67*h1)/(1013250);//the osmotic pressure in atm
M2=(w2*R*T)/(pi*V);//molecular mass of the polymer in g
mprintf('The molecular mass of the polymer = %f g mol^-1',M2);
//end |
ac23ed1e73ee3dc7f3f5e82a4b2fdd23646a09f6 | 449d555969bfd7befe906877abab098c6e63a0e8 | /10/CH9/EX3/cha9_3.sce | 6597395f636348e09962487d19353c39a5edd4e3 | [] | 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 | 802 | sce | cha9_3.sce | Xd=0.9;Vt=1;Ia=1;Xd1=0.4;Xd2=0.2;Ta=0.2;
Td1=4;Td2=0.6;t=0.1;
function[x,y]=polar2rect(r,theta)
x=r*cos(theta*%pi/180);
y=r*sin(theta*%pi/180);
endfunction
[x,y]=polar2rect(Ia,-25.8)
X=x+%i*y
[x1,y1]=polar2rect(Xd,90)
X1=x1+%i*y1
A=Vt+(X*X1)
function[x,y]=polar2rect(r,theta)
x=r*cos(theta*%pi/180);
y=r*sin(theta*%pi/180);
endfunction
[Ei,Angle]=rect2polar(1.39,0.81)
[x,y]=polar2rect(Ia,-25.8)
X=x+%i*y
[x2,y2]=polar2rect(Xd1,90)
X2=x2+%i*y2
[Ei2,Angle1]=rect2polar(1.17,0.36)
[x,y]=polar2rect(Ia,-25.8)
X=x+%i*y
[x3,y3]=polar2rect(Xd2,90)
X3=x3+%i*y3
[Ei2,Angle2]=rect2polar(1.08,0.10)
Idc=sqrt(2)*(Ei2/Xd2)
Td1=(Xd1/Xd)*Td1
Td2=(Xd2/Xd1)*Td2
Isc=sqrt(2)*(Td1+1.29*%e^(-0.562*0.1)+2.42*%e^(-3.3*0.1))+7.78*%e^(-5*0.1)
|
e2302e8fb7a3287b0a989cd0d6959293be686769 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2744/CH12/EX12.10/Ex12_10.sce | cb65c41bd627dd6197008bb2ad932bb0897345f9 | [] | 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 | 1,184 | sce | Ex12_10.sce | clear;
clc;
HP = 80;
RPM = 120;
b = 10;// feet
h = 3;// feet
F = 8000;// lb-wt
m = 4;
T = HP*33000*12/(2*%pi*RPM*2240);// ton-inches
M = F*h*(b-h)*12/(b*2240);// ton-inches
//(i) The major principal stress f1 is given by
f1 = 6;// tons/in^2
d1 = ((M+sqrt(M^2 + T^2))*16/(%pi*f1))^(1/3);// inches
//(ii) If f_s_dash is the maximum intensity of shear stress
f_s_dash = 3;// tons/in^2
d2 = (sqrt(M^2 + T^2) * 16/(%pi*f_s_dash))^(1/3);// inches
//(iii) If e is the major principal strain
Ee = 6;// tons/in^2
d3 = (((1-(1/m))*M + (1+(1/m))*sqrt(M^2 + T^2))*16/(%pi*Ee))^(1/3);// inches
//(iv) If f is the direct stress which, acting alone will produce the same maximum strain energy
f = 6;// tons/in^2
d4 = ((sqrt(4*M^2 + 2*(m+1)*(T^2)/m))*16/(%pi*f))^(1/3);// inches
printf('The diameter of the shaft in different cases will be, (i) d = %.3f inches\n (ii) d = %.3f inches\n (iii) d = %.3f inches\n (iv) d = %.3f inches',d1,d2,d3,d4);
//there are round-off errors in the answers given in textbook.
|
db9d8d05f6a51cbedebe8f4666755f1d0b92de6f | 449d555969bfd7befe906877abab098c6e63a0e8 | /647/CH6/EX6.19/Example6_19.sce | e6cf5d9102a3b4f72eee0e2a009ebcb573e71041 | [] | 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 | 332 | sce | Example6_19.sce | clear;
clc;
// Example: 6.19
// Page: 227
printf("Example: 6.19 - Page: 227\n\n");
// Solution
// *****Data******//
a = 3.59;// [square L atm /square mol]
b = 0.043;// [L/mol]
R = 0.082;// [J/mol K]
//***************//
// From Eqn. 6.122:
Ti = 2*a/(R*b);// [K]
printf("Inversion of temperature is %.1f K",Ti); |
295590036322157d2f0ae886caee11ca8c8315d1 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1760/CH2/EX2.31/EX2_31.sce | a37bbd5ccb519646999f0425bbdacf4bc66b7cf4 | [] | 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 | 568 | sce | EX2_31.sce | //EXAMPLE 2-31 PG NO=82
Z1=20.15+%i*15.18;
Z2=6.99+%i*17.29;
Z=Z1+Z2; //impedance
V=230+%i*0;
I=V/Z; //Current
PF=0.64; //Power Factotr
S=V*I; //Apparent Power
P=S*PF; //Active Power
disp(' Impedanceis in rectangular form = '+string(Z)+' ohm');
disp(' current is in rectangular form = '+string(I)+' A');
disp(' S is in rectangular form = '+string(S)+' VA');
disp(' POWER is in rectangular form = '+string(P)+' W');
|
5ce0b1908699b46cb8848fd6bb4bc7086bf99860 | 4058f38b392324aa5099819881f3c7d7219a174f | /Flip flops/SR Flipflop/SR_FF Level Triggered/SR FF.sce | 02760242592c495c232a3aef280a9d1be0aab994 | [] | no_license | anupma-s/Scilab-Xcos-Arduino-Digital-Circuits | 612a033422bf14e2e58bcdce371f15cafb30224f | 2b4bf8e8f155d20a5eda2feb31c5523a51569d73 | refs/heads/master | 2021-01-20T17:20:13.073180 | 2016-07-04T15:25:07 | 2016-07-04T15:25:07 | 62,569,455 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,192 | sce | SR FF.sce | ok=open_serial(1,2,115200);
if ok~=0 then error('Unable to open serial port, please check'); end
S=0;
R=0;
SPin=5; //Input S is given to Pin 5
RPin=6; //Input R is given to Pin 6
//assuming initially, Q=0 & Qbar=1
Q=0;
Qbar=1;
QPin=9;
QbarPin=10;
clockPin=2; //external clock
for i=1:1000 //Runs the program 1000 times in a loop
if Q==0
cmd_digital_out(1,QPin,0) //Gives low output at Q
end
if Q==1
cmd_digital_out(1,QPin,1) // Gives high output at Q
end
if Qbar==0
cmd_digital_out(1,QbarPin,0) //Gives low output at Qbar
end
if Qbar==1
cmd_digital_out(1,QbarPin,1) //Gives high output at Qbar
end
S=cmd_digital_in(1,SPin) //Reads the input S
R=cmd_digital_in(1,RPin) //Reads the input R
if(cmd_digital_in(1,clockPin)==1)
if (S==0 & R==1)
Q=0
Qbar=1
else if (S==1 & R==0)
Q=1
Qbar=0
else if (S==1 & R==1) //we assume this case doesn't occur
Q=0
Qbar=0
end
end
end
end
end
close_serial(1)
|
3684a7fd415db7ef8cc13659985b552fbe766c57 | 1bb72df9a084fe4f8c0ec39f778282eb52750801 | /test/HR6.prev.tst | 9ebb20bf15334a65d500ec3620b76586c66a1b9c | [
"Apache-2.0",
"LicenseRef-scancode-unknown-license-reference"
] | permissive | gfis/ramath | 498adfc7a6d353d4775b33020fdf992628e3fbff | b09b48639ddd4709ffb1c729e33f6a4b9ef676b5 | refs/heads/master | 2023-08-17T00:10:37.092379 | 2023-08-04T07:48:00 | 2023-08-04T07:48:00 | 30,116,803 | 2 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 4,014 | tst | HR6.prev.tst | polys[0]=0
polys[1]=1
polys[2]=1
polys[3]=-1
order=2
initialize: mN=-1, mRElen=3, mNPlen=1, mOrder=2, mLinit=2
polys[0]=0
polys[1]=1
polys[2]=0,1
polys[3]=-1,-1
order=2
initialize: mN=0, mRElen=3, mNPlen=2, mOrder=2, mLinit=4
exp: multiply ring=[*0,0,0] by mN=1
exp: multiply ring=[*0,0,0] by mN=1
exp: multiply ring=[*0,0,0] by mN=1
setRE(1,1): [0,*0,0] -> [0,*1,0]
result=1, RE=[0,*1,0]
1 1
exp: multiply ring=[0,*1,0] by mN=2
exp: multiply ring=[0,*1,0] by mN=2
exp: multiply ring=[0,*2,0] by mN=2
setRE(2,4): [0,2,*0] -> [0,2,*4]
result=4, RE=[0,2,*4]
2 4
exp: multiply ring=[0,2,*4] by mN=3
exp: multiply ring=[0,2,*4] by mN=3
exp: multiply ring=[0,6,*4] by mN=3
setRE(0,9): [*0,6,12] -> [*9,6,12]
result=9, RE=[*9,6,12]
3 9
exp: multiply ring=[*9,6,12] by mN=4
exp: multiply ring=[*36,6,12] by mN=4
exp: multiply ring=[*36,24,12] by mN=4
setRE(1,40): [36,*24,48] -> [36,*40,48]
result=40, RE=[36,*40,48]
4 40
pvals[3]=-4
pvals[2]=3
pvals[1]=1
pvals[0]=0
sum: 0 (pvals[1]=1, RE=[36,40,*48]) -> 36 (pvals[1]=1, RE=[*36,40,48])
sum: 36 (pvals[2]=3, RE=[*36,40,48]) -> 156 (pvals[2]=3, RE=[36,*40,48])
exp: multiply ring=[36,*40,48] by mN=5
exp: multiply ring=[180,*40,48] by mN=5
exp: multiply ring=[180,*200,48] by mN=5
setRE(2,195): [180,200,*240] -> [180,200,*195]
result=195, RE=[180,200,*195]
5 195
pvals[3]=-5
pvals[2]=4
pvals[1]=1
pvals[0]=0
sum: 0 (pvals[1]=1, RE=[*180,200,195]) -> 200 (pvals[1]=1, RE=[180,*200,195])
sum: 200 (pvals[2]=4, RE=[180,*200,195]) -> 980 (pvals[2]=4, RE=[180,200,*195])
exp: multiply ring=[180,200,*195] by mN=6
exp: multiply ring=[1080,200,*195] by mN=6
exp: multiply ring=[1080,1200,*195] by mN=6
setRE(0,1176): [*1080,1200,1170] -> [*1176,1200,1170]
result=1176, RE=[*1176,1200,1170]
6 1176
pvals[3]=-6
pvals[2]=5
pvals[1]=1
pvals[0]=0
sum: 0 (pvals[1]=1, RE=[1176,*1200,1170]) -> 1170 (pvals[1]=1, RE=[1176,1200,*1170])
sum: 1170 (pvals[2]=5, RE=[1176,1200,*1170]) -> 7050 (pvals[2]=5, RE=[*1176,1200,1170])
exp: multiply ring=[*1176,1200,1170] by mN=7
exp: multiply ring=[*8232,1200,1170] by mN=7
exp: multiply ring=[*8232,8400,1170] by mN=7
setRE(1,8225): [8232,*8400,8190] -> [8232,*8225,8190]
result=8225, RE=[8232,*8225,8190]
7 8225
pvals[3]=-7
pvals[2]=6
pvals[1]=1
pvals[0]=0
sum: 0 (pvals[1]=1, RE=[8232,8225,*8190]) -> 8232 (pvals[1]=1, RE=[*8232,8225,8190])
sum: 8232 (pvals[2]=6, RE=[*8232,8225,8190]) -> 57582 (pvals[2]=6, RE=[8232,*8225,8190])
exp: multiply ring=[8232,*8225,8190] by mN=8
exp: multiply ring=[65856,*8225,8190] by mN=8
exp: multiply ring=[65856,*65800,8190] by mN=8
setRE(2,65808): [65856,65800,*65520] -> [65856,65800,*65808]
result=65808, RE=[65856,65800,*65808]
8 65808
pvals[3]=-8
pvals[2]=7
pvals[1]=1
pvals[0]=0
sum: 0 (pvals[1]=1, RE=[*65856,65800,65808]) -> 65800 (pvals[1]=1, RE=[65856,*65800,65808])
sum: 65800 (pvals[2]=7, RE=[65856,*65800,65808]) -> 526456 (pvals[2]=7, RE=[65856,65800,*65808])
exp: multiply ring=[65856,65800,*65808] by mN=9
exp: multiply ring=[592704,65800,*65808] by mN=9
exp: multiply ring=[592704,592200,*65808] by mN=9
setRE(0,592263): [*592704,592200,592272] -> [*592263,592200,592272]
result=592263, RE=[*592263,592200,592272]
9 592263
pvals[3]=-9
pvals[2]=8
pvals[1]=1
pvals[0]=0
sum: 0 (pvals[1]=1, RE=[592263,*592200,592272]) -> 592272 (pvals[1]=1, RE=[592263,592200,*592272])
sum: 592272 (pvals[2]=8, RE=[592263,592200,*592272]) -> 5330376 (pvals[2]=8, RE=[*592263,592200,592272])
exp: multiply ring=[*592263,592200,592272] by mN=10
exp: multiply ring=[*5922630,592200,592272] by mN=10
exp: multiply ring=[*5922630,5922000,592272] by mN=10
setRE(1,5922640): [5922630,*5922000,5922720] -> [5922630,*5922640,5922720]
result=5922640, RE=[5922630,*5922640,5922720]
10 5922640
|
c4734b733f4348f839b8382780490f12f6f30199 | 717ddeb7e700373742c617a95e25a2376565112c | /1340/CH7/EX7.12/7_12.sce | 75e4e6d642ed92f466b43aa204372ee47eeab8d6 | [] | 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 | 250 | sce | 7_12.sce | clc;
syms K a b s;
G = K/((s+a)*(s+b));
Kp = limit(G,s,0);
e = 1/(1+Kp);
sea = (a/e)*diff(e,a);
sea = simple(sea);
disp(sea,"Sensitivity of error wrt a =");
sek = (K/e)*diff(e,K);
sek = simple(sek);
disp(sek,"Sensitivity of error wrt K ="); |
414a079f239a317ebf4e60e7834cfea4a7b60c02 | 449d555969bfd7befe906877abab098c6e63a0e8 | /491/CH6/EX6.9/6_9.sce | 77ea427d6921aa2518a8e210968e7f0550a07a1a | [] | 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 | 254 | sce | 6_9.sce | b = 5 ; // in inch
b1 = 4 ; // in inch
h = 9 ; // in inch
h1 = 7.5 ; // in inch
sy = 33 ; // stress along y axis in ksi
M = (sy/12)*((3*b*h^2)-(b+(2*b1))*(h1^2)) ; // Bending moment acting in k-in
disp("k-in",M,"the magnitude of the moment M is")
|
1c8c25a31fb57599ed66e88aef279be6e950d2b9 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3557/CH6/EX6.9/Ex6_9.sce | e6de54b794fb5c47ba5398bdf8839cb4cf81b040 | [] | 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 | Ex6_9.sce | //Example6.9//
P=3000;//kg //load
D=10;//mm//diamter sphere of tungsten carbide
d=3.91;//mm //diameter impression in the iron surface
BHN=(2*P)/((%pi*D)*(D-sqrt(D^2-d^2)))
mprintf("BHN = %i",BHN)
//From the Figure 6.28b
printf("\n(TS)BHN=240 = 800 Mpa")
|
e21678fb1ab179757b3b838d1d1dc809870c7c0c | da5b40d917ec2982828bd9bdf06b18b7bf189f26 | /sim/cmd/test/testall.tst | e90dc20de3385a70472cf2c259736164f6d67bb6 | [] | 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 | 2,158 | tst | testall.tst | #First display the versions
#of the flowsheet
about /
#Of the ThermoAdmin (which requests the version of each provider)
about $
# run all test files
read simpleflash.tst
clear
read twophaseflash.tst
clear
read mixandflash.tst
clear
read liqliq.tst
clear
read flowsheet1.tst
clear
read flowsheet2.tst
clear
read molebal.tst
clear
read heater.tst
clear
read heatex.tst
clear
read recycle.tst
clear
read recycle2.tst
clear
read turboexp.tst
clear
read deprop.tst
clear
read deprop2.tst
clear
read column.tst
clear
read c3splitter.tst
clear
read heatpump.tst
clear
read n2reject.tst
clear
read compressor.tst
clear
read compressor2.tst
clear
read pump.tst
clear
read controller.tst
clear
read gasplant.tst
clear
read valueOf.tst
clear
read eqn.tst
clear
read scriptop.tst
clear
read compsplit.tst
clear
read mechengpump.tst
clear
read convrxn.tst
clear
read eqmRxn.tst
clear
read gibbsRxn.tst
clear
read man-controller.tst
clear
read man-convrxn.tst
clear
read man-cooler.tst
clear
read man-dehy1.tst
clear
read man-ethanol.tst
clear
read man-heater.tst
clear
read man-material.tst
clear
read man-mixer.tst
clear
read man-propsensor.tst
clear
read man-splitter.tst
clear
read man-valve.tst
clear
read hypo.tst
clear
read connector.tst
clear
read towerspec.tst
clear
read envelope.tst
clear
read patest.tst
clear
read sstest.tst
clear
read thcase.tst
clear
read hxthreesides.tst
clear
read hxplaywithsides.tst
clear
read hydrate.tst
clear
read ejector.tst
clear
read pipesegment.tst
clear
read oil.tst
clear
read specialprops.tst
clear
read solidflash.tst
clear
read oldcase.tst
clear
read cstr.tst
clear
read compressorwcurve.tst
clear
read expanderwcurve.tst
clear
read pfr2.tst
clear
read stab.tst
clear
read langs.tst
clear
read hxprofiles.tst
clear
read massvolfracsignal.tst
clear
read signalstream.tst
clear
read hxphasechange.tst
clear
read degsubcool.tst
clear
read consisterrs.tst
clear
read set_valves.tst
clear
read proptable.tst
clear
read envelope_hydrate.tst
clear
read volumebalance.tst
clear
read setthermo.tst
#Finish with a clear to check for memory leaks
clear
|
d94f8e36d6fc25952c30e2a295b1cb5dd8f8e327 | 449d555969bfd7befe906877abab098c6e63a0e8 | /389/CH7/EX7.8/Example7_8.sce | c458eda0d733af3e66452f29be8449b9ac0e9dfd | [] | 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 | 478 | sce | Example7_8.sce | clear;
clc;
// Illustration 7.8
// Page: 237
printf('Illustration 7.8 - Page: 237\n\n');
// solution
//****Data****//
Y_prime1 = 0.030;// [kg water/kg dry air]
Temp1 = 83;// [OC]
//*******//
// From the psychrometric chart, the condition at 90 OC
Temp2 = 41.5;// [OC]
Y_prime2 = 0.0485;// [kg water/kg dry air]
printf("The Outlet Air condition are:\n");
printf("Temp. = %f OC\n",Temp2);
printf("Absolute Humidity = %f kg water/kg dry air\n",Y_prime2); |
afdc8eed587f70ca1849207e6f5c14012a2e2a25 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3507/CH10/EX10.3/Ex10_3.sce | b41c29bd1acc2a51e8d1dcecb562d3d265726f5f | [] | 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 | 258 | sce | Ex10_3.sce | //chapter10
//example10.3
//page187
//from graph, we see that for zero illumination, the reverse current i.e. dark current is 50 micro ampere
Ir=50d-6 // A
Vr=10 // V
Rr=Vr/Ir
printf("dark resistance = %.3f ohm or %.3f kilo ohm",Rr,Rr/1000)
|
e90ece53421b1760be7006f334d644e5e8936eb0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2837/CH16/EX16.2/Ex16_2.sce | cdad52411dd1e537f748080af780a409c97946e1 | [] | 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 | 405 | sce | Ex16_2.sce | clc
clear
//Initalization of variables
t1=80+460 //R
p1=14 //psia
n=1.4
cr=16
heat=800 //Btu
cp=0.24
c=0.1715
//calculations
t2=t1*cr^(n-1)
p2=p1*(cr)^n
t3=t2 +heat/cp
v32=t3/t2
v43=cr/v32
t4=t3/v43^(n-1)
Qr=c*(t4-t1)
etat=(heat-Qr)/heat *100
//results
printf("Max. Temperature = %d R",t3)
printf("\n Max. Pressure = %d psia",p2)
printf("\n Thermal efficiency = %.1f percent",etat)
|
4e2ee3c7634a606a26b279110c7349152c41d837 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1868/CH2/EX2.7/Ch02Ex7.sce | bc57200a772d3a1c2a597442aafb4f43dbf010ee | [] | 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 | 1,539 | sce | Ch02Ex7.sce | // Scilab code Ex2.7: Pg.50 (2005)
clc; clear;
u = 1.660e-27; // Atomic mass unit
M_U = 236.045563; // Atomic mass of Uranium, u
M_Rb = 89.914811; // Atomic mass of Rubidium, u
M_Cs = 142.927220; // Atomic mass of Caesium, u
m_n = 1.008665; // Mass of neutons, u
// Part (a)
printf("\nU(92,235) --> Rb(37,90) + Cs(55,143) + 3n(0,1)");
printf("\nSo three neutrons are produced per fission.\n");
// Part (b)
delta_M = (M_U - (M_Rb + M_Cs + 3*m_n))*u; // Combined mass of all products, kg
printf("\nCombined mass of all products = %6.4fe-28 kg\n", delta_M*1e+28);
// Part (c)
// For simplification let velocity of light = 1 m/s
c = 1; // Velocity of light, m/s
// Since 1u = 931.5 MeV/(c^2), therefore
Q = (delta_M/u)*931.5*(c^2); // Energy given out per fission event, MeV
printf("\nEnergy given out per fission event = %5.1f MeV\n", Q);
// Part (d)
N = ((6.02e23)*1000)/236; // Number of nuclei present
efficiency = 0.40;
E = efficiency*N*Q*(4.45e-20); // Total energy released, kWh
printf("\nTotal energy released = %4.2fe+06 kWh\n", E*1e-06);
printf("\nThis amount of energy will keep a 100-W lightbulb burning for %d years", E*1000/(100*24*365));
// Result
// U(92,235) --> Rb(37,90) + Cs(55,143) + 3n(0,1)
// So three neutrons are produced per fission.
