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9effdcbbc976d6e6e754d180645f05a0811798f0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1847/CH2/EX2.29/Ch02Ex29.sce | bfbf2fcaf993ae696d11ea4e1d0f92299bda9926 | [] | 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 | 458 | sce | Ch02Ex29.sce | // Scilab Code Ex2.29:: Page-2.21 (2009)
clc; clear;
lambda = 5890e-008; // Wavelength of light used, cm
n = 5; // Order of interference fringes
mu = 1.5; // Refractive index of the mica sheet
// As path difference, (mu - 1)*t = n*lambda, solving for t
t = n*lambda/(mu-1); // Thickness of the mica s... |
c7517be35c07b406f9db97dd6e68d431b492bf8d | 449d555969bfd7befe906877abab098c6e63a0e8 | /2021/CH15/EX15.8/EX15_8.sce | b849a0af08f417733ecb40364f67cc7fa38fc043 | [] | 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 | 256 | sce | EX15_8.sce | //Finding of velocity at the outlet of a nozzle
//Given
k=1.4;
P1=294.3;
P2=137.34;
T1=303;
R=287;
//To Find
rho=P1/(R*T1);
V2=sqrt((2*k/(k-1))*(P1/rho)*(1-(P2/P1)^((k-1)/k)));
disp("velocity at the outlet of a nozzle ="+string(V2)+" m/sec");
|
858b67d7b1e392609c2896a3aa2db18f028bf33f | 449d555969bfd7befe906877abab098c6e63a0e8 | /3754/CH3/EX3.17/3_17.sce | 7b2660061f4b47a7749c4c3118ae7cec9efc91fe | [] | 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 | 215 | sce | 3_17.sce | clear//
//Variables
G = 50*10**-6 //Conductance (in siemens)
//Calculation
R = 1/G //Resistance (in ohm)
//Result
printf("\n The Resistance is %0.3f kilo-ohm.",R * 10**-3)
|
e595fbd06ca198809b36e18ac4a8308eb16b92e0 | 3cbee2296fd6b54f80587eead83813d4c878e06a | /sci2blif/rasp_design_added_blocks/Adaptive_receptor.sce | 6f97c7464198fe64338cfd00b49a432dc9dd4fbb | [] | no_license | nikhil-soraba/rasp30 | 872afa4ad0820b8ca3ea4f232c4168193acbd854 | 936c6438de595f9ac30d5619a887419c5bae2b0f | refs/heads/master | 2021-01-12T15:19:09.899590 | 2016-10-31T03:23:48 | 2016-10-31T03:23:48 | 71,756,442 | 0 | 0 | null | 2016-10-24T05:58:57 | 2016-10-24T05:58:56 | null | UTF-8 | Scilab | false | false | 117 | sce | Adaptive_receptor.sce | style.fontSize=16;
style.displayedLabel="Adaptive_receptor"
pal5=xcosPalAddBlock(pal5,"Adaptive_receptor",[],style);
|
193c8b5bcfc2c21cd84f5620fb26894c7e4e76a6 | cdce9f14c526447da44b104d66b5f04c4f106378 | /dat/crf.tst | d2a8ff4ca17a573226d915733ea9b295383f69cd | [] | no_license | LZH520/wordseg-based-on-crf0.58 | c25ca569fd82c057b2ac95122bf8db9046f3c31a | 30b08f393a6599f9aac33c9980afda37950c1700 | refs/heads/master | 2020-04-09T17:59:39.275031 | 2018-12-05T10:00:11 | 2018-12-05T10:00:11 | 160,498,333 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,109,301 | tst | crf.tst | 扬 B
帆 M
远 M
东 M
做 M
与 M
中 M
国 M
合 M
作 M
的 M
先 M
行 E
希 B
腊 M
的 M
经 M
济 M
结 M
构 M
较 M
特 M
殊 M
。 E
海 B
运 M
业 M
雄 M
踞 M
全 M
球 M
之 M
首 M
, M
按 M
吨 M
位 M
计 M
占 M
世 M
界 M
总 M
数 M
的 M
1 M
7 M
% M
。 E
另 B
外 M
旅 M
游 M
、 M