// Combined mass of all products = 2.9471e-28 kg
// Energy given out per fission event = 165.4 MeV
// Total energy released = 7.51e+06 kWh
// This amount of energy will keep a 100-W lightbulb burning for 8571 years
|
19f218192dc7ed1c15805593a02d2d5985651301 | 449d555969bfd7befe906877abab098c6e63a0e8 | /122/CH9/EX9.5/exa9_5.sce | 1c672f42fb20682fe31a800173b851310069ba2b | [] | 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 | 491 | sce | exa9_5.sce | // Example 9-5
// State transition matrix
clear; clc;
xdel(winsid()); //close all windows
// please edit the path
// cd "<path for the dependencies>";
// exec("pf_residu.sci");
// exec("ilaplace.sci");
s = %s;
A = [0 1; -2 -3];
L = inv(s*eye(2,2) - A);
disp(L, 'inv(sI - A) =');
// Find the Inverse Laplace transform
for i = 1:2
for j = 1:2
phi(i,j) = ilaplace(L(i,j));
end;
end;
disp(phi,'state transition matrix =');
// ilaplace may not work for systems with repeated poles |
c5afd4d86f7b98f4498322d0ce8cd6ed7636b929 | 449d555969bfd7befe906877abab098c6e63a0e8 | /929/CH1/EX1.10.b/Example1_10_b.sce | 4d6d7de1f005a04a63b0bf2a68a4bb4aa6ea3882 | [] | 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 | 655 | sce | Example1_10_b.sce | //Example 1.10(b)
clear;
clc;
R1=1*10^3;
R2=1*10^6;
ro=75;//Output Resistance
a=200*10^3;//Open Loop Gain for ic741
b=R1/(R1+R2);//Feedback Factor
T=a*b;//Loop Gain
Trec=1/T;
Atemp=1+Trec;
Atempr=1/Atemp;
A=(-R2/R1)*Atempr;//Gain
Rnnum=R2+ro;
Rnden=1+a;
Rn=Rnnum/Rnden;//Equivalent Resistance of the inverting input(Calculation Mistake in the book as a is taken as 10^5 rather than 2*10^5)
Ri=R1+Rn;//Equivalent Input Resistance
Ro=ro/(1+T);//Equivalent Output Resistance
printf("A=%.5f V/V",A);
printf("\nRn=%.2f ohms",Rn);
printf("\nRi=%.3f kohms",(Ri/1000));
printf("\nRo=%.3f ohms",Ro); |
1e17928720aff3b6454b1dbe206b3831770ee377 | 5c97e9f22a347457303e99428ba1e8be58384500 | /04/divide/Divide.tst | c757babe65734ff0e3e398119becdd073bd57066 | [] | no_license | eliavsd/From-NAND-To-TETRIS | f293c0110a2c8ce0d7bb72db6b5c7167a6ec685a | 90494709a24ae73f290c5ee66b595e40d042d20c | refs/heads/master | 2021-07-13T02:16:54.602527 | 2017-10-16T09:21:01 | 2017-10-16T09:21:01 | 107,106,131 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 481 | tst | Divide.tst | load Divide.asm,
output-file Divide.out,
compare-to Divide.cmp,
output-list RAM[15]%D2.7.2;
set PC 0,
set RAM[13] 157;
set RAM[14] 3;
repeat 500 {
ticktock;
}
output;
set PC 0,
set RAM[13] 2048;
set RAM[14] 16;
repeat 500 {
ticktock;
}
output;
set PC 0,
set RAM[13] 0;
set RAM[14] 0;
repeat 500 {
ticktock;
}
output;
set PC 0,
set RAM[13] 3;
set RAM[14] 523;
repeat 500 {
ticktock;
}
output;
set PC 0,
set RAM[13] 33;
set RAM[14] 11;
repeat 500 {
ticktock;
}
output; |
8a7a407da9a60338725e595a6f586315cee3cd94 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2138/CH8/EX8.2.b/ex_8_2_b.sce | eff77b81d975490fff4e6fed80388f3d3a0b5fa6 | [] | 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 | 418 | sce | ex_8_2_b.sce | //Example 8.2.b: copper losses
clc;
clear;
close;
//given data :
V=230; // voltage in volts
I=72; // current in A
W=V*I;
s=968; // stray losses
Rsh=115; // shunt field resistance in ohm
Ra=0.5;// armature resistance in ohm
Ish=V/Rsh;// shunt field resistance
Ia=I-Ish;
Eb=V-(Ia*Ra);// back emf in volts
Dpd=Eb*Ia;// driving power developed
Mpo=Dpd-s;
bhp=Mpo/746;
c_losses=W-Dpd;
disp(c_losses,"copper losses(W) = ")
|
0d2a7750bbb28bc654dbd6cb6320298a29c8e0ca | 449d555969bfd7befe906877abab098c6e63a0e8 | /1646/CH16/EX16.1/Ch16Ex1.sce | 14d2b67bd79cb8ad5b2d6e7a7e7a6ee7e2a937e9 | [] | 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 | 659 | sce | Ch16Ex1.sce | // Scilab Code Ex16.1 : Page-820 (2011)
clc; clear;
p = 1; q = 2; r = 3; // Coefficients of intercepts along three axes
p_inv = 1/p; // Reciprocate the first coefficient
q_inv = 1/q; // Reciprocate the second coefficient
r_inv = 1/r; // Reciprocate the third coefficient
mul_fact = double(lcm(int32([p,q,r]))); // Find l.c.m. of m,n and p
m1 = p_inv*mul_fact; // Clear the first fraction
m2 = q_inv*mul_fact; // Clear the second fraction
m3 = r_inv*mul_fact; // Clear the third fraction
printf("\nThe required miller indices are : (%d %d %d) ", m1,m2,m3);
// Result
// The required miller indices are : (6 3 2)
|
74e85a84d700ad4b8a197061fb53a1d19a8ac8bc | 449d555969bfd7befe906877abab098c6e63a0e8 | /3819/CH1/EX1.15/Ex1_15.sce | eb5cc0d90694d1ffb25882d620e20b3049d4f6d5 | [] | 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 | 652 | sce | Ex1_15.sce | // A Textbook of Fluid Mecahnics and Hydraulic Machines - By R K Bansal
// Chapter 1-Properties of Fluid
// Problem 1.15
//Given Data Set in the Problem(SI Units)
dist=20/100
u_vertex=120/100
visc=8.5/10
//Assuming u=a*y^2+b*y+c applying all three boundary conditions , we get the y vector and velocity vector as below;
y_vector=[0 0 1;400 20 1;40 1 0]
vel_vector=[0;-120;0]
[constants]=linsolve(y_vector,vel_vector)
//1) Velocity grdient =2ay+b
//For y=0, 10, 20 cm
y=[0,10,20]
du_dy=2*constants(1)*y+constants(2);
ss=visc*du_dy;
printf("The shear stress at y=%d,%d,%d cm are %f,%f,and %fN/m^2",y(1),y(2),y(3),ss(1),ss(2),ss(3));
|
0f5d65a3199e733c81a7f12cd53976ea6edcca9c | 449d555969bfd7befe906877abab098c6e63a0e8 | /611/CH3/EX3.6/Chap3_Ex6_R1.sce | 9518fcc7a28967f9a73f07bf0881437d3f86a991 | [] | 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 | 1,448 | sce | Chap3_Ex6_R1.sce | // Y.V.C.Rao ,1997.Chemical Engineering Thermodynamics.Universities Press,Hyderabad,India.
//Chapter-3,Example 6,Page 54
//Title:Volume using van der Waals equation
//================================================================================================================
clear
clc
//INPUT
n=1;//number of moles occupied by n-octane vapour in mol
T=427.85;//temperature in K
P=0.215;//saturation pressure in MPa
a=3.789;//van der Waals constant in Pa(m^3/mol)^2
b=2.37*10^-4;//van der Waals constant in m^3/mol
R=8.314;//universal gas constant in (Pa m^3)/(mol K)
//CALCULATION
Vguess=(n*R*T)/(P*10^6);//taking the vguess as volume from ideal gas (in m^3/mol) for the iteration process in van der Waals equation
Vnew=(R*T)/((P*10^6)+(a/Vguess^2))+b;//getting the initial value of volume (in m^3/mol) using van der Waals equation to start the iteration process
tolerance=1e-6;//defining the tolerance limit for the convergence of the iteration process
while abs(Vguess-Vnew)>tolerance
Vguess=Vnew;
Vnew=(R*T)/((P*10^6)+(a/Vguess^2))+b;//the iteration process to solve the system of equation
end
V=Vnew;//The volume calculated using the van der Waals equation in m^3/mol
//OUTPUT
mprintf('\n The volume occupied by n-octane vapour obtained by van der Waals equation= %f m^3/mol\n',V);
//===============================================END OF PROGRAM===================================================
|
5ec2a78f1c588ac293e74c32562bc67cecbf8876 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3802/CH5/EX5.15/Ex5_15.sce | 78dbba0f126f732d091627583c5874954ed5062f | [] | 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 | 547 | sce | Ex5_15.sce | //Book Name:Fundamentals of Electrical Engineering
//Author:Rajendra Prasad
//Publisher: PHI Learning Private Limited
//Edition:Third ,2014
//Ex5_15.sce.
clc;
clear;
P=50e3;
V1=2.2e3;
V2=220;
printf("\n (a)")
I1=P/V1;
I2=P/V2;
printf("\n Primary current=%2.2f A \n",I1)
printf("\n Secondary current=%3.1f A \n",I2)
printf("\n (b)")
Zl2=V2/I2;
printf("\n The load impedence for the secondary side=%1.3f ohm \n",Zl2)
printf("\n (c)")
Zl1=V1/I1;
printf("\n The load impedence for the primary side=%2.1f ohm \n",Zl1)
|
b77d7a142d0b2c928cc64b61881c9ae0b90758e3 | 3dbfafda24c1b197e7a16cf5c37d4fa68a765e61 | /MMNa.sce | 78dbedaa96d73929341a32bbfcaedc39c0c521fe | [] | no_license | br-bieegl/Harmonization | 3d5691762723562bffabe8b8405a0d6d0123b9c4 | c0bbebb58fb3052c62180d3c5195284b4330f7b1 | refs/heads/master | 2021-01-21T14:07:33.532039 | 2016-03-08T23:00:34 | 2016-03-08T23:00:34 | 32,476,854 | 0 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 7,008 | sce | MMNa.sce | #This is adapted from the NAPLS2 paradigm, but it only
#includes long duration deviants (p = .10) and target
#blue circles (p = .20)
scenario = "nvMMNa_naplsHarmonization_02022016blue";
#attenuation updated for ER1 insert earphones and X-fi gamer card
pcl_file = "nvMMNCommands.pcl";
scenario_type = trials ;
write_codes = true ;
response_matching = simple_matching ;
active_buttons = 2;
button_codes = 101, 10;
target_button_codes = 2,11;
pulse_width = 1 ;
default_trial_type = fixed ;
default_background_color = 255,255,255 ;
begin ;
#silence tone placeholder
sound{ wavefile {filename = "633standard.wav" ;} ; attenuation = 1 ;} silence ;
#standard tone (50ms 1000Hz, 10ms rise/fall)
sound{ wavefile {filename = "1000Fdeviant.wav" ;} ; attenuation = 0.283 ;} s ;
#Long duration Deviant (100ms 1000Hz, 10ms rise/fall)
sound{ wavefile {filename = "1000dfDeviant.wav" ;} ; attenuation = 0.283 ;} Dd ;
picture {
bitmap { filename = "default.png";
width = 1024;
height = 768;};
x = 0; y = 0; } default;
# location and name of the stimuli to be used in the experiment
bitmap {filename = "T.png";} Targ;
bitmap {filename = "F.png";} Freq;
#T is for target
picture {
bitmap Targ;
x = 0; y = 0;
}T;
#F is for frequent (or Fstandard, where the f is silent)
picture {
bitmap Freq;
x = 0; y = 0;
}F;
trial {
stimulus_event {
picture{text { caption = "3" ;
font_size = 48 ;
font_color = 0,0,0 ;} ;
x = 0 ; y = 0 ;} ;
time=0 ;
duration = 1500 ;
code = "83" ;
} ;
stimulus_event {
picture{text { caption = "2" ;
font_size = 48 ;
font_color = 0,0,0 ;} ;
x = 0 ; y = 0 ;} ;
time = 2000 ;
duration = 1500 ;
code = "82" ;
} ;
stimulus_event {
picture{text { caption = "1" ;
font_size = 48 ;
font_color = 0,0,0 ;} ;
x = 0 ; y = 0 ;} ;
time = 4000 ;
duration = 1500 ;
code = "81" ;
port_code = 128 ;
} ;
} ;
TEMPLATE "nvMMN.tem" {
#pic word picPort wordPort targResp picTime wrdTime snd1 s1Port snd2 s2Port snd3 s3Port snd4 s4Port snd5 s5Port snd6 s6Port ;
pic picPort targResp picTime snd1 s1Port snd2 s2Port snd3 s3Port snd4 s4Port;
F 50 2 407 s 1 s 1 s 1 s 1 ;
T 100 1 453 s 1 s 1 s 1 s 1 ;
F 50 2 63 s 1 s 1 s 1 s 1 ;
F 50 2 457 s 1 s 1 s 1 Dd 3 ;
F 50 2 316 s 1 s 1 s 1 s 1 ;
F 50 2 49 s 1 Dd 3 s 1 s 1 ;
T 100 1 139 s 1 s 1 s 1 s 1 ;
F 50 2 273 Dd 3 s 1 s 1 s 1 ;
F 50 2 479 s 1 s 1 s 1 Dd 3 ;
F 50 2 482 s 1 s 1 s 1 s 1 ;
F 50 2 79 s 1 s 1 s 1 s 1 ;
F 50 2 485 Dd 3 s 1 s 1 s 1 ;
T 100 1 479 s 1 s 1 s 1 s 1 ;
F 50 2 243 s 1 Dd 3 s 1 s 1 ;
F 50 2 400 s 1 s 1 s 1 s 1 ;
F 50 2 71 s 1 s 1 s 1 Dd 3 ;
T 100 1 211 s 1 s 1 s 1 s 1 ;
F 50 2 458 Dd 3 s 1 s 1 s 1 ;
F 50 2 396 s 1 s 1 Dd 3 s 1 ;
F 50 2 480 Dd 3 s 1 Dd 3 s 1 ;
F 50 2 328 s 1 s 1 s 1 s 1 ;
F 50 2 18 Dd 3 s 1 s 1 s 1 ;
F 50 2 425 s 1 s 1 s 1 s 1 ;
T 100 1 467 s 1 s 1 Dd 3 s 1 ;
F 50 2 339 s 1 s 1 s 1 s 1 ;
F 50 2 379 s 1 s 1 Dd 3 s 1 ;
T 100 1 372 s 1 s 1 s 1 Dd 3 ;
F 50 2 196 s 1 s 1 s 1 s 1 ;
F 50 2 328 s 1 Dd 3 s 1 s 1 ;
F 50 2 86 s 1 s 1 s 1 s 1 ;
F 50 2 353 Dd 3 s 1 s 1 s 1 ;
F 50 2 16 Dd 3 s 1 s 1 s 1 ;
F 50 2 138 s 1 s 1 s 1 s 1 ;
T 100 1 23 Dd 3 s 1 s 1 s 1 ;
F 50 2 49 s 1 Dd 3 s 1 s 1 ;
F 50 2 412 s 1 s 1 s 1 s 1 ;
T 100 1 347 s 1 s 1 s 1 s 1 ;
F 50 2 159 s 1 s 1 s 1 s 1 ;
F 50 2 475 s 1 s 1 s 1 s 1 ;
F 50 2 17 s 1 s 1 s 1 s 1 ;
F 50 2 219 s 1 s 1 s 1 s 1 ;
F 50 2 191 s 1 s 1 s 1 s 1 ;
F 50 2 383 s 1 s 1 s 1 s 1 ;
T 100 1 398 s 1 s 1 s 1 s 1 ;
F 50 2 93 Dd 3 s 1 s 1 s 1 ;
F 50 2 245 Dd 3 s 1 Dd 3 s 1 ;
F 50 2 223 s 1 s 1 s 1 s 1 ;
F 50 2 323 s 1 s 1 s 1 s 1 ;
T 100 1 355 s 1 s 1 s 1 s 1 ;
F 50 2 377 s 1 s 1 s 1 Dd 3 ;
F 50 2 138 s 1 s 1 s 1 s 1 ;
T 100 1 340 s 1 s 1 s 1 s 1 ;
F 50 2 328 s 1 s 1 s 1 s 1 ;
F 50 2 81 s 1 Dd 3 s 1 s 1 ;
F 50 2 59 s 1 s 1 Dd 3 s 1 ;
T 100 1 249 s 1 s 1 s 1 Dd 3 ;
F 50 2 480 s 1 s 1 s 1 s 1 ;
F 50 2 170 s 1 s 1 s 1 s 1 ;
F 50 2 293 s 1 s 1 Dd 3 s 1 ;
F 50 2 112 s 1 s 1 s 1 s 1 ;
F 50 2 376 s 1 s 1 s 1 Dd 3 ;
F 50 2 128 s 1 s 1 s 1 s 1 ;
F 50 2 253 Dd 3 s 1 s 1 s 1 ;
T 100 1 350 s 1 Dd 3 s 1 s 1 ;
F 50 2 445 s 1 s 1 s 1 s 1 ;
T 100 2 480 s 1 s 1 s 1 s 1 ;
F 50 1 274 Dd 3 s 1 s 1 s 1 ;
T 100 1 69 s 1 s 1 s 1 s 1 ;
F 50 2 75 s 1 s 1 s 1 Dd 3 ;
F 50 2 129 s 1 s 1 s 1 s 1 ;
F 50 2 420 s 1 s 1 s 1 s 1 ;
F 50 2 127 s 1 s 1 s 1 s 1 ;
F 50 2 407 s 1 s 1 s 1 s 1 ;
F 50 2 122 s 1 s 1 s 1 s 1 ;
F 50 2 465 Dd 3 s 1 s 1 s 1 ;
T 100 2 175 s 1 s 1 s 1 s 1 ;
F 50 1 98 s 1 s 1 s 1 s 1 ;
F 50 2 126 s 1 s 1 s 1 s 1 ;
F 50 2 308 Dd 3 s 1 s 1 s 1 ;
F 50 2 237 s 1 s 1 s 1 Dd 3 ;
F 50 2 176 s 1 s 1 s 1 s 1 ;
F 50 2 415 s 1 s 1 s 1 s 1 ;
T 100 1 293 s 1 s 1 Dd 3 s 1 ;
F 50 2 275 s 1 s 1 s 1 s 1 ;
F 50 2 459 s 1 s 1 s 1 s 1 ;
F 50 2 143 s 1 s 1 s 1 s 1 ;
T 100 1 379 s 1 s 1 s 1 Dd 3 ;
F 50 2 377 s 1 s 1 s 1 s 1 ;
F 50 2 190 s 1 s 1 s 1 s 1 ;
F 50 2 284 s 1 s 1 s 1 s 1 ;
F 50 2 38 s 1 s 1 s 1 s 1 ;
F 50 2 27 s 1 s 1 s 1 s 1 ;
F 50 2 265 s 1 s 1 Dd 3 s 1 ;
F 50 2 390 s 1 s 1 s 1 s 1 ;
F 50 2 467 s 1 s 1 s 1 Dd 3 ;
T 100 1 65 s 1 Dd 3 s 1 s 1 ;
F 50 2 284 s 1 s 1 s 1 s 1 ;
F 50 2 235 s 1 s 1 s 1 s 1 ;
F 50 2 6 s 1 s 1 s 1 s 1 ;
F 50 2 169 s 1 s 1 Dd 3 s 1 ;
T 100 1 81 s 1 s 1 s 1 s 1 ;
F 50 2 397 s 1 s 1 s 1 s 1 ;
F 50 2 156 s 1 s 1 s 1 s 1 ;
F 50 2 264 s 1 s 1 s 1 s 1 ;
F 50 2 83 Dd 3 s 1 Dd 3 s 1 ;
T 100 1 301 s 1 s 1 s 1 s 1 ;
F 50 2 131 s 1 s 1 s 1 Dd 3 ;
F 50 2 327 s 1 Dd 3 s 1 s 1 ;
F 50 2 345 s 1 s 1 s 1 s 1 ;
T 100 1 374 s 1 s 1 s 1 s 1 ;
F 50 2 225 s 1 s 1 s 1 s 1 ;
F 50 2 42 s 1 s 1 s 1 s 1 ;
T 100 1 114 s 1 Dd 3 s 1 s 1 ;
F 50 2 457 Dd 3 s 1 s 1 s 1 ;
F 50 2 76 Dd 3 s 1 s 1 s 1 ;
F 50 2 413 s 1 s 1 s 1 s 1 ;
F 50 2 269 s 1 s 1 s 1 s 1 ;
F 50 2 498 s 1 s 1 Dd 3 s 1 ;
F 50 2 39 s 1 s 1 s 1 Dd 3 ;
F 50 2 221 s 1 s 1 s 1 s 1 ;
T 100 1 53 s 1 s 1 s 1 s 1 ;
F 50 2 481 s 1 s 1 s 1 s 1 ;
F 50 2 2 s 1 s 1 s 1 Dd 3 ;
F 50 2 387 s 1 s 1 s 1 s 1 ;
T 100 1 409 s 1 s 1 s 1 s 1 ;
F 50 2 434 s 1 s 1 s 1 s 1 ;
F 50 2 42 s 1 s 1 s 1 s 1 ;
F 50 2 200 s 1 Dd 3 s 1 s 1 ;
F 50 2 130 s 1 s 1 s 1 s 1 ;
T 100 1 400 s 1 s 1 s 1 s 1 ;
F 50 2 216 s 1 s 1 s 1 s 1 ;
F 50 2 455 s 1 s 1 s 1 s 1 ;
F 50 2 91 s 1 s 1 s 1 s 1 ;
F 50 2 132 s 1 Dd 3 s 1 s 1 ;
T 100 1 73 s 1 s 1 s 1 s 1 ;
F 50 2 68 Dd 3 s 1 s 1 s 1 ;
F 50 2 435 s 1 s 1 s 1 s 1 ;
F 50 2 290 s 1 s 1 s 1 s 1 ;
F 50 2 275 s 1 s 1 s 1 s 1 ;
F 50 2 72 s 1 s 1 s 1 s 1 ;
F 50 2 427 s 1 s 1 s 1 Dd 3 ;
T 100 1 311 s 1 s 1 s 1 Dd 3 ;
F 50 2 175 s 1 s 1 s 1 s 1 ;
F 50 2 257 Dd 3 s 1 s 1 s 1 ;
T 100 1 201 s 1 s 1 s 1 s 1 ;
F 50 2 38 s 1 s 1 s 1 s 1 ;
F 50 2 120 Dd 3 s 1 s 1 s 1 ;
T 100 1 62 s 1 s 1 Dd 3 s 1 ;
F 50 2 92 s 1 s 1 s 1 s 1 ;
F 50 2 120 s 1 s 1 s 1 s 1 ;
} ;
trial {
stimulus_event {
picture{ text { caption = "+";
font_size = 28;
font_color = 255,255,255;
};
x = 0; y = 0;
};
time = 2000;
duration = 1000;
port_code = 129;
};
};
|
1db653f9c8b24a4446b8df1bcafe1c9a21087e84 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3768/CH2/EX2.2/Ex2_2.sce | df87f0e2c3281feb5a4bdb21998ef093bb4faa5a | [] | 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 | 333 | sce | Ex2_2.sce | //Example number 2.2, Page number 32
clc;clear;
close;
// Variable declaration
N=6.02*10**23; // Avagadro Number
n=2;
rho=7860; // density(kg/m**3)
M=55.85; // atomic weight(amu)
// Calculation
a=(n*M/(rho*N))**(1/3)*10**8; // lattice constant(angstrom)
// Result
printf( "lattice constant is %.4f Angstrom",a)
|
fcbf9949ef1af18d173de49a0954e6f2dc664f93 | 1bb72df9a084fe4f8c0ec39f778282eb52750801 | /test/G01.prev.tst | b806da0796f6a75b0e11cc5b1d6693a7e5ab77c6 | [
"Apache-2.0",
"LicenseRef-scancode-unknown-license-reference"
] | permissive | gfis/ramath | 498adfc7a6d353d4775b33020fdf992628e3fbff | b09b48639ddd4709ffb1c729e33f6a4b9ef676b5 | refs/heads/master | 2023-08-17T00:10:37.092379 | 2023-08-04T07:48:00 | 2023-08-04T07:48:00 | 30,116,803 | 2 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 40 | tst | G01.prev.tst | S(a^2 + 2*a*b + b^2, a + b) = a^2 + a*b
|
906e1d7b499d67856f873c8faca14563df113c0a | 449d555969bfd7befe906877abab098c6e63a0e8 | /3556/CH11/EX11.14/Ex11_14.sce | 00161c97f702035e715a1b1a2fa6086b7dbbcac9 | [] | 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 | 1,333 | sce | Ex11_14.sce | clc
// Fundamental of Electric Circuit
// Charles K. Alexander and Matthew N.O Sadiku
// Mc Graw Hill of New York
// 5th Edition
// Part 2 : AC Circuits
// Chapter 11 : AC power Analysis
// Example 11 - 14
clear; clc; close;
//
// Given data
Z1 = complex(60*cosd(-30),60*sind(-30))
Z2 = complex(40*cosd(45),40*sind(45))
Vrms_mag = 120.0000;
Vrms_angle = 10.0000;
Vrms = complex(Vrms_mag*cosd(Vrms_angle),Vrms_mag*sind(Vrms_angle))
// Calculations I1 and I2
I1 = Vrms/Z1;
I2 = Vrms/Z2;
// Calculation S1, S2 and St
S1 = (Vrms_mag)^2/conj(Z1);
S2 = (Vrms_mag)^2/conj(Z2);
St = S1 + S2;
// Calculations Total Apparent Power
St_mag = norm(St);
// Calculations Total Real Power
Pt = real(St);
// Calculations Total Reactive Power
Qt = imag(St);
// Calculations Power Factor
pf = Pt/St_mag;
//
disp("Example 11-14 Solution : ");
printf(" \n a. St_mag = Total Apparent Power = %.3f VA",St_mag)
printf(" \n b. Pt = Total Real Power = %.3f Watt",Pt)
printf(" \n c. Qt = Total Reactive Power = %.3f VAR",Qt)
printf(" \n c. Pf = Power Factor = %.3f Lagging",pf)
|
18c81d87cf120990463a6da69e15b2cd15c1a360 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1092/CH4/EX4.10/Examlpe4_10.sce | 1389c299a25b35c415b3f8ec1a88e5f8036efc98 | [] | 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 | 2,024 | sce | Examlpe4_10.sce | // Electric Machinery and Transformers
// Irving L kosow
// Prentice Hall of India
// 2nd editiom
// Chapter 4: DC Dynamo Torque Relations-DC Motors
// Example 4-10
clear; clc; close; // Clear the work space and console.
// Given data
I_a_1 = 38 ; // Armature current in A @ full-load as per example 4-8a
E_c_1 = 109.4 ; // Back EMF in volt @ full-load as per example 4-8a
S_1 = 1800 ; // Speed in rpm @ full-load as per example 4-8a
I_a_2 = 19 ; // Armature current in A @ half-loadas per example 4-8a
E_c_2 = 113.2 ; // Back EMF in volt @ half-load as per example 4-8a
S_2 = 1863 ; // Speed in rpm @ half-load as per example 4-8a
I_a_3 = 47.5 ; // Armature current in A @ 125% overload as per example 4-8b
E_c_3 = 107.5 ; // Back EMF in volt @ 125% overload as per example 4-8b
S_3 = 1769 ; // Speed in rpm @ 125% overload as per example 4-8b
I_a_4 = 63.6 ; // Armature current in A @ overload as per example 4-9
E_c_4 = 104.3 ; // Back EMF in volt @ overload as per example 4-9
S_4 = 1532 ; // Speed in rpm @ overload as per example 4-9
// Calculations
P_d_1 = E_c_1 * I_a_1 ; // Armature power developed @ full-load
P_d_2 = E_c_2 * I_a_2 ; // Armature power developed @ half-load
P_d_3 = E_c_3 * I_a_3 ; // Armature power developed @ 125% overload
P_d_4 = E_c_4 * I_a_4 ; // Armature power developed @ overload
// Display the results
disp(" Example 4-10 Solution : ");
printf("\n Example \t Ia \t Ec \t Speed \t Pd or (Ec*Ia)");
printf("\n _______________________________________________________________________");
printf("\n 4-8a \t\t %d \t %.1f \t %d \t %d W at full-load ", I_a_1,E_c_1,S_1,P_d_1);
printf("\n 4-8a \t\t %d \t %.1f \t %d \t %.1f W at half-load ",I_a_2 , E_c_2 , S_2 , P_d_2);
printf("\n 4-8b \t\t %.1f \t %.1f \t %d \t %d W at 125 percent overload ",I_a_3,E_c_3,S_3,P_d_3);
printf("\n 4-9 \t\t %.1f \t %.1f \t %d \t %d W at overload ",I_a_4,E_c_4,S_4,P_d_4);
printf("\n _______________________________________________________________________");
|
16baa86694f93f21c39d3afc8cfac31bf1c00f17 | f7e335e2af57c686554eb057f28ddd8d21aab1e4 | /tests/fuzz/rule/0007.tst | 3de3302801646b4b31eb0718581cc0ffa0198abd | [
"MIT"
] | permissive | scravy/abnf | 76515bd820b3b9d8e2dbc2cec2a2f845720a6022 | cc4228f403b436cc4e34ff4d6a7def83922174be | refs/heads/master | 2023-01-09T14:30:50.095268 | 2020-06-07T16:18:09 | 2020-06-07T16:18:09 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 41 | tst | 0007.tst | Y
=;
5(%d9
"" 13415614b);
|
ab16582b4990ab8859c12912ef0348506d920ccd | 48355d97461898b3f45c6ade638f3d55ba879607 | /scilab/mota_motp_results.sce | bf83deb0b76303c7999d89d55de398760acc4e5d | [
"MIT"
] | permissive | edison2301/pipol_tracker | 5756a7f79f3fe7f022b595cf70cb31ef771d1eb2 | 5056dd3858cdb5139373862da220082191301d2c | refs/heads/master | 2021-01-15T12:31:21.679183 | 2015-07-10T16:11:02 | 2015-07-10T16:11:02 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 3,110 | sce | mota_motp_results.sce |
//20140925_FollowMe_tree_all_20hz_*.txt
motpA1 = [0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.14];
motaA1 = [0.55 0.79 0.67 0.78 0.64 0.77 0.69 0.60 0.74 0.61 0.73 0.75];
//20140925_FollowMe_tree_LegCam_20hz_*.txt
motpA2 = [0.11 0.11 0.11 0.10 0.11 0.11 0.11 0.11 0.11 0.11];
motaA2 = [0.62 0.45 0.75 0.73 0.58 0.70 0.65 0.69 0.55 0.61];
//20140925_FollowMe_tree_LegKin_20hz_*.txt
motpA3 = [0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15];
motaA3 = [0.71 0.71 0.70 0.72 0.71 0.71 0.72 0.72 0.72 0.72];
//20140925_FollowMe_nn_all_20hz_*.txt
motpA4 = [0.15 0.14 0.14 0.15 0.15 0.14 0.15 0.14 0.15 0.15];
motaA4 = [0.32 0.41 0.38 0.69 0.10 -0.13 0.32 0.37 0.59 0.39];
//20140925_robotMoving_tree_all_20hz_*.txt
motpB1 = [0.14 0.15 0.15 0.15 0.15 0.16 0.15 0.15 0.15 0.15];
motaB1 = [0.30 0.23 0.30 0.32 0.39 0.26 0.33 0.49 0.12 0.31];
//20140925_robotMoving_tree_LegCam_20hz_*.txt
motpB2 = [0.16 0.16 0.21 0.16 0.16 0.19 0.18 0.19 0.20 0.16];
motaB2 = [0.26 0.20 0.17 0.24 0.26 -0.03 0.09 0.07 0.09 0.18];
//20140925_robotMoving_tree_LegKin_20hz_*.txt
motpB3 = [0.15 0.15 0.15 0.15 0.14 0.14 0.14 0.14 0.14 0.14];
motaB3 = [0.33 0.36 0.23 0.30 0.29 0.39 0.36 0.30 0.31 0.33];
//20140925_robotMoving_nn_all_20hz_*.txt
motpB4 = [0.16 0.15 0.15 0.15 0.16 0.15 0.15 0.15 0.15 0.15];
motaB4 = [-0.13 0.12 0.31 0.13 0.11 0.37 0.13 0.26 0.36 0.40];
//20140926_twoPeople_tree_all_20hz_*.txt
motpC1 = [0.16 0.16 0.16 0.16 0.16 0.16 0.16 0.16 0.15 0.16];
motaC1 = [0.67 0.66 0.72 0.68 0.70 0.66 0.71 0.52 0.70 0.56];
//20140926_twoPeople_tree_LegCam_20hz_*.txt
motpC2 = [0.15 0.14 0.14 0.14 0.14 0.14 0.13 0.14 0.14 0.14];
motaC2 = [0.36 0.41 0.44 0.39 0.19 0.37 0.29 0.36 0.42 0.008];
//20140926_twoPeople_tree_LegKin_20hz_*.txt
motpC3 = [0.14 0.16 0.16 0.16 0.16 0.15 0.16 0.15 0.16 0.16];
motaC3 = [0.26 0.65 0.70 0.63 0.71 0.67 0.57 0.68 0.50 0.73];
//20140926_twoPeople_nn_all_20hz_*.txt
motpC4 = [0.15 0.16 0.15 0.15 0.16 0.15 0.15 0.15 0.15 0.15];
motaC4 = [0.47 0.74 0.48 0.47 0.44 0.49 0.78 0.49 0.50 0.72];
disp("************** A: FollowMe **************");
disp("motpA1: "); disp(mean(motpA1));
disp("motaA1: "); disp(mean(motaA1));
disp("motpA2: "); disp(mean(motpA2));
disp("motaA2: "); disp(mean(motaA2));
disp("motpA3: "); disp(mean(motpA3));
disp("motaA3: "); disp(mean(motaA3));
disp("motpA4: "); disp(mean(motpA4));
disp("motaA4: "); disp(mean(motaA4));
disp("************** B: RobotMoving **************");
disp("motpB1: "); disp(mean(motpB1));
disp("motaB1: "); disp(mean(motaB1));
disp("motpB2: "); disp(mean(motpB2));
disp("motaB2: "); disp(mean(motaB2));
disp("motpB3: "); disp(mean(motpB3));
disp("motaB3: "); disp(mean(motaB3));
disp("motpB4: "); disp(mean(motpB4));
disp("motaB4: "); disp(mean(motaB4));
disp("************** C: TwoPeople **************");
disp("motpC1: "); disp(mean(motpC1));
disp("motaC1: "); disp(mean(motaC1));
disp("motpC2: "); disp(mean(motpC2));
disp("motaC2: "); disp(mean(motaC2));
disp("motpC3: "); disp(mean(motpC3));
disp("motaC3: "); disp(mean(motaC3));
disp("motpC4: "); disp(mean(motpC4));
disp("motaC4: "); disp(mean(motaC4));
|
83fa969a799fa8a778374de30ca1ca730f8d6549 | 449d555969bfd7befe906877abab098c6e63a0e8 | /668/CH9/EX9.3/eg9_3.sce | 7490ea8ea8681961dfdd669d57823b554e41f0c3 | [] | 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 | 721 | sce | eg9_3.sce | Na = 3*10^16;
t = 500*10^-8;
Vfb = -1.13;
T = 300;
kT = 26*10^-3; //in eV
q = 1.6*10^-19;
ni = 1.5*10^10;
eps0 = 8.85*10^-14; //in F/m
eps = 11.9*eps0;
eps1 = 3.9*eps0;
c = 10^11;
phiF = kT*log(Na/ni);
disp(phiF,"The position of the Fermi level (in V) is given by (measured from the intrinsic Fermi level)")
Qs = (4*eps*phiF*q*Na)^0.5;
disp(Qs,"Under the assumption that the charge Qs is simple NaW where W is the maximum depletion width, we get Qs (in C per cm2)= ")
Vt = Vfb+2*phiF+(Qs*t/eps1);
disp(Vt,"In the absence of any oxide charge, the threshold voltage (in V) = ")
dVt = c*q*(t/eps1);
disp(dVt,"In the case where the oxide has trap charges, the threshold voltage is shifted by ΔVT (in V)= ") |
765a63edbffd69a418f4f2b16f32d5f54d1c37e6 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1862/CH7/EX7.2/C7P2.sce | bf7d0e4ed19dab08ce8edd2c574074ece183ce71 | [] | 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 | 2,794 | sce | C7P2.sce | clear
clc
//to find center of mass of system
//to find acceleration of center of mass
// GIVEN::
//refer to figure 7-10(a) fron page no. 144
//consider +ve x direction as our reference axis
//mass of first partical
m1 = 4.1//in kg
//mass of second partical
m2 = 8.2//in kg
//mass of third partical
m3 = 4.1//in kg
//from figure 7-20(a)
//x coordinate of first partical
x1 = -2//in cm
//y coordinate of first partical
y1 = 3//in cm
//x coordinate of second partical
x2 = 4//in cm
//y coordinate of second partical
y2 = 2//in cm
//x coordinate of third partical
x3 = 1//in cm
//y coordinate of third partical
y3 = -2//in cm
//magnitude of first external force
F1 = -6//in N //since acting in -ve x direction
//magnitude of second external force
F2 = 12//in N
//magnitude of third external force
F3 = 14//in N
// SOLUTION:
//refer to figure 7-10(a) and 7-10(b) fron page no. 144
//assuming all external forces are applied at center of mass
//total mass of system
M = m1 + m2 + m3//in kg
//applying center of mass formula
//x coordinate of center of mass
x_cm = (1/M)*(m1*x1 + m2*x2 + m3*x3)//in cm
//y coordinate of center of mass
y_cm = (1/M)*(m1*y1 + m2*y2 + m3*y3)//in cm
//refer to figure 7-10(b)
//component of force F1 in x direction
F1x = F1//in N
//component of force F2 in x direction
F2x = F2*cosd(45)//in N
//component of force F3 in x direction
F3x = F3//in N
//component of force F1 in y direction
F1y = 0//in N
//component of force F2 in y direction
F2y = F2*sind(45)//in N
//component of force F3 in y direction
F3y = 0//in N
//x component of net external force acting on the center of mass
SUM_fextx = F1x + F2x + F3x//in N
//y component of net external force acting on the center of mass
SUM_fexty = F1y + F2y + F3y//in N
//magnitude of net external force acting on the center of mass
SUM_Fext = sqrt(SUM_fextx^2 + SUM_fexty^2)//in N
//direction in which net force acts
fi = atand(SUM_fexty/SUM_fextx)//in degrees with x axis
//acceleration of center of mass
a_cm = SUM_Fext/(M)//in m/s^2
SUM_Fext = nearfloat("succ",18.6)