侨 M
汇 M
也 M
是 M
经 M
济 M
收 M
入 M
的 M
重 M
要 M
组 M
成 M
部 M
分 M
, M
制 M
造 M
业 M
规 M
模 M
相 M
对 M
较 M
小 M
。 E
... |
b12f7aadd10050a147c935f2ce901ce21a3c56fb | a62e0da056102916ac0fe63d8475e3c4114f86b1 | /set11/s_Fundamentals_Of_Electronic_Devices_J._B._Gupta_1787.zip/Fundamentals_Of_Electronic_Devices_J._B._Gupta_1787/CH7/EX7.2/Exa7_2.sce | df987d0b5d4256c538d11d70e1314ec4d760d6dc | [] | no_license | hohiroki/Scilab_TBC | cb11e171e47a6cf15dad6594726c14443b23d512 | 98e421ab71b2e8be0c70d67cca3ecb53eeef1df6 | refs/heads/master | 2021-01-18T02:07:29.200029 | 2016-04-29T07:01:39 | 2016-04-29T07:01:39 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 219 | sce | Exa7_2.sce | errcatch(-1,"stop");mode(2);//Exa 7.2
;
;
//given data :
delVDS=1.5;//in Volt
delID=120;//in uA
delID=120*10^-6;//in A
rd=delVDS/delID;//in Ohm
disp(rd*10^-3,"AC drain resistance of JFET in Kohm : ");
exit();
|
ac5f7a4a113ad6fa987b7ee722d77d1ae4d02784 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3311/CH9/EX9.12/Ex9_12.sce | 4980feb758589e285008978a7a91831f86563a2a | [] | 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 | 1,152 | sce | Ex9_12.sce | // chapter 9
// example 9.12
// Determine rms value of the output line and phase voltages, rms value of the fundamental component of the line and phase voltage
// page-582
clear;
clc;
// given
Edc=500; // in V (source voltage)
// calculate
E_line_rms=sqrt(2/3)*Edc; // calculation of rms value of the output line voltage... |
a2fdaffe23cfcceda46d028fb150db38913dd405 | 089894a36ef33cb3d0f697541716c9b6cd8dcc43 | /NLP_Project/test/tweet/bow/bow.1_7.tst | 9cd0a7530d2e43cb9b8780803729ed56e13bb7b8 | [] | no_license | mandar15/NLP_Project | 3142cda82d49ba0ea30b580c46bdd0e0348fe3ec | 1dcb70a199a0f7ab8c72825bfd5b8146e75b7ec2 | refs/heads/master | 2020-05-20T13:36:05.842840 | 2013-07-31T06:53:59 | 2013-07-31T06:53:59 | 6,534,406 | 0 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 25,462 | tst | bow.1_7.tst | 1 12:0.015625 13:0.2 27:0.08333333333333333 36:0.1 41:0.5 50:1.0 58:0.125 67:0.75 70:0.125 82:0.1111111111111111 85:0.3333333333333333 98:1.0 109:0.5 113:0.5 176:0.5 197:0.07142857142857142 230:2.0 341:1.0 381:1.0 405:1.0 438:1.0 473:1.0 497:1.0 500:1.0 506:0.5 522:0.3333333333333333 535:0.3333333333333333 619:0.5 708:... |
8bc3e0afdd389c17e3dafbad216273c8e1465be7 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3788/CH4/EX4.7.1/Ex4_7_1.sce | 6f291cbff1ee2275cae36ba1930e83182ebdbc9b | [] | 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 | Ex4_7_1.sce | //Example 4.7.1
//Calculate the overall CN ratio
//Variables
clc
clear
CNdnratio = 100
CNupratio = 100
CIratio = 24
CIratioindB = 0.004
CN0 = (1/((1/CNupratio) + (1/CNdnratio)))
CN1 = (1/((1/CNupratio) + (1/CNdnratio) + CIratioindB))
//result
printf("CN0 ratio is %f\n",CN0)
printf("The overall CN0 ra... |