printf ("\n\n x coordinate of center of mass x_cm = \n\n %.1f cm",x_cm);
printf ("\n\n y coordinate of center of mass y_cm = \n\n %.1f cm",y_cm);
printf ("\n\n Magnitude of net external force acting on the center of mass in x direction SUM_fextx = \n\n %.1f N",SUM_fextx);
printf ("\n\n Magnitude of net external force acting on the center of mass in y direction SUM_fexty = \n\n %.1f N",SUM_fexty);
printf ("\n\n Magnitude of net external force acting on the center of mass SUM_Fext = \n\n %.1f N",SUM_Fext);
printf ("\n\n Direction in which net force acts with x axis fi = \n\n %2i degrees",fi);
printf ("\n\n Acceleration of center of mass a_cm = \n\n %.1f m/s^2",a_cm);
|
2c71473fc3446a8040baa8378e730afe7b8e69ff | fbd17575bab2ee4dc49cc7d13b5b94d24ab9482c | /TP5/test_ex1.sci | 1175f3af2d7d32d5280d842e8ede3af05eb5bc83 | [] | no_license | 1saac-W/MT09-Analyse-Num-rique | 05b509981dfa00e3b7b550716b1487cbbf0a3fed | 0853f8053254f5dd23179073187ada3d936aff84 | refs/heads/master | 2020-09-27T04:34:36.549125 | 2020-01-05T16:02:18 | 2020-01-05T16:02:18 | 226,431,201 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 179 | sci | test_ex1.sci | exec './Newton.sci';
function [F, J] = mafoncjacf1(x)
F = x - cos(x);
J = 1 + sin(x);
endfunction
tol = 1e-6;
N = 1000;
x0 = 0;
[x, k] = newton(mafoncjacf1, tol, N, x0);
|
bb48abc1fc81d9a940aed37a357798ed601abaeb | 449d555969bfd7befe906877abab098c6e63a0e8 | /3808/CH7/EX7.3/Ex7_3.sce | c8b0603b0479bb9f27eb168f9b2388b8a744ad29 | [] | 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 | 882 | sce | Ex7_3.sce | //Chapter 07: Discrete Probability
clc;
clear;
//Part a
no_four_digits=10**4 //no of ways to choose 4 digits by the product rule
//since only 1 entry is correct and wins the prize ,it is inferred that there is only 1 possible way to choose all the digits correctly
no_correctentry=1 //no of ways to choose all 4 digits correctly
prob_winning=no_correctentry/no_four_digits //probability of player winning the large prize
disp(,prob_winning,'Probability that a player wins the large prize is')
//Part b
//to win small prize player must correctly choose exactly 3 of 4 digits
no_correctentry=36 //no of ways to choose 4 digits with exactly three of the four being correct
prob_winning=no_correctentry/no_four_digits //probability of player winning small prize
disp(,prob_winning,'Probability that a player wins the small prize is')
|
bf09fc39ee094032701d36ab2b93b3c72a401679 | 449d555969bfd7befe906877abab098c6e63a0e8 | /605/CH6/EX6.1/6_1.sce | ed37f211bb1c2ad2498120a3d5e8384de0e4e8a6 | [] | 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 | 515 | sce | 6_1.sce |
//data
Zo=100
ZL=complex(50,-75)
B=2*%pi
XL=-0.75
RL=0.5
Y_L=Zo/ZL
//formulas and result
printf("\nresult:-")
G_L=real(Y_L)
B_L=imag(Y_L)
disp(Y_L,"Y_L=")
A=G_L*(G_L-1)+B_L^2
printf("\nA=%.4f",A)
ds=1/B*atan((XL+sqrt(XL^2-A*(1-RL)))/A)
printf("\nds=%f*lambda",ds) //calculation mistake in book
ds=1/B*atan((XL-sqrt(XL^2-A*(1-RL)))/A)
printf("\nds=%f*lambda",ds)
X_s=-1.2748
Ls=1/B*acot(X_s)
printf("\nLs=%f*lambda",Ls)
X_s=1.2748
Ls=1/B*acot(X_s)
printf("\nLs=%f*lambda",Ls) |
0aecf11ab86dee9e6c9a63f47a5d781f7aae0afb | 449d555969bfd7befe906877abab098c6e63a0e8 | /2330/CH7/EX7.3/ex7_3.sce | e92c42073bd1de408b908b8ab2f7499a8e7d78f2 | [] | 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 | 495 | sce | ex7_3.sce | // Example 7.3
format('v',5)
clc;
clear;
close;
// given data
R_E= 430;// in Ω
R_L= 100;// in Ω
R1= 10*10^3;// in Ω
R2= 10*10^3;// in Ω
bita= 200;// unit less
r_e= 2.5;// in Ω
r_L= R_E*R_L/(R_E+R_L);// in Ω
// The voltge gain
A= r_L/(r_L+r_e);
disp(A,"The voltge gain is : ")
Zin_base= bita*(r_L+r_e);// in Ω
// The input impedence
Zin= R1*R2*Zin_base/(R1*R2+R2*Zin_base+Zin_base*R1);// in Ω
Zin= Zin*10^-3;// in k ohm
disp(Zin,"The input impedence in kΩ is : ")
|
992cfa8e3b9dfe746b9b9b54404ff8a8a21e328f | 449d555969bfd7befe906877abab098c6e63a0e8 | /2741/CH10/EX10.6/ExampleA6.sce | 945e4a48b59f9de9f801bec0edf4a724edbe6fc4 | [] | 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 | 725 | sce | ExampleA6.sce | clc
clear
//Page number 472
//Input data
n=3*10^25;//The number of molecules per cubic metre
d=3.6*10^-10;//The diameter of oxygen molecule in m
M=32;//Molecular weight of oxygen
N=6.023*10^26;//Avogadro number
k=1.38*10^-23;//Boltzmans constant in J/K
T=273;//The temperature at NTP in K
pi=3.14;//The mathematical constant of pi
//Calculations
m=M/N;//The mass of oxygen atom in kg
V=((8*k*T)/(pi*m))^(1/2);//Average speed of oxygen molecule at 273K in m/s
c=pi*d^2*V*n;//The collision frequency of the molecules
l=1/(pi*d^2*n);//The mean free path in m
//Output
printf('(a)The collision frequency of the molecules is %3.2g collisions/second \n (b)The mean free path is %3.4g m ',c,l)
|
47a8da54b5e0c73c5b79d0409383a067ae7d49a1 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3161/CH6/EX6.2/Ex6_2.sce | d637959eb4f20d7af6011ec42287adbd8a9ed82a | [] | 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 | 1,156 | sce | Ex6_2.sce | clc;
//page 341
//problem 6.2
//From Ex6_1 the obtained carrier amplitude is c
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//For DPSK
//Considering the initial value of the storage element to be 0 in polar and -1 in biploar
c = [1,1,-1,1,1];
y = -1;
//Let the output be y
for i = 2:5
y(i) = c(i)*c(i-1);
end
//Converting back to binary data
for i = 1:5
if y(i)== -1 then
output_binary(i) = 0;
else
output_binary(i) = 1;
end
end
//Now inverting the output we get:
for i = 1:5
output_binary(i) = ~output_binary(i);
end
disp(output_binary,'The DPSK output is');
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//For DEPSK
//From example Ex6_1, we have b when initial storage value is assumed to be 1
b = [1,1,0,1,1];
//Output y
y = 1;
for i = 2:5
y(i) = bitxor(b(i),b(i-1));
end
disp(y,'The DEPSK output is');
|
94d4160fb3c809f684476a0f1c55a5a76316f10e | 449d555969bfd7befe906877abab098c6e63a0e8 | /61/CH16/EX16.6/ex16_6.sce | 056dc16c77c492799136a3b4702e2dd8ab9fcd2b | [] | 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 | 216 | sce | ex16_6.sce | //ex16.6
R1=2.2*10^3;
R2=4.7*10^3;
C_ext=0.022*10^-6;
f_r=1.44/((R1+2*R2)*C_ext);
disp(f_r,'frequency of the 555 timer in hertz')
duty_cycle=((R1+R2)/(R1+2*R2))*100;
disp(duty_cycle,'duty cycle in percentage') |
fd9e661c93a6f1cc1e2341545826897faec4768e | 449d555969bfd7befe906877abab098c6e63a0e8 | /662/CH9/EX9.12/example9_12.sci | 20698b3a0cb7413175848e1fffa2008319eaa89d | [] | 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 | 1,025 | sci | example9_12.sci | //Programming Example 9.12
//passing a variable along with an array to the function
a = 1; //global variable
function[] = main()
b = 2; //local variable
printf("\nFrom main, before calling the function: \n");
printf("a = %d b = %d\n", a, b);
for count = 1:3
c(count) = 10*(count+1);
printf("c[%d] = %d\n", count, c(count));
end
c=modify(b,c);
printf("\n From main, after calling the function: \n ");
printf("a = %d b = %d\n", a, b);
for count =1:3
printf("c[%d] = %d\n", count, c(count));
end
endfunction
function[c] = modify(b,c) //function definition
printf("\n From the function, after modifying the values: \n");
a=-999;
b=-999;
printf("a = %d b = %d\n", a, b);
for count =1:3
c(count)=-9;
printf("c[%d] = %d\n", count, c(count));
end
return c;
endfunction
//calling main()
funcprot(0);
main(); |
e257aaa6e363c8446522ae786441fddaf99b96da | 449d555969bfd7befe906877abab098c6e63a0e8 | /67/CH2/EX2.2/example22.sce | 7c27cc5b591ab91f51274ac29f28027d1a39198b | [] | 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 | 366 | sce | example22.sce | //Example 2.2
clc;
t=-8:1/100:8;
for i=1:length(t)
if t(i)<0 then
x(i)=0;
h(i)=0;
else
x(i)=exp(-3.*t(i));
h(i)=1;
end
end
t1=t+1;
y=convol(x,h);
figure
plot2d(t1,h);
title('Impulse responce');
figure
plot2d(t,x);
title('Input signal');
figure
t2=-16:1/100:16
plot2d(t2,y);
title('Output signal'); |
b59f4c97796f72f9a25d414c19742815a67ed4ab | b29e9715ab76b6f89609c32edd36f81a0dcf6a39 | /ketpic2escifiles6/Phrawparadata.sci | c4c79c26398917e5580523068bb70f75691fd880 | [] | 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 | 118 | sci | Phrawparadata.sci | // 08.08.21
// 09.10.27
function Out=Phrawparadata(VL,FaceL)
Out=Facesdata(list(VL,FaceL),'rawpara');
endfunction
|
36eb4e90d579adccc28b946495125a8e5e949469 | 449d555969bfd7befe906877abab098c6e63a0e8 | /416/CH2/EX2.2/exp2_2pp.sce | 16483d5a6297e62cd10963c545526acc34a5ec0b | [] | 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 | 1,953 | sce | exp2_2pp.sce | clc
disp("example 2.2")
disp("(a)");
mca=1.1;cla=2.5;mcb=1;clb=3; //mca=maximum demand of consumera;cla=connected load of a;mcb=maximum load of consumer b;clb=connected load of consumer b
printf("maximum demand of consumer A =%1fkW \n \ndemand factor of consumer A =%2f \n \nmaximum demand of consumer B =%dkW\n \ndemand factor of consumer B = %2f",mca,mca/cla,mcb,mcb/clb)
disp("(b)")
printf("The variation in demand versus time curves are plotted and shown in Fig This is known as chonological load curve.")
A=[100*ones(1,5),1100*ones(1,1),200*ones(1,2),0*ones(1,9),500*ones(1,7)]
B=[0*ones(1,7),300*ones(1,1),1000*ones(1,2),200*ones(1,8),600*ones(1,5),0*ones(1,1)]; //time line of different periods by a and b consumers
t=1:1:24 ;//for 24 hours ploting
ma=max(A);mb=max(B);
subplot(121); //matrix plotting
plot2d2(t,A,1);
plot2d2(t,B,2);
xtitle("load curves of A and B/ fig 1","time","load watts")
C=A+B;
subplot(122);
plot2d2(t,C,1);
xtitle("chronological load of group / fig 2","time","load watts")
mg=max(C); //maximum demand of group
disp("(c)")
printf("maximum demand of the group is %dW",mg);
gd=(ma+mb)/mg;
printf("group diversity factor = %3f",gd) ; //group diversity factor is sum of individual maximum consumaer load to the group max load
disp("(d)")
sa=sum(A)
printf("energy consumed by A during 24 hours is =%dWh",sa)
printf("\nit is seen that energy consumed by A is equal to the area under the chronological load curve of A \n energy consumed by B during 24 hours is")
sb=sum(B);
printf("300x1+100x2+200x8+600x5=%dWh",sb);
disp("(e)");
printf("maximum energy which A could consume in 24hours = %.2fkWh \nmaximum energy which B consume in 24 hours is =%.2fkWh",mca*24,mcb*24 );
disp("(f)");
printf("actual energy/maximum energy");
mca=mca*10^3;mcb=mcb*10^3
aemea=sa/(mca*24)
aemeb=sb/(mcb*24)
printf("\nfor A = %d/%d =%f \nfor b =%d/%d =%f",sa,mca*24,sa/(mca*24),sb,mcb*24,aemeb); |
203b4ed91b76962442e7be34d47e9a542ce135a2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /788/CH5/EX5.5.a/5_5_data.sci | 67fed0ee32e43c7c86bdd865b51f078a0600828a | [] | 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 | 400 | sci | 5_5_data.sci | // Aim:Refer Example 5-5 for Problem Description
// Given:
// for Fixed Displacement pump:
// pump delivery pressure:
Pd_f=1000; //psi
// pump flow rate:
Q_f=20; //gpm
// oil leakge after cylinder is fully extended:
Ql_f=0.7; //gpm
// pressure relief valve setting:
p=1200; //psi
// for Pressure Compensated pump:
// pump flow rate:
Q_p=0.7; //gpm
// pressure relief valve setting:
P=1200; //psi
|
3c2f9a0e309dbee1c73030a2a7e7a1831e8a22a4 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2321/CH6/EX6.6.1/EX6_6_1.sce | c4a8147e747fb57e92c5f60c38df8ce741eea1fd | [] | 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 | 329 | sce | EX6_6_1.sce | //Example No. 6.6.1
clc;
clear;
close;
format('v',5);
n=80;//(no. of elements)
N=1;//for first null
//d=lambda/2;(spacing)
dBYlambda=1/2;//(spacing/wavelength)
fi01=acosd(N/n/dBYlambda);//degree(Angle)
Null_1st=(%pi/2*180/%pi)-fi01;//degree(First Null)
disp(Null_1st,"Location of 1st null from maxima in degree : ");
|
19b622d18ca37df99b43528bffba342778eb3eb5 | 449d555969bfd7befe906877abab098c6e63a0e8 | /680/CH10/EX10.06/10_06.sce | bd9295e805666c93b57fe8e80a03fb51f2034daa | [] | 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 | 1,528 | sce | 10_06.sce | //Problem 10.06:
//initializing the variables:
//calculation:
//TThe standard heat of combustion for chlorobenzene is obtained from the heats of formation data in Table 10.1. Since
//C6H5Cl + 7O2 ---> 6CO2 + 2H2O + HCl(g)
DH0c = 6*(-94052) + 2*(-57789) - 22063 - 12390
//This stoichiometric reaction is now written for combustion in air. First note that there are 7.0(79/21) or 26.33 lbmol of nitrogen present in the theoretical combustion air
//C6H5Cl + 7O2 + [26.33N2] ---> 6CO2 + 2H2O(g) + HCl(g) + [26.33N2]
//The heat capacity for the flue gas products in the form
//CP = a + b*T + r*T^2
Da = 230.305
Db = 0.1003175
Dr = -20.36033E-6
//DCp = Da + Db*T + Dr*T^2 cal/gmol.K or Btu/lbmol.degR
//Equation (10.22) applies in calculating the adiabatic flame temperature. The energy liberated \non combustion appears as sensible energy in heating the flue (product) gas. The sum of \nthese two effects is zero if the operation is conducted adiabatically, i.e.,
//DH0c + DHp = DH = 0
//Since 25 degC = 298K, the enthalpy change associated with heating the flue products is given by
//DHp = int(298,T)[DCp]dT
//T = theoretical adiabatic temperature (K)
//Substituting DCp obtained previously and integrating yields
//DHp = Da*(T - 298) + (Db/2)*(T^2 - 298^2) - Dr*(T^3 - 298^3)
DH0c = -714361 // cal/gmol
DH0p = -1*DH0c
//by solving the equation trial and error method
T = 2511.5 // K
Tf = 4061 // deg F
printf("\n\nResult\n\n")
printf("\n theoretical adiabatic flame temperature is %.0f degF",Tf)
|
039de94560dbcd8f475826609f33c3fdc18346ab | 449d555969bfd7befe906877abab098c6e63a0e8 | /542/CH6/EX6.5/Example_6_5.sci | 092ce62860db9678133412d2ab8ae07090e4ce8b | [] | 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 | 1,388 | sci | Example_6_5.sci | clear;
clc;
printf("\n Example 6.5");
gas_flow_rate =0.2; //units are in kg/m^2
c = 0.88; //specific heat capacity of air is kj/kg K
viscosity = 0.015*10^(-3);//viscosity is in Ns/m^2
d = 0.25*10^(-3); //particle size is in meters
k = 0.03; //thermal conductivity is in W/m K
e = 0.57; //e is voidage
T = [339.5;337.7;335.0;333.6;333.3;333.2]; //temperature is in kelvins
deltaT = T - 333.2;
h = [0;0.64;1.27;1.91;2.54;3.81];
xtitle("temperature rise as a function of bed height","height above bed support(mm)","deltaT(K)");
plot(h,deltaT,'o-');
//Area under the curve gives the value of the heat teansfer integral =8.82mm K
q = 0.2*0.88*(339.5-332.2);
printf("\n heat transferred = %.2f kw/m^2 of bed cross sectional area",q);
//Assuming 1m^3 volume
Vp = (1-0.57); //Volume of particles is in m^3
printf("\n Volume of particles is %.2f m^3",Vp)
v1 = (%pi/6)*d^3; //Volume of 1 particle in m^3
printf("\n Volume of 1 particle is %.2f*10^(-12) m^3",v1*10^(12));
printf("\n number of particles is %.2f*10^(10)",Vp/v1*10^(-10));
x =poly([0],'x');
h = roots(1100 - x*(1.03*10^4)*(8.82*10^(-3)));
printf("\n heat transfer coefficient = %.1f W/m^2",h);
//Nu = 0.11Re^(1.28)
Re = (0.2*0.25*10^(-3))/(0.015*10^(-3));
h1 = 0.11*(Re)^(1.28)*k/d;
printf("\n h = %.1f W/m^2 K",h1);
|
af220f8797e5f594043748db26787c835f845b1f | 449d555969bfd7befe906877abab098c6e63a0e8 | /3630/CH7/EX7.9/Ex7_9.sce | 7c30acd0206f6800eb4db1c1bf47c8f06b5f1ea2 | [] | 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 | 414 | sce | Ex7_9.sce | clc;
Vcc=20; //volt
R2=10000; //Ohm
R1=68000; //ohm
Vth=(R2/(R1+R2))*Vcc; //volt//by voltage divider rule Thevenin
Rth=(R1*R2)/(R1+R2); //ohm
Vbe=0.7; //Volt
Hfe=50;
Re=1100; //Ohm
Rc=6200; //Ohm
Icq=(Vth-Vbe)/((Rth/Hfe)+Re); //Ampere
Vceq=Vcc-Icq*(Rc+Re); //Volt
disp('mA',Icq*1000,"Icq=");//The answers vary due to round off error
disp('V',Vceq,"Vceq=");//The answers vary due to round off error
|
757f14395d6f7ec316a2230fb36a02a254b6bf2a | 449d555969bfd7befe906877abab098c6e63a0e8 | /3831/CH7/EX7.1/Ex7_1.sce | 8fc6040e4910495aaceba0e69d9c2326ec5bf282 | [] | 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 | sce | Ex7_1.sce | // Example 7_1
clc;funcprot(0);
// Given data
T_L=70.0;// °F
T_H=4000.0;// °F
// Solution
n_T_max=(1-((T_L+459.67)/(T_H+459.67)))*100;// The maximum possible thermal efficiency of this engine in %
printf('\nThe maximum possible thermal efficiency of this engine,(n_T)_max=%2.1f percentage',n_T_max);
|
00884fff82b5e1b500f2f5657a96fcdb7189f870 | d1a2737ec744ffbba1165afa7b05f26a4076f513 | /Lab 3/TrnPos.sci | 0d676ff2b8c4526c76caa93c400d92f8c468a278 | [
"MIT"
] | permissive | ipsitmantri/EE-324-Control-Systems-Lab | 4e37a3de51f4114ba0ea281cbb1da78a6c4815bb | b34c45efc3539005603b2e76c1665d6636f80f88 | refs/heads/master | 2023-04-03T10:42:34.548542 | 2021-04-13T14:11:21 | 2021-04-13T14:11:21 | 357,540,595 | 2 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 565 | sci | TrnPos.sci | function [rise_time, pos] = TrnPos(t, sl)
outputs = csim('step', t, sl);
ss_val = outputs(size(outputs, 2));
peak_val = max(outputs);
for i=1:size(outputs, 2)
if(abs(0.1 * ss_val - outputs(i)<= 1e-4))
rise_time_low = t(i);
break;
end
end
for i=1:size(outputs, 2)
if(abs(0.9 * ss_val - outputs(i)<= 1e-4))
rise_time_high = t(i);
break;
end
end
rise_time = rise_time_high - rise_time_low;
pos = (peak_val - ss_val) / ss_val * 100;
endfunction
|
9a95e8dc4db3621bbcf236b35927d8135b054799 | 449d555969bfd7befe906877abab098c6e63a0e8 | /24/CH9/EX9.1/Example9_1.sce | 1f2af4042f53e446477bf0e6c85ac7755d404ef1 | [] | 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 | 360 | sce | Example9_1.sce | exec("degree_rad.sci",-1)
//Given that
m1 = 1.2 //in kg
m2 = 2.5 //in kg
m3 = 3.4 //in kg
a = 140 //in cm
//Sample Problem 9-1
printf("**Sample Problem 9-1**\n")
r1 = [0, 0]
r2 = [a, 0]
r3 = [a*cos(dtor(60)), a*sin(dtor(60))]
Rc = (m1*r1 + m2*r2 + m3*r3)/(m1 + m2 + m3)
printf("The co-ordinate of center of mass are (%f, %f)", Rc(1), Rc(2)) |
1b326d4f116eb53d085365e6837c932097e53391 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3673/CH8/EX8.a.7/Example_a_8_7.sce | 9b6c23a47ae3c6bb704ab113e6664f0e6430845a | [] | 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 | 525 | sce | Example_a_8_7.sce | //Example_a_8_7 page no:329
clc;
V=5;
I=0.1;
L=0.1;
C=5*10^-6;
R=V/I;
omega_r=1/sqrt(L*C);
fr=omega_r/(2*%pi);
Q=omega_r*L/R;//in text book the Q value is wrong but correct value is used in calculation of BW
BW=fr/Q;//BW value varies slightly hence Q value is rounded off in text book
disp(R,"the value of resistance at resonance is (in ohm)");
disp(fr,"the resonant frequency is (in Hz)");
disp(Q,"the quality factor is ");
disp(BW,"the bandwidth is (in Hz)");
//calculation of Q value is wrong in text book
|
8038f459b416803e44432a0d1cd7cc9a7fb068a0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3869/CH1/EX1.28/Ex1_28.sce | d98865686acad38205d85318d002f9ec20f68e67 | [] | 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 | 451 | sce | Ex1_28.sce | clear
//
//
//
//Variable declaration
i=60*%pi/180 //angle of incidence(radian)
mew=1.33 //refractive index
t=1.5*10**-6 //thickness(m)
lamda=5*10**-7 //wavelength(m)
//Calculation
r=(180/%pi)*asin(sin(i)/mew) //angle of reflection(degrees)
r=(r)*%pi/180 //angle of reflection(degrees)
n=2*mew*t*cos(r)/lamda //order of interference
//Result
printf("\n order of interference is %0.3f ",n)
|
adfbca22c2d569e7bceaf23dcf5d3b050192f155 | 449d555969bfd7befe906877abab098c6e63a0e8 | /409/CH20/EX20.3/Example20_3.sce | bc4e9802a7de653916344d0a12ce783864220164 | [] | 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 | 905 | sce | Example20_3.sce | clear ;
clc;
// Example 20.3
printf('Example 20.3\n\n');
//page no. 596
// Solution
//Given
G = 1000 ;// Volume of solution - [L]
x = [19.2,17.2,12.6,8.6,3.4,1.4] ;// concentration of solute- [g/L]
ac = [0,0.01,0.04,0.08,0.20,0.40] ;// Activated charcoal added-[g/1000g sol]
// Assume all concentration can be treated as g solute/1000 g sol.
y2 = (x(1)-x(2))/ac(2) ;// -[ g solute/g carbon]
y3 = (x(1)-x(3))/ac(3) ;// -[ g solute/g carbon]
y4 = (x(1)-x(4))/ac(4) ;// -[ g solute/g carbon]
y5 = (x(1)-x(5))/ac(5) ;// -[ g solute/g carbon]
y6 = (x(1)-x(6))/ac(6) ;// -[ g solute/g carbon]
// Use polymath to get Freundlich isotherm to bo y= 37.919*x^(0.583)
y = 37.919*x(6)^(0.583) ;//From Freundlich isotherm
A_by_G = (x(1)-x(6))/y ;//Minimum mss of activated carbon required- [g carbon/1000 g sol.]
printf('Minimum mass of activated carbon required is %.2f g carbon/1000 g sol. \n ',A_by_G); |
9a19e98680df74eeec7d6d8e0f57f962041503d0 | 31cab49fc3cabdd2a0943101ba973abc38a4384e | /CSharpToTypeScript/TypeScript/Models.tst | 2af5873169d9fb55e7400d9aaf022045d3a15c6f | [] | no_license | erncab/CSharpToTypeScript | 1cf76fbf07c02a5cd6d6b6e287008a1d4fbf509b | afb590469d30140d9a2a6b957665accffa49aa5f | refs/heads/master | 2021-01-20T12:06:43.867233 | 2017-03-20T22:23:05 | 2017-03-20T22:23:05 | 85,621,521 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,001 | tst | Models.tst | ${
// Enable extension methods by adding using Typewriter.Extensions.*
using Typewriter.Extensions.Types;
// Uncomment the constructor to change template settings.
//Template(Settings settings)
//{
// settings.IncludeProject("Project.Name");
// settings.OutputExtension = ".tsx";
//}
// Custom extension methods can be used in the template by adding a $ prefix e.g. $LoudName
string LoudName(Property property)
{
return property.Name.ToUpperInvariant();
}
string DataType(Class classObject)
{
return "I" + classObject.Name.Replace("Model", "");
}
string ClassName(Class classObject)
{
//return "I" + classObject.Name.Replace("Model", "");
return classObject.Name;
}
}
module TypeScript.Models {
$Classes(*)[
export class $ClassName {
$Properties[
$name: $Type;]
constructor($Properties[$name: $Type][,
]) {
}
}]
}
|
b682d5445f334fc1bef9bec4d517e177baa78bdf | 449d555969bfd7befe906877abab098c6e63a0e8 | /629/CH14/EX14.9/example14_9.sce | f5be518eb18f5c9df6164214f867a490270ef7ad | [] | 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 | 346 | sce | example14_9.sce | clear
clc
//Example 14.9 CENTRIFUGAL COMPRESSOR
p1=100; //pressure [kPa]
p2=200; //[kPa]
k=1.4;
Q1=1;//discharge [m^3/s]
eta=0.65; //efficiency
//Theoretical power
Ptheo=(k/(k-1))*Q1*p1*[(p2/p1)^((k-1)/k)-1] //[kW]
//Shaft power
Pshaft=Ptheo/eta //[kW]
printf("\nThe shaft power required to operate the compressor = %.f kW.\n",Pshaft) |
05d977b54af2fe6d1b67ea65af8f55d088f7ca03 | ac66d3377862c825111275d71485e42fdec9c1bd | /Resources/res/map/map3102.sce | ffa919543fe319cc4c21fe57672443e11b69a212 | [] | no_license | AIRIA/CreazyBomber | 2338d2ad46218180f822682d680ece3a8e0b46c3 | 68668fb95a9865ef1306e5b0d24fd959531eb7ad | refs/heads/master | 2021-01-10T19:58:49.272075 | 2014-07-15T09:55:00 | 2014-07-15T09:55:00 | 19,776,025 | 0 | 2 | null | null | null | null | UTF-8 | Scilab | false | false | 2,673 | sce | map3102.sce | <?xml version="1.0" encoding="UTF-8"?>
<Project Name="map3102" Width="13" Height="11" CellSize="40" BackgroundSize="2" Background="_t.png">
<Cell Name="出生点" X="1" Y="1" />
<Cell Name="树" X="4" Y="1" />
<Cell Name="树" X="5" Y="1" />
<Cell Name="树" X="6" Y="1" />
<Cell Name="树" X="7" Y="1" />
<Cell Name="出生点" X="11" Y="1" />
<Cell Name="石块" X="2" Y="2" />
<Cell Name="石块" X="4" Y="2" />
<Cell Name="树" X="5" Y="2" />
<Cell Name="石块" X="6" Y="2" />
<Cell Name="树" X="7" Y="2" />
<Cell Name="石块" X="8" Y="2" />
<Cell Name="树" X="9" Y="2" />
<Cell Name="石块" X="10" Y="2" />
<Cell Name="树" X="1" Y="3" />
<Cell Name="树" X="2" Y="3" />
<Cell Name="树" X="3" Y="3" />
<Cell Name="树" X="5" Y="3" />
<Cell Name="树" X="7" Y="3" />
<Cell Name="树" X="8" Y="3" />
<Cell Name="树" X="9" Y="3" />
<Cell Name="树" X="10" Y="3" />
<Cell Name="树" X="1" Y="4" />
<Cell Name="石块" X="3" Y="4" />
<Cell Name="树" X="4" Y="4" />
<Cell Name="石块" X="5" Y="4" />
<Cell Name="cl-履带-下" X="6" Y="4" arg0="1" />
<Cell Name="石块" X="7" Y="4" />
<Cell Name="石块" X="9" Y="4" />
<Cell Name="树" X="10" Y="4" />
<Cell Name="树" X="11" Y="4" />
<Cell Name="石块" X="1" Y="5" />
<Cell Name="树" X="3" Y="5" />
<Cell Name="树" X="4" Y="5" />
<Cell Name="cl-履带-右" X="5" Y="5" arg0="3" />
<Cell Name="cl-履带-左" X="7" Y="5" arg0="2" />
<Cell Name="树" X="8" Y="5" />
<Cell Name="树" X="10" Y="5" />
<Cell Name="石块" X="11" Y="5" />
<Cell Name="树" X="1" Y="6" />
<Cell Name="树" X="2" Y="6" />
<Cell Name="石块" X="3" Y="6" />
<Cell Name="石块" X="5" Y="6" />
<Cell Name="cl-履带-上" X="6" Y="6" arg0="0" />
<Cell Name="石块" X="7" Y="6" />
<Cell Name="树" X="8" Y="6" />
<Cell Name="石块" X="9" Y="6" />
<Cell Name="树" X="10" Y="6" />
<Cell Name="树" X="11" Y="6" />
<Cell Name="树" X="1" Y="7" />
<Cell Name="树" X="3" Y="7" />
<Cell Name="树" X="4" Y="7" />
<Cell Name="树" X="6" Y="7" />
<Cell Name="树" X="7" Y="7" />
<Cell Name="树" X="9" Y="7" />
<Cell Name="树" X="11" Y="7" />
<Cell Name="石块" X="1" Y="8" />
<Cell Name="出生点" X="2" Y="8" />
<Cell Name="石块" X="4" Y="8" />
<Cell Name="树" X="5" Y="8" />
<Cell Name="石块" X="6" Y="8" />
<Cell Name="石块" X="8" Y="8" />
<Cell Name="石块" X="10" Y="8" />
<Cell Name="石块" X="2" Y="9" />
<Cell Name="树" X="4" Y="9" />
<Cell Name="树" X="6" Y="9" />
<Cell Name="树" X="7" Y="9" />
<Cell Name="树" X="8" Y="9" />
<Cell Name="出生点" X="11" Y="9" />
</Project> |
2003607148424133795264f7c8f3f3af81cf9bf1 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2084/CH8/EX8.5/8_5.sce | d1bfe2189829de3dbf4c3641ba6b2d6dd382455b | [] | 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 | 699 | sce | 8_5.sce | //developed in windows XP operating system 32bit
//platform Scilab 5.4.1
clc;clear;
//example 8.5
//calculation of the speed of the pendulum of bob when it makes an angle of 60 degree with the vertical
//given data
v0=3//speed(in m/s)of the bob in its lowest position
theta=60//angle(in degree)made by the pendulum with vertical
l=.5//length(in m) of the pendulum
g=10//gravitational acceleration(in m/s^2) of the earth
//calculation
//from the law of conservation of energy
//(m*v0*v0/2) - (m*v1*v1/2) = m*g*l*(1-cosd(theta))
v1=sqrt((v0*v0)-(2*g*l*(1-cosd(theta))))
printf('the speed of the pendulum of bob when it makes an angle of 60 degree with the vertical is %d m/s',v1)
|
0ea00181845b58c04f8502745887b6f992c004f4 | 449d555969bfd7befe906877abab098c6e63a0e8 | /662/CH3/EX3.1/ex3_1.sce | 6b1b5df94ea1479d73ea06dd5513a44833c598de | [] | 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 | 896 | sce | ex3_1.sce | //Example 3.1
//unsigned integer operands
a=10
b=3
printf("\n\na+b=%d", a+b);
printf("\na-b= %d", a-b);
printf("\na*b= %d", a*b);
printf("\na/b= %d", a/b);
ab = modulo(a,b); //in scilab modulo() function is used instead of % operator of c.
printf("\n a\b= %d",ab);
v1=12.5
v2=2.0
printf("\n\nv1+v2=%f", v1+v2);
printf("\nv1-v2= %f",v1-v2);
printf("\nv1*v2= %f", v1*v2);
printf("\nv1/v2= %f", v1/v2);
// in scilab variables are not stored as thier ASCII values as in case of c.
//so for calculations including characters is done with the help of ascii().