c2461c988fbb5187cbcd0ab67718254bd83209e5 | f04d3d47f893de08cd99a31b4870112915b80d5b | /Datasets/segment/data6.tst | 26915b2ee881ca46c2c5d215b5a845871f6a2527 | [] | no_license | MesumRaza/MyWorkInPython | f5364b8514943e44c7200123653da9f4551251b1 | bd8c9b3ca2fb02ae6d2b626054fa3cd32c28b330 | refs/heads/master | 2021-08-19T21:46:41.412995 | 2017-11-27T13:37:52 | 2017-11-27T13:37:52 | 111,728,604 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 37,194 | tst | data6.tst | 0.920949 0.625 0 0 0 0.0304183 0.00050604 0.0360248 0.00101348 0.132714 0.110211 0.112666 0.17537 0.636194 0.0670588 0.884251 0.165685 0.395599 0.895958class6
0.324111 0.508333 0 0.333333 0 0.079848 0.00215744 0.0260869 0.000771668 0.339272 0.303079 0.41458 0.293843 0.475746 0.572941 0.231499 0.41458 0.339145 0.156528c... |
d6406ad18ef2b71e63f042bad85f38bbf5500c29 | 449d555969bfd7befe906877abab098c6e63a0e8 | /548/DEPENDENCIES/6_19data.sci | e01c5a8bb835c5aed2ae487a18cf08a811571192 | [] | 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 | sci | 6_19data.sci | //for the cessna skylane(CP-1):
W=11494.35;//fuel empty weight(N)
W1=3916//total weight(N) including pilot seat etc
Wf=1633.15;//weight(N) of fuel
Wo=W+Wf-W1 //gross weight of UAV
b=10.912;//wingspan(meter)
S=16.16;//wingarea(m^2)
AR=b^2/S//aspect ratio
D=1.225;//density at sea level(Kg/m^3)
Cdo=0.025;//parasi... |
bbea39a1ee919260738794b0c4112e0134e53345 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1859/CH8/EX8.15/exa_8_15.sce | febb297c411fa6b0a3a6753fbc4229de61fe4abf | [] | 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 | 313 | sce | exa_8_15.sce | // Exa 8.15
clc;
clear;
close;
// Given data
C_1N= 36;// in pF
C_2= 150;// in pF
R_1N= 1;// in M ohm
R_1= 10;// in M ohm
// R_1/(omega*(C_2+C_1N)) = R_1N/(omega*C_1)
C_1= R_1N*(C_2+C_1N)/R_1;// in pF
disp(C_1,"Value of C_1 in pF")
C_T= 1/(1/C_1+1/(C_2+C_1N));// in pF
disp(C_T,"Value of C_T in pF")
|
b5a8d6d4fe34ebf3cc8ffe436bd6853d3a5a16a6 | 33f77c32fb16283501d950b6fc6b43a07914f32e | /scilab_autopilot/lib/phys/screw/screw_getResultant.sce | 08fc798121382bb86106bff4d91ed785e3c2a65e | [] | no_license | CLUBMODELISMECEADSTOULOUSE/autopilot | 26b79d6a2a632f08989a5528e82f553616617646 | a6ffae2f8a86fbc79e636ddd5173af104e1af9cd | refs/heads/master | 2021-01-21T00:59:06.271128 | 2015-10-25T09:31:54 | 2015-10-25T09:31:54 | 34,409,237 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 88 | sce | screw_getResultant.sce | function [resultant] = screw_getResultant(screw)
resultant = screw(1:3,:);
endfunction
|
933d9c700f49119a67ea4606dbbb9295981f5879 | 194d4cafa290b2fdf3aa87e18ddadcfff70a70d8 | /Dist.sci | 103e6bd47a60822a08c7cff0722def19618b6558 | [] | no_license | KomalT/tryout60 | cc43d4a5d96b5525e691a907c7ad8c7e61004a3c | ef4cc3e641a77c2cea565035cf033536d91e29ea | refs/heads/master | 2016-08-12T19:05:56.548794 | 2016-05-02T06:15:37 | 2016-05-02T06:15:37 | 55,436,025 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,323 | sci | Dist.sci | //Since this was first program on fsolve it thought its unable to handle six eqns hence i converted them to 3 variables however i kept the initial comments to refer