c1='P'
c2='T'
printf("\n\nc1 = %d", ascii(c1));
c= ascii(c1)+ascii(c2);
printf("\nc1 + c2 = %d",c);
c=c+5;
printf("\nc1 + c2 + 5 = %d", c);
c=c+ascii('5');
printf("\n Here 5 is character, hence diff from statement above:");
printf("\nc1 + c2 + 5 = %d", c);
|
c444c59f48bd2eb51671f8624665e69f3585a797 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3760/CH4/EX4.74/Ex4_74.sce | aca6ba82f507d51c907f03a9551ec766782bffaf | [] | 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 | 919 | sce | Ex4_74.sce | clc;
v=400; // rated voltage of dc shunt motor
io=5; // current at no load
ra=0.5; // armature resistance
rf=200; // field resistance
i=50; // current at full load
ifl=v/rf; // constant shunt field current
iao=io-ifl; // no load armature current
wo=v*iao-iao^2*ra; // no load rotational losses
ia=i-ifl; // full load armature current
la=ia^2*ra; // full load armature circuit losses
lf=v*ifl; // constant shunt feld losses
tl=la+lf+wo; // total field losses
pi=i*v; // motor input at full load
nm=(1-(tl/pi))*100;
printf('Output power is %f KW\n',(pi-tl)/1000);
printf('Efficiency on full load is %f percent\n',nm);
Ea1=v-iao*ra; // no load counter EMF
Ea2=v-ia*ra; // full load counter EMF
pr=((Ea1-Ea2)/Ea1)*100; // Ea is directly proportioal to speed so percentage change in Ea is same as percentage in speed;
printf('Percentage change in speed from no load to full load is %f percent',pr);
|
0ca0551e6499d1f12da747b1d7ba253c9a6a5d9b | 449d555969bfd7befe906877abab098c6e63a0e8 | /2459/CH1/EX1.6/Ex1_6.sce | d09f8b85002be43767ff1df4ef9bc0378950ea1e | [] | 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 | 371 | sce | Ex1_6.sce | //chapter1
//example1.6
//page14
//for maximum power transfer, resistance of load and amplifier should match
//so we take load=15 ohm
Rl=15 // ohm
Ri=15 // ohm
V=12 // V
Rt=Rl+Ri
I=V/Rt
P=I^2*Rl
printf("for maximum power transfer load must equal amplifier resistance \nso required load = %d ohm\n \n",Rl)
printf("power delivered to load = %.3f W",P)
|
9b3995259b048f5d946dd1af75f3f5066a73d054 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1430/CH10/EX10.11/exa10_11.sce | d30c60cf07b5d419c0090f79e02b7313dcaeae74 | [] | 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 | 1,001 | sce | exa10_11.sce | //Example 10.11
// Scaling Calculations
C=25*10^-9;
R=2000;
L=40*10^-3;
s=%s;
Z=s*L+1/(s*C+1/R);
// H=I_L/V_s =1/Z ; // Required Network function
H=1/Z;
// since resistance is affected only by the magnitude of scale factor k_m is choosen such that R_cap will be a small integer value
k_m=0.005;
R_cap=0.005*(2000);// Scaled Resistance
// L_cap=(k_m/k_f)*L , this equation is suggesting to choose k_f= k_m*L
k_f=k_m*L;
L_cap=(k_m*L)/k_f; // Scaled inductance
C_cap=C/(k_m*k_f); // Scaled Capacitance
// Network function for the scaled network calculated on the same base as above
s_c=poly(0,'s_c')
num=(s_c+4);
den=(s_c^2+4*s_c+40);
H_cap=num/den;
K_cap=1;
z_cap=roots(num);
p_cap=roots(den);
//hence poles and zeros for original network function will be
z_1=z_cap/k_f;
p_1=p_cap/k_f;
// Gain factor is given by
K=k_m/k_f;
disp(K,"Gain for original tranfer function=")
disp(z_1,"Zeros for original transfer function=")
disp(p_1,"Poles for original transfer function=")
|
b2307b3b2c3399ca0768a380605eee1267dcd71b | 449d555969bfd7befe906877abab098c6e63a0e8 | /3673/CH6/EX6.a.9/Example_a_6_9.sce | fd06a00e6096f7ec8e992cb5eb7a104c4613fff4 | [] | 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 | 353 | sce | Example_a_6_9.sce | //Example_a_6_9 page no:239
clc;
Zeq=5+(((2+(2*%i))*(-%i*5))/(2+(%i*2-%i*5)));
Zmag=sqrt(real(Zeq)^2+imag(Zeq)^2);
Zang=atand(imag(Zeq)/real(Zeq));
I=sqrt(100/8.85);
pf=8.85/8.88;
V=100/(3.36*0.99);
P=V*I*sind(4.97);
disp(V,"the value of voltage source is (in V)");
disp(pf,"the power factor is ");
disp(P,"the reactive power is (in VAR)");
|
cec054310ac3f366ca67b2b2f2609d3fa09163e2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1697/CH9/EX9.6/Exa9_6.sce | 51a543240899cc3eb3326fe447aa4cc893ca4e19 | [] | 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 | Exa9_6.sce | //Exa 9.6
clc;
clear;
close;
//given data :
f_MHz=3000;//in MHz
d_Km=384000;//in Km
PathLoss=32.45+20*log10(f_MHz)+20*log10(d_Km);//in dB
disp(PathLoss,"Path loss in dB : "); |
bd7877dfcc705974b3b69fea6b8c71904b6d3458 | f542bc49c4d04b47d19c88e7c89d5db60922e34e | /PresentationFiles_Subjects - Kopie/CONT/JQ49GPY/ATWM1_Working_Memory_MEG_JQ49GPY_Session1/ATWM1_Working_Memory_MEG_Salient_Uncued_Run1.sce | 199f2017261db1ee83fef2d577d849b50102c304 | [] | 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 | 48,408 | 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 = 28;
default_font = "Arial";
default_background_color = 0 ,0 ,0 ;
write_codes=true; # for MEG only
begin;
#Picture definitions
box { height = 300; width = 300; color = 0, 0, 0;} frame1;
box { height = 290; width = 290; 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 = 290; width = 290; color = 128, 128, 128;} 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 1792 2992 2292 fixation_cross gabor_157 gabor_131 gabor_109 gabor_051 gabor_157 gabor_131_alt gabor_109 gabor_051_alt "1_1_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1800_3000_2300_gabor_patch_orientation_157_131_109_051_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_003_framed blank blank blank blank fixation_cross_white "1_1_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_003_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1892 2992 2192 fixation_cross gabor_008 gabor_128 gabor_045 gabor_066 gabor_008_alt gabor_128 gabor_045_alt gabor_066 "1_2_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1900_3000_2200_gabor_patch_orientation_008_128_045_066_target_position_1_3_retrieval_position_3" gabor_circ gabor_circ gabor_045_framed gabor_circ blank blank blank blank fixation_cross_white "1_2_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_045_retrieval_position_3" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1842 2992 2192 fixation_cross gabor_040 gabor_078 gabor_058 gabor_098 gabor_040 gabor_078_alt gabor_058 gabor_098_alt "1_3_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_2200_gabor_patch_orientation_040_078_058_098_target_position_2_4_retrieval_position_2" gabor_circ gabor_078_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_3_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_078_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1992 2992 2042 fixation_cross gabor_056 gabor_095 gabor_179 gabor_029 gabor_056_alt gabor_095 gabor_179_alt gabor_029 "1_4_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2000_3000_2050_gabor_patch_orientation_056_095_179_029_target_position_1_3_retrieval_position_1" gabor_008_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_4_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_008_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2192 2992 2342 fixation_cross gabor_176 gabor_107 gabor_150 gabor_043 gabor_176_alt gabor_107 gabor_150_alt gabor_043 "1_5_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2200_3000_2350_gabor_patch_orientation_176_107_150_043_target_position_1_3_retrieval_position_1" gabor_176_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_5_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_176_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 1742 2992 1942 fixation_cross gabor_161 gabor_113 gabor_076 gabor_142 gabor_161_alt gabor_113 gabor_076 gabor_142_alt "1_6_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_1750_3000_1950_gabor_patch_orientation_161_113_076_142_target_position_1_4_retrieval_position_3" gabor_circ gabor_circ gabor_076_framed gabor_circ blank blank blank blank fixation_cross_white "1_6_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_076_retrieval_position_3" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1842 2992 1892 fixation_cross gabor_040 gabor_170 gabor_012 gabor_055 gabor_040 gabor_170_alt gabor_012 gabor_055_alt "1_7_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_1900_gabor_patch_orientation_040_170_012_055_target_position_2_4_retrieval_position_2" gabor_circ gabor_170_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_7_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_170_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1792 2992 2342 fixation_cross gabor_078 gabor_145 gabor_112 gabor_027 gabor_078_alt gabor_145 gabor_112_alt gabor_027 "1_8_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1800_3000_2350_gabor_patch_orientation_078_145_112_027_target_position_1_3_retrieval_position_3" gabor_circ gabor_circ gabor_062_framed gabor_circ blank blank blank blank fixation_cross_white "1_8_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_062_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1792 2992 1992 fixation_cross gabor_088 gabor_114 gabor_160 gabor_054 gabor_088 gabor_114_alt gabor_160_alt gabor_054 "1_9_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1800_3000_2000_gabor_patch_orientation_088_114_160_054_target_position_2_3_retrieval_position_3" gabor_circ gabor_circ gabor_160_framed gabor_circ blank blank blank blank fixation_cross_white "1_9_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_160_retrieval_position_3" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2242 2992 2192 fixation_cross gabor_175 gabor_119 gabor_006 gabor_152 gabor_175 gabor_119_alt gabor_006 gabor_152_alt "1_10_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2250_3000_2200_gabor_patch_orientation_175_119_006_152_target_position_2_4_retrieval_position_2" gabor_circ gabor_119_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_10_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_119_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2092 2992 2142 fixation_cross gabor_090 gabor_072 gabor_045 gabor_009 gabor_090_alt gabor_072 gabor_045_alt gabor_009 "1_11_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2100_3000_2150_gabor_patch_orientation_090_072_045_009_target_position_1_3_retrieval_position_3" gabor_circ gabor_circ gabor_180_framed gabor_circ blank blank blank blank fixation_cross_white "1_11_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_180_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1842 2992 1992 fixation_cross gabor_007 gabor_072 gabor_039 gabor_178 gabor_007 gabor_072_alt gabor_039_alt gabor_178 "1_12_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1850_3000_2000_gabor_patch_orientation_007_072_039_178_target_position_2_3_retrieval_position_2" gabor_circ gabor_118_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_12_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_118_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 2092 2992 2092 fixation_cross gabor_029 gabor_056 gabor_180 gabor_117 gabor_029 gabor_056 gabor_180_alt gabor_117_alt "1_13_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_2100_3000_2100_gabor_patch_orientation_029_056_180_117_target_position_3_4_retrieval_position_1" gabor_164_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_13_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_164_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2142 2992 1892 fixation_cross gabor_092 gabor_037 gabor_144 gabor_176 gabor_092 gabor_037 gabor_144_alt gabor_176_alt "1_14_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2150_3000_1900_gabor_patch_orientation_092_037_144_176_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_176_framed blank blank blank blank fixation_cross_white "1_14_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_176_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1742 2992 2392 fixation_cross gabor_089 gabor_071 gabor_029 gabor_105 gabor_089 gabor_071 gabor_029_alt gabor_105_alt "1_15_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1750_3000_2400_gabor_patch_orientation_089_071_029_105_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_105_framed blank blank blank blank fixation_cross_white "1_15_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_105_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 1892 2992 2392 fixation_cross gabor_029 gabor_078 gabor_143 gabor_007 gabor_029_alt gabor_078 gabor_143 gabor_007_alt "1_16_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_1900_3000_2400_gabor_patch_orientation_029_078_143_007_target_position_1_4_retrieval_position_3" gabor_circ gabor_circ gabor_095_framed gabor_circ blank blank blank blank fixation_cross_white "1_16_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_095_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1842 2992 2142 fixation_cross gabor_009 gabor_167 gabor_082 gabor_127 gabor_009_alt gabor_167_alt gabor_082 gabor_127 "1_17_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_2150_gabor_patch_orientation_009_167_082_127_target_position_1_2_retrieval_position_1" gabor_009_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_17_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_009_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2192 2992 2292 fixation_cross gabor_022 gabor_105 gabor_164 gabor_080 gabor_022 gabor_105_alt gabor_164 gabor_080_alt "1_18_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2200_3000_2300_gabor_patch_orientation_022_105_164_080_target_position_2_4_retrieval_position_2" gabor_circ gabor_105_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_18_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_105_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 2242 2992 2092 fixation_cross gabor_092 gabor_136 gabor_059 gabor_030 gabor_092_alt gabor_136_alt gabor_059 gabor_030 "1_19_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_2250_3000_2100_gabor_patch_orientation_092_136_059_030_target_position_1_2_retrieval_position_3" gabor_circ gabor_circ gabor_011_framed gabor_circ blank blank blank blank fixation_cross_white "1_19_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_011_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2242 2992 2242 fixation_cross gabor_062 gabor_171 gabor_103 gabor_034 gabor_062 gabor_171_alt gabor_103_alt gabor_034 "1_20_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2250_3000_2250_gabor_patch_orientation_062_171_103_034_target_position_2_3_retrieval_position_3" gabor_circ gabor_circ gabor_150_framed gabor_circ blank blank blank blank fixation_cross_white "1_20_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_150_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1892 2992 2392 fixation_cross gabor_161 gabor_178 gabor_021 gabor_040 gabor_161_alt gabor_178 gabor_021 gabor_040_alt "1_21_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1900_3000_2400_gabor_patch_orientation_161_178_021_040_target_position_1_4_retrieval_position_1" gabor_111_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_21_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_111_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2142 2992 2592 fixation_cross gabor_016 gabor_131 gabor_101 gabor_058 gabor_016 gabor_131 gabor_101_alt gabor_058_alt "1_22_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2150_3000_2600_gabor_patch_orientation_016_131_101_058_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_147_framed gabor_circ blank blank blank blank fixation_cross_white "1_22_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_147_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1892 2992 2042 fixation_cross gabor_026 gabor_009 gabor_057 gabor_165 gabor_026 gabor_009_alt gabor_057_alt gabor_165 "1_23_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1900_3000_2050_gabor_patch_orientation_026_009_057_165_target_position_2_3_retrieval_position_2" gabor_circ gabor_147_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_23_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_147_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1792 2992 2542 fixation_cross gabor_130 gabor_046 gabor_107 gabor_151 gabor_130 gabor_046_alt gabor_107_alt gabor_151 "1_24_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1800_3000_2550_gabor_patch_orientation_130_046_107_151_target_position_2_3_retrieval_position_2" gabor_circ gabor_046_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_24_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_046_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 1792 2992 2592 fixation_cross gabor_171 gabor_018 gabor_150 gabor_036 gabor_171 gabor_018_alt gabor_150 gabor_036_alt "1_25_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_1800_3000_2600_gabor_patch_orientation_171_018_150_036_target_position_2_4_retrieval_position_3" gabor_circ gabor_circ gabor_150_framed gabor_circ blank blank blank blank fixation_cross_white "1_25_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_150_retrieval_position_3" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2042 2992 1892 fixation_cross gabor_094 gabor_075 gabor_143 gabor_019 gabor_094_alt gabor_075_alt gabor_143 gabor_019 "1_26_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2050_3000_1900_gabor_patch_orientation_094_075_143_019_target_position_1_2_retrieval_position_2" gabor_circ gabor_075_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_26_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_075_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1842 2992 2492 fixation_cross gabor_121 gabor_146 gabor_006 gabor_089 gabor_121 gabor_146_alt gabor_006_alt gabor_089 "1_27_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1850_3000_2500_gabor_patch_orientation_121_146_006_089_target_position_2_3_retrieval_position_3" gabor_circ gabor_circ gabor_056_framed gabor_circ blank blank blank blank fixation_cross_white "1_27_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_056_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1992 2992 2192 fixation_cross gabor_090 gabor_176 gabor_159 gabor_138 gabor_090_alt gabor_176 gabor_159 gabor_138_alt "1_28_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2200_gabor_patch_orientation_090_176_159_138_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_138_framed blank blank blank blank fixation_cross_white "1_28_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_138_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1942 2992 2492 fixation_cross gabor_141 gabor_122 gabor_005 gabor_067 gabor_141_alt gabor_122 gabor_005 gabor_067_alt "1_29_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1950_3000_2500_gabor_patch_orientation_141_122_005_067_target_position_1_4_retrieval_position_1" gabor_141_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_29_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_141_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 2192 2992 2442 fixation_cross gabor_154 gabor_133 gabor_076 gabor_003 gabor_154_alt gabor_133 gabor_076 gabor_003_alt "1_30_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_2200_3000_2450_gabor_patch_orientation_154_133_076_003_target_position_1_4_retrieval_position_3" gabor_circ gabor_circ gabor_076_framed gabor_circ blank blank blank blank fixation_cross_white "1_30_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_076_retrieval_position_3" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2042 2992 1942 fixation_cross gabor_163 gabor_180 gabor_091 gabor_116 gabor_163 gabor_180 gabor_091_alt gabor_116_alt "1_31_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2050_3000_1950_gabor_patch_orientation_163_180_091_116_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_140_framed gabor_circ blank blank blank blank fixation_cross_white "1_31_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_140_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1992 2992 2242 fixation_cross gabor_017 gabor_039 gabor_064 gabor_149 gabor_017 gabor_039 gabor_064_alt gabor_149_alt "1_32_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2250_gabor_patch_orientation_017_039_064_149_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_149_framed blank blank blank blank fixation_cross_white "1_32_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_149_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2092 2992 2292 fixation_cross gabor_017 gabor_104 gabor_043 gabor_080 gabor_017_alt gabor_104_alt gabor_043 gabor_080 "1_33_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2100_3000_2300_gabor_patch_orientation_017_104_043_080_target_position_1_2_retrieval_position_1" gabor_063_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_33_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_063_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1992 2992 2592 fixation_cross gabor_100 gabor_024 gabor_176 gabor_160 gabor_100 gabor_024_alt gabor_176 gabor_160_alt "1_34_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2000_3000_2600_gabor_patch_orientation_100_024_176_160_target_position_2_4_retrieval_position_2" gabor_circ gabor_070_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_34_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_070_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2242 2992 2242 fixation_cross gabor_074 gabor_162 gabor_030 gabor_011 gabor_074 gabor_162_alt gabor_030 gabor_011_alt "1_35_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2250_3000_2250_gabor_patch_orientation_074_162_030_011_target_position_2_4_retrieval_position_2" gabor_circ gabor_162_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_35_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_162_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 1792 2992 2492 fixation_cross gabor_171 gabor_030 gabor_083 gabor_100 gabor_171_alt gabor_030_alt gabor_083 gabor_100 "1_36_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_1800_3000_2500_gabor_patch_orientation_171_030_083_100_target_position_1_2_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_100_framed blank blank blank blank fixation_cross_white "1_36_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_100_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2042 2992 1992 fixation_cross gabor_094 gabor_120 gabor_077 gabor_148 gabor_094_alt gabor_120_alt gabor_077 gabor_148 "1_37_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2050_3000_2000_gabor_patch_orientation_094_120_077_148_target_position_1_2_retrieval_position_2" gabor_circ gabor_120_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_37_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_120_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2092 2992 2542 fixation_cross gabor_073 gabor_108 gabor_043 gabor_092 gabor_073_alt gabor_108 gabor_043_alt gabor_092 "1_38_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2100_3000_2550_gabor_patch_orientation_073_108_043_092_target_position_1_3_retrieval_position_1" gabor_026_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_38_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_026_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1942 2992 2342 fixation_cross gabor_010 gabor_128 gabor_066 gabor_084 gabor_010_alt gabor_128 gabor_066 gabor_084_alt "1_39_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1950_3000_2350_gabor_patch_orientation_010_128_066_084_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_038_framed blank blank blank blank fixation_cross_white "1_39_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_038_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 1892 2992 2542 fixation_cross gabor_018 gabor_063 gabor_137 gabor_178 gabor_018_alt gabor_063 gabor_137_alt gabor_178 "1_40_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_1900_3000_2550_gabor_patch_orientation_018_063_137_178_target_position_1_3_retrieval_position_2" gabor_circ gabor_063_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_40_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_063_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1742 2992 2142 fixation_cross gabor_015 gabor_031 gabor_054 gabor_171 gabor_015_alt gabor_031 gabor_054 gabor_171_alt "1_41_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1750_3000_2150_gabor_patch_orientation_015_031_054_171_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_121_framed blank blank blank blank fixation_cross_white "1_41_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_121_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2242 2992 2092 fixation_cross gabor_118 gabor_138 gabor_002 gabor_053 gabor_118_alt gabor_138 gabor_002 gabor_053_alt "1_42_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2250_3000_2100_gabor_patch_orientation_118_138_002_053_target_position_1_4_retrieval_position_1" gabor_070_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_42_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_070_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2192 2992 2442 fixation_cross gabor_106 gabor_144 gabor_075 gabor_032 gabor_106_alt gabor_144_alt gabor_075 gabor_032 "1_43_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2200_3000_2450_gabor_patch_orientation_106_144_075_032_target_position_1_2_retrieval_position_1" gabor_056_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_43_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_056_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1742 2992 2242 fixation_cross gabor_012 gabor_088 gabor_072 gabor_132 gabor_012 gabor_088_alt gabor_072_alt gabor_132 "1_44_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1750_3000_2250_gabor_patch_orientation_012_088_072_132_target_position_2_3_retrieval_position_2" gabor_circ gabor_088_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_44_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_088_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 1942 2992 1942 fixation_cross gabor_036 gabor_021 gabor_109 gabor_001 gabor_036 gabor_021_alt gabor_109 gabor_001_alt "1_45_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_1950_3000_1950_gabor_patch_orientation_036_021_109_001_target_position_2_4_retrieval_position_1" gabor_036_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_45_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_036_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1942 2992 2542 fixation_cross gabor_102 gabor_015 gabor_126 gabor_040 gabor_102 gabor_015_alt gabor_126 gabor_040_alt "1_46_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1950_3000_2550_gabor_patch_orientation_102_015_126_040_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_040_framed blank blank blank blank fixation_cross_white "1_46_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_040_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1742 2992 1992 fixation_cross gabor_050 gabor_119 gabor_097 gabor_172 gabor_050 gabor_119_alt gabor_097 gabor_172_alt "1_47_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1750_3000_2000_gabor_patch_orientation_050_119_097_172_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_034_framed blank blank blank blank fixation_cross_white "1_47_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_034_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2142 2992 2092 fixation_cross gabor_138 gabor_074 gabor_119 gabor_050 gabor_138 gabor_074 gabor_119_alt gabor_050_alt "1_48_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2150_3000_2100_gabor_patch_orientation_138_074_119_050_target_position_3_4_retrieval_position_3" gabor_circ gabor_circ gabor_164_framed gabor_circ blank blank blank blank fixation_cross_white "1_48_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_164_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2142 2992 2042 fixation_cross gabor_171 gabor_154 gabor_007 gabor_115 gabor_171_alt gabor_154 gabor_007 gabor_115_alt "1_49_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2150_3000_2050_gabor_patch_orientation_171_154_007_115_target_position_1_4_retrieval_position_1" gabor_171_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_49_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_171_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1892 2992 2342 fixation_cross gabor_156 gabor_109 gabor_067 gabor_088 gabor_156 gabor_109_alt gabor_067 gabor_088_alt "1_50_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1900_3000_2350_gabor_patch_orientation_156_109_067_088_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_088_framed blank blank blank blank fixation_cross_white "1_50_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_088_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2042 2992 2592 fixation_cross gabor_067 gabor_037 gabor_002 gabor_176 gabor_067 gabor_037_alt gabor_002_alt gabor_176 "1_51_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2050_3000_2600_gabor_patch_orientation_067_037_002_176_target_position_2_3_retrieval_position_2" gabor_circ gabor_087_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_51_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_087_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 2092 2992 2192 fixation_cross gabor_032 gabor_120 gabor_139 gabor_013 gabor_032 gabor_120_alt gabor_139_alt gabor_013 "1_52_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_2100_3000_2200_gabor_patch_orientation_032_120_139_013_target_position_2_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_059_framed blank blank blank blank fixation_cross_white "1_52_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_059_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1942 2992 1942 fixation_cross gabor_084 gabor_021 gabor_173 gabor_143 gabor_084 gabor_021_alt gabor_173_alt gabor_143 "1_53_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1950_3000_1950_gabor_patch_orientation_084_021_173_143_target_position_2_3_retrieval_position_2" gabor_circ gabor_066_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_53_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_066_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 64 292 292 399 125 1992 2992 1942 fixation_cross gabor_006 gabor_127 gabor_178 gabor_045 gabor_006_alt gabor_127 gabor_178_alt gabor_045 "1_54_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_300_300_399_2000_3000_1950_gabor_patch_orientation_006_127_178_045_target_position_1_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_045_framed blank blank blank blank fixation_cross_white "1_54_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_UncuedRetriev_retrieval_patch_orientation_045_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1842 2992 2242 fixation_cross gabor_032 gabor_076 gabor_004 gabor_055 gabor_032_alt gabor_076_alt gabor_004 gabor_055 "1_55_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1850_3000_2250_gabor_patch_orientation_032_076_004_055_target_position_1_2_retrieval_position_2" gabor_circ gabor_076_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_55_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_076_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1742 2992 2042 fixation_cross gabor_152 gabor_014 gabor_092 gabor_132 gabor_152 gabor_014 gabor_092_alt gabor_132_alt "1_56_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1750_3000_2050_gabor_patch_orientation_152_014_092_132_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_132_framed blank blank blank blank fixation_cross_white "1_56_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_132_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1892 2992 1892 fixation_cross gabor_086 gabor_176 gabor_068 gabor_151 gabor_086_alt gabor_176 gabor_068 gabor_151_alt "1_57_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_1900_3000_1900_gabor_patch_orientation_086_176_068_151_target_position_1_4_retrieval_position_1" gabor_086_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_57_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_086_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1742 2992 2442 fixation_cross gabor_001 gabor_150 gabor_018 gabor_079 gabor_001 gabor_150 gabor_018_alt gabor_079_alt "1_58_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1750_3000_2450_gabor_patch_orientation_001_150_018_079_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_126_framed blank blank blank blank fixation_cross_white "1_58_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_126_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2242 2992 2142 fixation_cross gabor_107 gabor_040 gabor_159 gabor_180 gabor_107 gabor_040_alt gabor_159 gabor_180_alt "1_59_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2250_3000_2150_gabor_patch_orientation_107_040_159_180_target_position_2_4_retrieval_position_2" gabor_circ gabor_090_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_59_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_090_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2192 2992 2292 fixation_cross gabor_162 gabor_096 gabor_038 gabor_179 gabor_162 gabor_096_alt gabor_038_alt gabor_179 "1_60_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2200_3000_2300_gabor_patch_orientation_162_096_038_179_target_position_2_3_retrieval_position_2" gabor_circ gabor_145_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_60_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_145_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 2192 2992 2442 fixation_cross gabor_039 gabor_116 gabor_097 gabor_009 gabor_039 gabor_116_alt gabor_097 gabor_009_alt "1_61_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_2200_3000_2450_gabor_patch_orientation_039_116_097_009_target_position_2_4_retrieval_position_2" gabor_circ gabor_164_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_61_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_164_retrieval_position_2" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 2092 2992 2292 fixation_cross gabor_117 gabor_052 gabor_080 gabor_007 gabor_117 gabor_052_alt gabor_080 gabor_007_alt "1_62_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_2100_3000_2300_gabor_patch_orientation_117_052_080_007_target_position_2_4_retrieval_position_1" gabor_162_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_62_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_162_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1942 2992 2492 fixation_cross gabor_032 gabor_055 gabor_162 gabor_008 gabor_032 gabor_055_alt gabor_162_alt gabor_008 "1_63_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1950_3000_2500_gabor_patch_orientation_032_055_162_008_target_position_2_3_retrieval_position_3" gabor_circ gabor_circ gabor_117_framed gabor_circ blank blank blank blank fixation_cross_white "1_63_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_117_retrieval_position_3" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2042 2992 1992 fixation_cross gabor_105 gabor_133 gabor_161 gabor_019 gabor_105_alt gabor_133 gabor_161 gabor_019_alt "1_64_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2050_3000_2000_gabor_patch_orientation_105_133_161_019_target_position_1_4_retrieval_position_1" gabor_105_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_64_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_105_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2142 2992 2342 fixation_cross gabor_149 gabor_040 gabor_061 gabor_178 gabor_149_alt gabor_040_alt gabor_061 gabor_178 "1_65_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2150_3000_2350_gabor_patch_orientation_149_040_061_178_target_position_1_2_retrieval_position_2" gabor_circ gabor_040_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_65_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_040_retrieval_position_2" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 1992 2992 2092 fixation_cross gabor_128 gabor_010 gabor_053 gabor_087 gabor_128_alt gabor_010 gabor_053_alt gabor_087 "1_66_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2000_3000_2100_gabor_patch_orientation_128_010_053_087_target_position_1_3_retrieval_position_1" gabor_128_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_66_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_128_retrieval_position_1" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 61 292 292 399 125 1792 2992 2142 fixation_cross gabor_160 gabor_112 gabor_007 gabor_138 gabor_160_alt gabor_112 gabor_007 gabor_138_alt "1_67_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_300_300_399_1800_3000_2150_gabor_patch_orientation_160_112_007_138_target_position_1_4_retrieval_position_1" gabor_024_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_67_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_CuedRetrieval_retrieval_patch_orientation_024_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 2142 2992 2392 fixation_cross gabor_162 gabor_003 gabor_018 gabor_089 gabor_162_alt gabor_003 gabor_018_alt gabor_089 "1_68_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_2150_3000_2400_gabor_patch_orientation_162_003_018_089_target_position_1_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_139_framed blank blank blank blank fixation_cross_white "1_68_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_139_retrieval_position_4" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 62 292 292 399 125 2042 2992 1892 fixation_cross gabor_133 gabor_175 gabor_155 gabor_068 gabor_133 gabor_175 gabor_155_alt gabor_068_alt "1_69_Encoding_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_300_300_399_2050_3000_1900_gabor_patch_orientation_133_175_155_068_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_068_framed blank blank blank blank fixation_cross_white "1_69_Retrieval_Working_Memory_MEG_P8_RL_Salient_NoChange_CuedRetrieval_retrieval_patch_orientation_068_retrieval_position_4" 2 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
42 63 292 292 399 125 1842 2992 2042 fixation_cross gabor_013 gabor_043 gabor_093 gabor_150 gabor_013 gabor_043 gabor_093_alt gabor_150_alt "1_70_Encoding_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_300_300_399_1850_3000_2050_gabor_patch_orientation_013_043_093_150_target_position_3_4_retrieval_position_1" gabor_060_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_70_Retrieval_Working_Memory_MEG_P8_RL_Salient_DoChange_UncuedRetriev_retrieval_patch_orientation_060_retrieval_position_1" 1 45.96 45.96 -45.96 45.96 -45.96 -45.96 45.96 -45.96;
};
# 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;
}; |
b5d66e4943f9f9b150f3625206eb5c32cc5aa887 | e0124ace5e8cdd9581e74c4e29f58b56f7f97611 | /3913/CH3/EX3.11/Ex3_11.sce | a1e1734cb1919d3e086685521c9ee8da1bfd51e0 | [] | no_license | psinalkar1988/Scilab-TBC-Uploads-1 | 159b750ddf97aad1119598b124c8ea6508966e40 | ae4c2ff8cbc3acc5033a9904425bc362472e09a3 | refs/heads/master | 2021-09-25T22:44:08.781062 | 2018-10-26T06:57:45 | 2018-10-26T06:57:45 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 342 | sce | Ex3_11.sce | //Chapter 3 : Systems of Linear Equations
//Example 3.12
//Scilab 6.0.1
//Windows 10
clear;
clc;
X=[0 0 2;1 -1 1;-1 1 -4];
disp(X,'X=')
mprintf('interchange R1 and R2')
X([1,2],:)=X([2,1],:)
disp(X,'X=')
mprintf('R3 + R1')
X(3,:)=X(3,:)+X(1,:)
disp(X,'X=')
mprintf('R3 + (3/2)R2')
X(3,:)=X(3,:)+(3/2)*X(2,:)
disp(X,'X=')
|
d35497560c926c51939667103a22286c3a49caca | 449d555969bfd7befe906877abab098c6e63a0e8 | /1385/CH8/EX8.2/8_2.sce | 23bcb7f5fab7baba8d62a9c4b5ca8c3b1cff2402 | [] | 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 | 8_2.sce | clc
//initialisation of variables
n= 1 //mole
x= 3
y= 4
//CALCULATIONS
r= x^2/n^2
z= n/x
n= n+z
n1= x-z
//RESULTS
printf (' moles of acid and alcohol= %.2f moles',n)
printf (' \n moles of ester and water= %.2f moles',n1)
|
7de5fb97316627e3677c566b2a5f0063d3edfd50 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2126/CH2/EX2.7/7.sce | f3db6935d41db49e5a603e42d718834f2472e664 | [] | 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 | 1,384 | sce | 7.sce | clc
clear
//Input data
M1=3.6 //Inlet mach number
M2=2 //Exit mach number
m=15 //Mass flow rate in kg/s
P1=1.05 //Inlet pressure in bar
T1=313 //Inlet temperature in K
k=1.4 //Adiabatic Constant
R=287 //Specific gas constant in J/kg-K
//Calculation
p1=11.38*10^-3 //Ratio of inlet pressure to Stagnation pressure from gas tables @M1,k=1.4
Po=P1/p1 //Stagnation pressure in bar
t1=0.278 //Ratio of inlet temperature to Stagnation temperature from gas tables @M1,k=1.4
To=T1/t1 //Stagnation temperature in K
C1=sqrt(k*R*T1)*M1 //Inlet velocity in m/s
d1=(P1*10^5)/(R*T1) //Density at inlet in kg/s, P1 in Pa
A1=(m/(d1*C1))*10^4 //Inlet area in cm^2
p2=0.128 //Ratio of exit pressure to Stagnation pressure from isentropic gas tables @M2,k=1.4
P2=Po*p2 //exit pressure in bar
t2=0.555 //Ratio of exit temperature to Stagnation temperature from isentropic gas tables @M2,k=1.4
T2=To*t2 //exit temperature in K
C2=sqrt(k*R*T2)*M2 //Exit velocity in m/s
d2=(P2*10^5)/(R*T2) //Density at exit in kg/s
A2=(m/(d2*C2))*10^4 //Exit area in cm^2
//Output
printf('(A)At Inlet:\n Area is %3.1f cm^2\n Total pressure %3.2f bar\n Total temperature is %3.1f K\n (B)At Exit:\n Area is %3.1f cm^2\n Total pressure %3.2f bar\n Total temperature is %3.2f K\n Static temperature is %3.2f K\n Static pressure is %3.2f bar',A1,Po,To,A2,Po,To,T2,P2)
|
5e2b2a7893a9679a0ff51dccb248b33121e383a2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1697/CH4/EX4.6/Exa4_6.sce | 8d33e255378429cd80806b45d0c61b6a1515fb57 | [] | 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 | Exa4_6.sce | //Exa 4.6
clc;
clear;
close;
//given data :
n=8;//no. of half wave dipoles
lambda=100;//in cm
lambda=lambda*10^-2;//in m
d=50;//in cm
d=d*10^-2;//in m
I=0.5;//in A
Rr=73;//in Ohm
Pr=n*I^2*Rr;//in Watts
disp(Pr,"Pr in Watts : ");
BWFN=2*lambda/(n*d);//in radian
HPBW=BWFN/2;//in radian
disp(HPBW,"HPBW in radian : ");
disp(HPBW*180/%pi,"HPBW in degree : ") |
e5b506aa3fc8bb013b848ec2f9a33fb544b13281 | b29e9715ab76b6f89609c32edd36f81a0dcf6a39 | /ketpicscifiles6/Objsymb.sci | 808924a4d9e843ab74d3017f5cf969481cf352df | [] | 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 | 144 | sci | Objsymb.sci | // s : 2014.08.25
function Objsymb(Symb,Thick,Face,Dir)
for J=1:length(Symb)
Objcurve(Symb(J),Thick,Face,Dir);
end
endfunction
|
a65d0ce42aecf10a859a9d6258e7056dac6dc557 | 7fa099e9d565bee9cdd572755843852769c99498 | /tests/zeos.tst | 49a97b0bda0390a7b8c4eb3e278a2f7dcfaf7cfa | [
"LicenseRef-scancode-unknown-license-reference",
"LicenseRef-scancode-other-permissive",
"BSD-2-Clause"
] | permissive | Peter-J-Jansen/SDL-hyperion | 0d2a16f1d837fa27b8f0aaa927dc84a8ebdb44f6 | 58578601d7a34fc11f050b0ac4fd425a4c0422eb | refs/heads/master | 2023-04-27T03:42:18.421272 | 2022-11-27T00:16:06 | 2022-11-27T00:16:06 | 238,422,138 | 2 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,993 | tst | zeos.tst | # This test file was generated from offline assembler source
# by text2tst.rexx 11 Dec 2016 12:34:53
# Treat as object code. That is, modifications will be lost.
# assemble and listing files are provided for information only.
*Testcase zeos
sysclear
mainsize 1m
archmode z
r 1A0=00000001800000000000000000000244
r 1C0=00020001800000000000000000000000
r 1D0=0002000180000000FFFFFFFFDEADDEAD
r 200=00000000000000000000000000000000
r 210=00000000000000000000000000000000
r 220=00000000000000000000000000000000
r 230=0000000000000000
r 238=000000000000000000000000
*
* This file was put into the public domain 2016-12-07
* by John P. Hartmann. You can use it for anything you like,
* as long as this notice remains.