clc;clear;
//distillation columns in series
//...comp Feed Stream1 Intemediates Stream2 Stream3
//...Ethane.. 20 .94k(4) k(1) ... |
cce5fa04adf8bd01d2b5e6a63191dc9b20deda14 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1076/CH3/EX3.15/3_15.sce | c7495c1a49a0f59dd1e04fba55a95ccfce2ff528 | [] | 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 | 427 | sce | 3_15.sce | clear;
clc;
Z=complex(180*cosd(75) , 180*sind(75));
Y=complex(1e-3*cosd(90) , 1e-3*sind(90));
g=sqrt(Y*Z);
Zc=sqrt(Z/Y);
Z1=Zc * sinh(g);
Y1=(1/Zc) *1e3*( (cosh(g)-1)/sinh(g));
mprintf("\nZpi= %s", string(round(abs(Z1)*100)/100) +'/_'+ string(round(atand(imag(Z1)/real(Z1))*100)/100) )
mprintf("\nYpi/... |
c66e88cda27165eab2c59fd83b9d19bb4e5e3098 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2510/CH26/EX26.8/Ex26_8.sce | 52998dda48cbcc1d0d955d4a557d68ee8901b0f8 | [] | no_license | FOSSEE/Scilab-TBC-Uploads | 948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1 | 7bc77cb1ed33745c720952c92b3b2747c5cbf2df | refs/heads/master | 2020-04-09T02:43:26.499817 | 2018-02-03T05:31:52 | 2018-02-03T05:31:52 | 37,975,407 | 3 | 12 | null | null | null | null | UTF-8 | Scilab | false | false | 272 | sce | Ex26_8.sce | //Variable Declaration:
syms A
syms B
syms r
syms C
//Calculation:
res = solve([A + B*log(2)-log(3),A + B*log(4)-log(12)],[A,B])
A = -0.2877
B = round(float(res[B]))
kA = round(exp(A),2)
a = B
//Result:
disp("The equation for rate of reaction is: %f kA*C**a ")
disp(-r)
|
8f5ac92a01f10509184403e50504018be26afa76 | 449d555969bfd7befe906877abab098c6e63a0e8 | /839/CH18/EX18.8/Example_18_8.sce | df622aee42ee53560a8c7338ea47b426b88ddf1e | [] | no_license | FOSSEE/Scilab-TBC-Uploads | 948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1 | 7bc77cb1ed33745c720952c92b3b2747c5cbf2df | refs/heads/master | 2020-04-09T02:43:26.499817 | 2018-02-03T05:31:52 | 2018-02-03T05:31:52 | 37,975,407 | 3 | 12 | null | null | null | null | UTF-8 | Scilab | false | false | 499 | sce | Example_18_8.sce | //clear//
clear;
clc;
//Example 18.8
//Given
xOA = 0.15;
xAi = 0.015;
P = 1; //[atm]
//Solution
Pv = 3.4; //[atm]
alpha_o = 3.4; //at 36 C
Tbi = 27; //[C]
alpha_i = 3.6
alpha = (alpha_o+alpha_i)/2;
//Basis 1 mol Feed
nOA = 0.15; //[mol]
nA = 0.015; //[mol]
nOB = 0.85; //[mol]
//Using Eq.(18.79... |
a2c6c6c209fa274f8f343228837eca62c9a1f95b | 449d555969bfd7befe906877abab098c6e63a0e8 | /2660/CH14/EX14.16/Ex14_16.sce | ae3e8c79e21daad3f30a6b05e5ceae3d36f75468 | [] | 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 | 638 | sce | Ex14_16.sce | clc
t = 0.127 // uncut chip thickness in mm
b = 6.35 // width of cut in mm
v = 1.20 // cutting speed in m/min.
alpha = 10 // rake angle in degrees
fc = 556.25 // cutting force in N
ft = 222.50 // thrust force in N
tc = 0.229 // chip thickness in mm
r = t/tc // chip thickness ratio
R = sqrt((fc^2)+(ft^2))
bita... |
ea381eb9c8bd49474a306f15af4013cb8106ca7c | 449d555969bfd7befe906877abab098c6e63a0e8 | /770/CH4/EX4.4/4_4.sce | aa42d9b99f6abdccb925204ac165566003eddf99 | [] | 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 | 2,665 | sce | 4_4.sce | clear;
clc;
//Example - 4.4
//Page number - 151
printf("Example - 4.4 and Page number - 151\n\n");
// Given
V_vessel = 0.2;//[m^(3)] - Volume of the vessel
P_1 = 10;//[bar] - Initial pressure inside the vessel
P_1 = P_1*10^(5);//[Pa]
P_2 = 3.5;//[bar] - Final pressure inside the vessel
P_2 = P_2*10^(5);//... |
a1ff7d288673048e7a162f7ab534e78dc6f8bf4c | 449d555969bfd7befe906877abab098c6e63a0e8 | /1646/CH19/EX19.1/Ch019Ex1.sce | 9db4b56ecb58e0ebdd8c362447b10daec23c73a7 | [] | 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 | 474 | sce | Ch019Ex1.sce | // Scilab Code Ex19.1: Page-959 (2011)
clc; clear;
T_c = 6.2; // Critical temperature of lead in superconducting state, K
T = 4; // Temperature at which critical field of lead is to be found out, K
H_c0 = 0.064; // Critical field for lead at 0 K, MA/m
H_cT = H_c0*(1-(T/T_c)^2); // Critical field fo... |
2200e7ceb37a0d1062c8e25bea6d67ce7046992a | 449d555969bfd7befe906877abab098c6e63a0e8 | /1820/CH14/EX5.C/ExampleC_5.sce | 351e319d61f2a3686ab3f1ccf40ad739852dd521 | [] | 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 | 1,116 | sce | ExampleC_5.sce | // ELECTRIC POWER TRANSMISSION SYSTEM ENGINEERING ANALYSIS AND DESIGN
// TURAN GONEN
// CRC PRESS
// SECOND EDITION
// APPENDIX C : REVIEW OF BASICS
// EXAMPLE : C.5 :
clear ; clc ; close ; // Clear the work space and console
// GIVEN DATA
D_ab = 6.8 ; // distance b/w conductors center-to-center in ft
D_... |
80acab78f5ac3b8fbf1b0d290dd8f788183f874d | 449d555969bfd7befe906877abab098c6e63a0e8 | /2144/CH8/EX8.14/ex8_14.sce | c9bd0dbb4fb1a0118b1aaae5509643ef9bb1ceee | [] | 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 | 370 | sce | ex8_14.sce | // Exa 8.14
clc;
clear;
close;
// Given data
CO2= 10;// in %
O2= 6;// in %
N2= 84;// in %
// a= x/12 and b= (1-x)/2
// 0.23*y/32= a+b/2+c
abyc= CO2/O2;
// a/(0.77*y/28)= CO2/N2
x=0.835;
carbon_per= x*100;// in %
hydrogen_per= 100-carbon_per;// in %
disp("The fuel consists of "+string(carbon_per)+" % car... |
9831cf7086749d61fb2cd213893c20ec857398f6 | 449d555969bfd7befe906877abab098c6e63a0e8 | /779/CH9/EX9.14/9_14.sce | f0519cbac9799e4f4c0dd68f0fd1907671fbf241 | [] | 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 | 696 | sce | 9_14.sce | // At 6 MPa, 400 degree
h1 = 3177.2; s1 = 6.5408;
// At 20 degree
h0= 83.96; s0 = 0.2966;
T0 = 293;
f1 = (h1-h0)-T0*(s1-s0);
// By interpolation
t2 = 273 + 393;
s2 = 6.63;
h2 = h1;
f2 = (h2-h0)-T0*(s2-s0);
df = f1-f2;
x3s = (s2-1.5301)/(7.1271-1.5301);
h3s = 504.7+(x3s*2201.9);
eis = 0.82;
h3 = h2-eis*(... |
f00f7581ae194f0cc9599e575c7d27b3884f3116 | bb44d6eb6adf8f21077f2a49f2eb44d2424b2a5b | /sort.sci | 406241194ed8be348f59c9bf3499e22a78f6c112 | [] | no_license | prasadovhal/Scilab-Codes | c8ccc49feba4243d092d8a1eba7a708eb95dc89e | 3af5566d62b1f1b6cf080ec20391c39b9d61897d | refs/heads/master | 2020-03-29T16:50:45.738023 | 2018-09-24T16:05:50 | 2018-09-24T16:05:50 | 150,130,310 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 261 | sci | sort.sci | function [v]=sort3(v)