*
r 244=5890F36812EEA78400064190F3B0A79A
r 254=F050410000144110F370B92800005800
r 264=F33041109FB0D20F1000F334D23F1010
r 274=F3704120F2004140
r 27C=F34441500010B92A0024A714FFFEA784
r 28C=00079201F24012EE077E0A01D20F1000
r 29C=F334A70A00804120F2104140F2004150
r 2AC=0010B92A0024A714
r 2B4=FFFEA78400079202F24012EE077E0A02
r 2C4=41109FC04100001C4120F2204140F344
r 2D4=415000104160F354B92D6024A714FFFE
r 2E4=A78400079203F240
r 2EC=12EE077E0A03A70A00804120F2304140
r 2FC=F220415000104160F354B92D6024A714
r 30C=FFFEA78400079204F24012EE077E0A04
r 31C=12EE077E0A00
r 330=0400001C000102030405060708090A0B
r 340=0C0D0E0F303132333435363738393A3B
r 350=3C3D3E3F202122232425262728292A2B
r 360=2C2D2E2F
r 368=000FF000
runtest .1
*Compare
r 00000240.00000004
*Want 00000000
r 00000200.00000010
*Want 866C0230 B823BA9D 9CEF1954 7E50EFC9
r 00000210.00000010
*Want 30313233 34353637 38393A3B 3C3D3E3F
r 00000220.00000010
*Want 9BA94F96 FCBD3CF1 24DEEB3D AC7C85A9
r 00000230.00000010
*Want 30313233 34353637 38393A3B 3C3D3E3F
*Done
r 370=101112131415161718191A1B1C1D1E1F
r 380=202122232425262728292A2B2C2D2E2F
r 390=303132333435363738393A3B3C3D3E3F
r 3A0=4041424344454647
r 3A8=48494A4B4C4D4E4F
|
e7f7e49b7394853542d996919a01098de071b8d7 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2627/CH1/EX1.6/Ex1_6.sce | afb3a99d459e3d87c7977694b122c212eac10395 | [] | 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 | 240 | sce | Ex1_6.sce | //Ex 1.6
clc;clear;close;
format('v',5);
V=12;//V
R1=6.8;//ohm
R2=4.7;//ohm
R3=2.2;//ohm
R=1/(1/R1+1/R2+1/R3);//ohm(Effective resistance)
I=V/R;//A(Supply current)
disp(R,"Effective resistance(ohm)")
disp(I,"Supply current(A)");
|
69e6b6e86ab22339a93bf9a0b932423ac84d4818 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1553/CH5/EX5.17/5Ex17.sce | cd9d7ad5b451a526b07d59d5669e7f40fd0e9ee9 | [] | 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 | 117 | sce | 5Ex17.sce | //chapter 5 Ex 17
clc;
clear;
close;
//let the value to be found out be x
x=sqrt(5/3);
mprintf("x=%.2f",x);
|
90ffc838f0a9f4a5afa744e66e2ec1d690967f6c | 3c31145b7b0914a28b5c5c61d01c47253663df63 | /Kalman 2D Estendido/FiltroKalmanEstendido.sci | 81099ff863bd788a8e8dcd8c7a656ddd08336634 | [] | no_license | APFN/INTRODUCAO-A-IDENTIFICA-O-DE-SISTEMAS | 1eb05ddc0debe5381d941715915388f7ca8af22c | d1a7afd8c8f894285aa9d4c282939538cfaa45d4 | refs/heads/master | 2021-07-21T14:50:25.870205 | 2017-10-30T19:31:48 | 2017-10-30T19:31:48 | 108,897,789 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 5,344 | sci | FiltroKalmanEstendido.sci | clc
clear
cd='C:\Users\Álvaro\Google Drive\0 mestrado mecatronica\2017.2\INTRODUÇÃO À IDENTIFICAÇÃO DE SISTEMAS\2 unidade trabalho\Kalman 2D';
FILE='dados_sensor_GPS.txt';
data = read(FILE, -1, 3);
total_points = size(data,"r");
t = data(1:total_points,1);
x = data(1:total_points,2);
y = data(1:total_points,3);
tempo = 1
dt= t(tempo)-0; // variacao tempo
//erro esperado de sinal do satelite
Uk= 6;
Ek= 36;
/////////MATRIZES DE COVARIANCIA//////////
Rk = [0.1 0 0 0 0;
0 0.1 0 0 0;
0 0 0 0 0;
0 0 0 0 0;
0 0 0 0 0];
Qk = [0.003 0 0 0 0;
0 0.003 0 0 0;
0 0 0 0 0;
0 0 0 0 0;
0 0 0 0 0];
PesoR=10; // Peso na Rk no calculo de Kk
PesoQ=1000; // Peso na Qk no calculo de Pk
Thetak=[1];
Vk=[0.1];
Wk=[0.1];
Hk = [1 0 0 cosd(Thetak)*dt 0;
0 1 0 sind(Thetak)*dt 0;
0 0 1 0 dt;
0 0 0 1 0;
0 0 0 0 1]; // modelo de obrservacao
Xkant = [0.1; 0.1; 0; 0; 0];// [x; y; Theta; Vk; Wk];
Pkant = [0.1 0 0 0 0;
0 0.1 0 0 0;
0 0 0 0 0;
0 0 0 0 0;
0 0 0 0 0]; //P anterior
/////////PREDICAO//////////
Phi = [1 0 -Vk*sind(Thetak)*dt cosd(Thetak)*dt 0;
0 1 Vk*cosd(Thetak)*dt sind(Thetak)*dt 0;
0 0 Thetak 0 dt;
0 0 0 Vk 0;
0 0 0 0 Wk]; // modelo de transicao de estados
Xk = Phi*Xkant; // X predicao
Pk = Phi*Pkant*Phi' + Qk; // predicao covariancia
/////////ATUALIZACAO DE DADOS//////////
yk = [([x(tempo); y(tempo); 0; 0; 0;])]; //coleta dados
ykest=[(Hk*Xk)]; // dados estimados
erro_estimacao(:,tempo)=yk(:,tempo)-ykest(:,tempo);
/////////CORRECAO//////////
Kk = Pk*Hk'*(Hk*Pk*Hk' + Rk)^-1; //ganho de kalman
Xkest = Xk + Kk*erro_estimacao; // X correcao
Pkest = (eye(5,5) - Kk*Hk)*Pk; // P correcao
/////////Atualizacao Vars. Auxs.//////////
Pkant=Pkest;
Xkant = Xkest(:,tempo);
/////////CALCULO DA VARIAVEIS ESTIMADA//////////
Vkest=[Xkest(1,tempo)/dt;Xkest(2,tempo)/dt] // velocidade
Vreal=[(yk(1,tempo))/dt;(yk(2,tempo))/dt];
Vk=[sqrt(((Vkest(1,tempo)))^2 +(Vkest(2,tempo))^2)];
dir_x=(ykest(1,tempo)-0);
dir_y=(ykest(2,tempo)-0);
Thetak=[(atan(dir_y / dir_x) * 180 / %pi)];
Wk=[(Thetak(tempo)-0)];
for tempo = 2:total_points
dt= t(tempo)- t(tempo-1); // variacao tempo
/////////PREDICAO//////////
Phi = [1 0 -Vk(tempo-1)*sind(Thetak(tempo-1))*dt cosd(Thetak(tempo-1))*dt 0;
0 1 Vk(tempo-1)*cosd(Thetak(tempo-1))*dt sind(Thetak(tempo-1))*dt 0;
0 0 Thetak(tempo-1) 0 dt;
0 0 0 Vk(tempo-1) 0;
0 0 0 0 Wk(tempo-1)]; // atualizacao modelo
Xk = Phi*Xkant; // predicao X
Pk = Phi*Pkant*Phi' + Qk; // predicao variancia
/////////ATUALIZACAO DE DADOS//////////
yk = [yk, ([x(tempo); y(tempo); 0; 0; 0;])];//coleta dados
ykest=[ykest, (Hk*Xk)];
erro_estimacao=[erro_estimacao,yk(:,tempo)-ykest(:,tempo)];
/////////CORRECAO//////////
Kk = Pk*Hk'*(Hk*Pk*Hk' + Rk)^-1; // ganho de kalman
Xkest = [Xkest ,Xk + Kk*erro_estimacao(:,tempo)]; // correcao X
Pkest= (eye(5,5) - Kk*Hk)*Pk; //(eye(2,2) - Kk*Hk)*Pk;
/////////Atualizacao Vars. Auxs.//////////
Pkant=Pkest;
Xkant = Xkest(:,tempo);
/////////CALCULO DA VARIAVEIS ESTIMADA//////////
Vkest=[Vkest, [(ykest(1,tempo)-ykest(1,tempo-1))/dt;(ykest(2,tempo)-ykest(2,tempo-1))/dt]];
Vreal=[Vreal, [(yk(1,tempo)-yk(1,tempo-1))/dt;(yk(2,tempo)-yk(2,tempo-1))/dt]];
Vk=[Vk, sqrt(((Vkest(1,tempo)))^2 +(Vkest(2,tempo))^2)];
dir_x=(ykest(1,tempo)-ykest(1,tempo-1));
dir_y=(ykest(2,tempo)-ykest(2,tempo-1));
Thetak=[Thetak, (atan(dir_y / dir_x) * 180 / %pi)];
Wk=[Wk, (Thetak(tempo)-Thetak(tempo-1))];
/////////MATRIZES DE COVARIANCIA//////////
Qk = [(variance(Vkest(1,:)-Vreal(1,:))) 0 0 0 0;
0 (variance(Vkest(2,:)-Vreal(2,:))) 0 0 0;
0 0 0 0 0;
0 0 0 0 0;
0 0 0 0 0 ]/PesoQ;
Rk = [(variance(erro_estimacao(1,:)))0 0 0 0 ;
0 (variance(erro_estimacao(2,:))) 0 0 0;
0 0 0 0 0;
0 0 0 0 0;
0 0 0 0 0 ;]/PesoR;
end
////Primeira janela////
figure(1)
f=get("current_figure") ;
f.figure_size=[1000,800];
subplot(311)
title('Longitude X');
plot(x,'r');
//set(gca(),"auto_clear","off")
plot(ykest(1,:),'g');
set(gca(),"auto_clear","on")
hl=legend(['Longitude';'Longitude Calculada'],[-4]);
subplot(312)
title('Latitude Y');
plot(y,'r');
set(gca(),"auto_clear","off")
plot(ykest(2,:),'g');
set(gca(),"auto_clear","on")
h2=legend(['Latitude';'Latitude Calculada'],[-4]);
subplot(313)
title('Erro de estimação');
plot(erro_estimacao(1,:),'g')
set(gca(),"auto_clear","off")
plot(erro_estimacao(2,:),'r')
set(gca(),"auto_clear","on")
h3=legend(['Erro Longitude';'Erro Latitude'],[-4]);
////Segunda janela////
figure(2)
f2=get("current_figure") ;
f2.figure_size=[1000,800];
subplot(411)
title('Latitude x Longitude');
plot(ykest(1,:),ykest(2,:), 'r');
plot(x,y, '.');
h1=legend(['Kalman';'Real'],[-4]);
subplot(412)
title('Angulo estimado');
plot(Thetak, 'g');
h2=legend(['º'],[-4]);
subplot(413)
title('Velocidade estimada');
plot(Vk, 'b');
h3=legend(['m/s'],[-4]);
subplot(414)
title('Velocidade Angular');
plot(Wk, 'k');
h4=legend(['º/s'],[-4]);
|
b8a031812830c983a21597fbb8ce77e1e595f869 | 7bf9b615fc7bd8790ccc10d5e8f07824d114a245 | /demo_plotline.sce | 46080d7db9bf833c9ee20983611d8bb69690d35f | [] | no_license | szhilin/scirt | 91b4ea7c9f328999e8f5aa1799b0930256bcdde9 | 31ea78eb9e7fb547dd6d81fe86b89ccb9f4c761d | refs/heads/master | 2021-01-09T06:00:49.769480 | 2017-02-05T15:56:33 | 2017-02-05T15:56:33 | 80,890,335 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 466 | sce | demo_plotline.sce | /// Demo for ir_plotline()
b = [1; 2]; // line coefficients
bb = [2*%pi*b(1); -b(2)]; // compute another line coeficients
X = (1:5)'; // data points lying at
Y = [ones(5,1) X]*b; // the line y = b(0) + b(1)*x
figure;
plot(X,Y,'k*') // plot black points (X,Y)
ir_plotline(b,'r-') // plot red line y = x*b over points
ir_plotline(bb,'b--') // plot blue dashed line y = x*bb over points and red line
|
f6fb539597157f1cb2ecb87cdc43972b8ca8909c | 449d555969bfd7befe906877abab098c6e63a0e8 | /698/CH17/EX17.8/P8_spiral_bevel_gear.sce | d6e246a06e000709ea572c0c52dcea1d20d0f76a | [] | 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 | 1,671 | sce | P8_spiral_bevel_gear.sce | clc
//Example 17.8
//Spiral bevel gear
//------------------------------------------------------------------------------
//Given data
//Gear ratio
G=4/3
//dimensions of pinion
dp=0.15 //m
rp=dp/2
b=0.05 //m
//speed
np=240 //rpm
//module
m=5*10e-3 //m
//pressure angle
phi_n=14.5 //degrees
//spiral angle
gamma=30 //degrees
//power
P=6000 //W
res8=mopen(TMPDIR+'8_spiral_bevel_gear.txt','wt')
mfprintf(res8,'(a)Since values are same, unknown parameters will be same as those in problem 17.7\n')
dg=dp*G
rg=dg/2
mfprintf(res8,'\tDiameter of Gear=%d mm',ceil(dg*10e2))
L=sqrt(rp^2 + rg^2)
mfprintf(res8,'\tSlant height of pitch cone:\n\tL=sqrt(rp^2 + rg^2)=%d mm\n',ceil(L*10e2))
beta=asind(rp/L)
rm=rp-(b*sind(beta)*0.5)
mfprintf(res8,'\tMean radius of pinion:\n\trm=rp-(b*sin(beta)*0.5)=%d mm\n',rm*10e2)
Mt=(P*60)/(2*%pi*np)
mfprintf(res8,'\tPinion torque Mt=%d Nm\n',Mt)
Ft=Mt/rm
mfprintf(res8,'\tTangential force at mean radius:\n\tFt=Mt/rm=%d N\n\n',Ft)
//Pinion thrust force
Fp=Ft*((tand(phi_n)*sind(beta))/cosd(gamma) - (tand(gamma)*cosd(beta)))
mfprintf(res8,'(b)Pinion thrust force:\n\tFp=Ft*((tand(phi_n)*sind(beta))/cosd(gamma) - (tand(gamma)*cosd(beta)))=%d N\n\n',Fp)
//Gear thrust force
Fg=Ft*((tand(phi_n)*cosd(beta))/cosd(gamma) + (tand(gamma)*sind(beta)))
mfprintf(res8,'(c)Gear thrust force:\n\tFg=Ft*((tand(phi_n)*cosd(beta))/cosd(gamma) - (tand(gamma)*sind(beta)))=%d N\n\n',Fg)
mclose(res8)
editor(TMPDIR+'8_spiral_bevel_gear.txt')
//------------------------------------------------------------------------------
//-----------------------------End of program-----------------------------------
|
0c245d7c2b8038ac418fd97b9a434d6cd9a98b06 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1061/CH8/EX8.1/Ex8_1.sce | fa9cec0a4fa92ab3fdbb7c7d9ec9ae9b46aab4aa | [] | 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 | Ex8_1.sce | //Ex:8.1
clc;
clear;
close;
tr=40;// rediative life time in ns
tnr=60;// nonrediative life time in ns
i=35*10^-3;// drive current in amp
y=0.85*10^-6;// wavelength in m
h=6.626*10^-34;// plank constant
c=3*10^8;// the speed of light in m/s
e=1.602*10^-19;// charge
t=tr*tnr/(tr+tnr);// total carrier recombination lifetime ns
ni=t/tr;// internal quantam efficiency
pi=(ni*h*c*i)/(e*y);// internal power in watt
p_int=pi*10^3;// internal power in mW
printf("The total carrier recombination lifetime =%d ns", t);
printf("\n The internal power =%f mW", p_int);
printf("\n the answer is wrong in textbook"); |
eb05d01ab5d9501883b64156508050315d4bfadb | 449d555969bfd7befe906877abab098c6e63a0e8 | /3136/CH11/EX11.1/Ex11_1.sce | 4ee16f6250988f703ef8a0fc66f06f5d6c4b5f47 | [] | 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 | 1,263 | sce | Ex11_1.sce | clear all; clc;
Pe=1.5
Eg=0.96//generator efficiency
Em=0.94//transmission efficiency
P=Pe/(Eg*Em)
printf('\n The power is equal to %0.3f MW',P)
disp("After converting to W the magnitude of power is equal to 1.662*10^6 W")
Cp=0.47//from figure 11.10
V=13
rho=1.222
disp(" Since P=Cp(0.5*rho*A*V^3),thus on substituting the values we get P=630.9A")
A=P*10^6/(Cp*0.5*rho*V^3)// Since P=Cp*(0.5*rho*A*V^3)
printf(' On substituing the value of P in P=630.9A we get A equal to %g',A)
disp("After rounding off,the area is equal to 2634.7m^2")
Ar=2634.7//rounded off A
//A=R^2*pi
R=sqrt(A/%pi)
printf(' The Radius is equal to %g m',R)
disp("After rounding off the,area is equal to 28.9m")
Rr=28.9//rounded off
D=2*Rr
printf(' The Diameter is equal to %g m',D)
omega=(V/R)*5.3// In the book diameter has been incorrectly substituted in place of radius(R). That is the reason why this particular answer doesn't match with the one given in the book.
printf('\n Omega is equal to %0.2f rad/s',omega)
N=(omega*30)/%pi//since N is proportional to omega and the answer for omega doesnt match with the answer given in the book(because of the aforementioned reason), the answer of N doesn't match either.
printf('\n RPM is equal to %g rpm',N)
|
b29b820572e03d8a6717560f85492a0bb6d28ff3 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3772/CH10/EX10.3/Ex10_3.sce | 23777b820039ee810074254bdaf62da14604f3fa | [] | 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 | 2,201 | sce | Ex10_3.sce | // Problem no 10.3,Page No.252
clc;clear;
close;
//taking moment at pt A we get
R_D=(90*6+120*3)*9**-1 //Reaction at Pt D
//Joint D
//Applying the summation of vertical forces we get
F_GD=100*(sin(60*%pi*180**-1))**-1
//Applying the summation of horizontal forces we get
F_DC=F_GD*cos(60*%pi*180**-1)
//Joint G
//Applying the summation of vertical forces we get
F_GC=F_GD
//Applying the summation of horizontal forces we get
F_FG=F_GD*cos(60*%pi*180**-1)+F_GC*cos(60*%pi*180**-1)
//joint C
//Applying the summation of vertical forces we get
F_FC=(115.5*sin(60*%pi*180**-1)-90)*(sin(60*%pi*180**-1))**-1
//Applying the summation of horizontal forces we get
F_CB=F_DC+F_GC*cos(60*%pi*180**-1)+F_FC*cos(60*%pi*180**-1)
//joint F
//Applying the summation of vertical forces we get
F_FB=F_FC
//Applying the summation of horizontal forces we get
F_EF=F_FG+F_FC*cos(60*%pi*180**-1)+F_FB*cos(60*%pi*180**-1)
//Joint B
//Applying the summation of vertical forces we get
F_EB=(120-F_FB*sin(60*%pi*180**-1))*(sin(60*%pi*180**-1))**-1
//Applying the summation of horizontal forces we get
F_BA=F_CB+F_FB*cos(60*%pi*180**-1)-F_EB*cos(60*%pi*180**-1)
//Joint E
//Applying the summation of vertical forces we get
F_AE=F_EB
//Result
printf("Forces in Each members are as follows:F_GD %.1f kN (compression)",F_GD)
printf("\n :F_DC %.2f",F_DC);printf(" KN(Tension)" )
printf("\n :F_GC %.1f kN (Tension)",F_GC)
printf("\n :F_FG %.1f kN (Compression)",F_FG)
printf("\n :F_FC %.1f kN(compression)",F_FC)
printf("\n :F_CB %.2f",F_CB);printf(" KN(Tension)")
printf("\n :F_FB %.1f kN(compression)",F_FB)
printf("\n :F_EF %.2f",F_EF);printf(" KN(compression)")
printf("\n :F_EB %.2f",F_EB);printf(" KN(Tension)")
printf("\n :F_BA %.2f",F_BA);printf(" KN(Tension)")
printf("\n :F_AE %.2f",F_AE);printf(" KN(compression)")
|
5674c22bef5da335adbafe243670fdb06b7b30cb | 449d555969bfd7befe906877abab098c6e63a0e8 | /281/CH7/EX7.2/example7_2.sce | b8b88deed3031133641aa9af8fac758cfdf9c64c | [] | 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 | 1,124 | sce | example7_2.sce | disp('chapter 7 ex7.2')
disp('given')
disp('Design a precision full-wave rectifier circuit')
disp('peak output Vo=2volt')
Vo=2
disp('input peak value Vi=.5volt')
Vi=0.5
disp('frequency f=1MHz')
f=1*10^(6)
disp('supply voltage Vcc=+or-15volt') //(using bipolar op-amp)
Vcc=15
disp('I1>IBmax')
disp('let I1=500*10^(-6)A') //for adequate diode current
I1=500*10^(-6)
disp('R1=Vi/I1')
R1=Vi/I1
disp('ohms',R1) //standard value
disp('R2=2*R1')
R2=2*R1
disp('ohms',R2) //use two 1kohm resistors in series
disp('R3=R1||R2')
R3=R1*R2/(R1+R2)
disp('ohms',R3) //use 680ohm standard value
disp('R4=R5=R1=1kohm')
R4=1000
R5=1000
disp('for the output tobe 2volt when the input is 0.5volt')
disp('R6=Vo/Vi*R5')
R6=Vo/Vi*R5
disp('ohms',R6)
disp('use standard value R6=3.9kohm')
R6=3900
disp('R7=R4||R5||R6')
R7=R4*R5*R6/(R4*R5+R5*R6+R6*R4)
disp('ohms',R7) //use 470ohm standard value
disp('For diode D1 and D2,Vr>30volt and trrmax=0.1microsec as in ex7.1')
disp('Compensate A1 as a voltage follower')
disp('A2 for gain of R6+R4||R5/(R4||R5)')
A2=(R6+(R4*R5/(R4+R5)))/(R4*R5/(R4+R5))
disp(A2) |
506630cb08623a7d29c81d878de9f377ea046da2 | 0e1b45c07f0938ba9c8a003d6ae1cf2d8315efdb | /uva.onlinejudge.org/112, Tree Summing/test5.tst | 934fdb423f336a8b594f472215431f8cd342006b | [] | no_license | Kot-Angens/acm | c85d8582c3e84f218415321743864b9680e01f2e | 05472eaa0fff7abb6679826085da5e0c990df4cb | refs/heads/master | 2021-01-24T22:36:05.159612 | 2012-10-02T13:51:56 | 2012-10-02T13:51:56 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 57 | tst | test5.tst | 5 (18 ( - 13 ( ) ( ))())
~~~~~~~~~~~~~~~~~~~~~~~~
yes
|
9c22c97d59b4c427d86a4bacf7a6ac97615aa125 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1085/CH5/EX5.4/ex5_4.sce | 62640fa27788f5868ef61a2f5f43c964c1b713d0 | [] | 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 | 217 | sce | ex5_4.sce | //Exam:5.4
clc;
clear;
close;
t=10^(-14);//mean free time between the collisions(in second)
e=1.6*10^-19;
m=9.1*10^-31;
Mobility=e*t/m;//in m^2/V-s
disp(Mobility,'mobility of condution electron(in m^2/V-s)='); |
a3e8144c21d11e5af582f7f4a655bd616071a088 | d56141249002a5da7c4a2641dbdfc609809046a8 | /octopus/external_field_plot.sce | de9fa9d76d70b4b240334062cec360cd7d7aa677 | [] | no_license | kcbhamu/DFTutilities | 14a77226c1229ec61563cc08316d6c32814ddb57 | d6c859407a6b13c8bc5340c08db7a0125d6ed4e6 | refs/heads/master | 2021-06-24T15:23:58.675113 | 2017-08-23T20:56:44 | 2017-08-23T20:56:44 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,111 | sce | external_field_plot.sce | // This code is to show the external fields of Octopus
xdel(winsid()); clear;
// Parameters ==========================================================
env_type='cw', //'gaussian', 'cosinoidal', 'cw', 'trapezoidal'
F0=1e-3;
t0=5;
tau0=5;
tau1=2;
omega=2;
T_max=100;
T_div=200;
// Main ================================================================
function val=field_func(tn)
select env_type
case 'gaussian'
val=F0*exp(-(tn-t0)/(2*tau0^2))*sin(omega*tn);
case 'cosinoidal'
if abs(tn-t0) > tau0
val=0;
else
val=F0*cos((%pi/2)*(tn-2*tau0-t0)/(tau0))*sin(omega*tn)
end
case 'cw'
val=F0*cos(omega*tn)
case 'trapezoidal'
if tn < tau0
val=F0*(tn/tau0)*sin(omega*tn)
elseif tn > tau0+t0
val=F0*(1-(tn-tau0-t0)/tau1)*sin(omega*tn)
elseif tn > tau0 & tn < tau0+t0
val=F0*sin(omega*tn)
else
val=0
end
end
endfunction
t=linspace(0,T_max,T_div);
field_str=zeros(T_div,1);
for n=1:T_div
field_str(n)=field_func(t(n));
end
plot(t,field_str)
|
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