s = size(v)
s1 = s(2)
for (i=1:s1)
for(j = 1:(s1-1))
if(v(j) > v(j+1))
temp = v(j)
v(j) = v(j+1)
v(j+1) = temp
end
end
end
endfunction
|
97b009bee62f24c3c819fddc17ce48288bc577ae | 449d555969bfd7befe906877abab098c6e63a0e8 | /3886/CH3/EX3.29/Ex3_29.sce | c81d387772ddd7c32303957b4946a41b6c16d5ce | [] | 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 | 426 | sce | Ex3_29.sce | //determine reactions at A,C and D
//Refer fig. 3.56
//Taking moment about A
RE=(20*3+40*4*sind(45))/3 //kN
HA=40*cosd(45) //kN
VA=20+40*sind(45)-RE //kN (Downwards)
//Taking moment about C
RD=((20*sind(60))-(10)+(57.71*2))/3 //kN
HC=20*cosd(60) //kN
VC=20*sind(60)+RE-RD //kN
printf("Required Values ar... |
33eb52f2729726dede9a6d5b1c746e72187a29b4 | 09697f1820407362408542dc147b6c5a0281dd5a | /3(F).sce | b8d98e050df80689916b27c030a722c01766b586 | [] | no_license | muitnet/DISCRETE-MATHEMATICS | f326ee3cc12958cee3100473c3cccd9c908c314f | 4598a406de5e29190ac04d1f3a722452494403cc | refs/heads/master | 2020-06-11T20:49:50.821691 | 2016-12-05T12:53:32 | 2016-12-05T12:53:32 | 75,624,408 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 506 | sce | 3(F).sce | function[k]=funct1(n,p,q)
k= factorial (n)/( factorial (p)* factorial (q));
endfunction
k= funct1 (7 ,3 ,2) // in "BENZENE" three letters are alike(the three Es) and two are alike (the two Ns)
disp(k, 'The number of seven-letter words that can be formed using letters of the word BENZENE')
disp ( ' a set of 4 indis... |
8467d0852566f6052fd8fcab8f8b1600a5d27700 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2708/CH1/EX1.30/ex_1_30.sce | 30f8ad16b4b6bba240653afd41f71cabf0943437 | [] | 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 | 325 | sce | ex_1_30.sce | //Example 1.30 // velocity of light in medium
clc;
clear;
//given data :
d1=.3;// diameter of ring in cm
d2=.25;//diameter of ring(in cm) after placing in medium
c=3D8;//speed of light in m/s
u=(d2/d1)^2;// refractive index of medium
v=u*c;// velocity of light in fluid
disp(v,"velocity of light in liquid in m/... |
d7126bcb56c13f9b49efe55ca404284832e1165b | 449d555969bfd7befe906877abab098c6e63a0e8 | /2279/CH1/EX1.4/eg1_4.sce | 1f689f557bc644e3e6356a53e0db8308ee1522bb | [] | 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 | 516 | sce | eg1_4.sce | clear
clf
clc
t=-20:0.01:20;
for i=1:length(t)
if t(i)>0 then
x1(i)=0.5;
else
x1(i)=-0.5;
end
end
subplot(3,1,1)
plot(t,x1);
xtitle("x1(t)=-0.5 for t<0 and x1(t)=0.5 for t>0","time","amplitude");
xgrid(5);
subplot(3,1,2)
for i=1:length(t)
x2(i)=-t(i);
end
plot(t,x2);
... |
b16a622be715eadefb02e663d9eb27eb45928d03 | b29e9715ab76b6f89609c32edd36f81a0dcf6a39 | /ketpic2escifiles6/Doscaling.sci | 5054faf2595b82c97cd39107fd642fed74ed9c5b | [] | 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 | 244 | sci | Doscaling.sci | // 09.12.25
function Out=Doscaling(G)
global LOGX LOGY SCALEX SCALEY;
GLg=G;
if LOGX==1
GLg=[log10(G(:,1)),GLg(:,2)];
end;
if LOGY==1
GLg=[GLg(:,1),log10(G(:,2))];
end;
Out=[SCALEX*GLg(:,1),SCALEY*GLg(:,2)];
endfunction
|
5ed77f6965079ea6035418a329a952bc4e69d1fd | 449d555969bfd7befe906877abab098c6e63a0e8 | /2510/CH14/EX14.10/Ex14_10.sce | 33197c1ab91b2d4a1d9e7f56ac83688729c6d973 | [] | 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 | 865 | sce | Ex14_10.sce | //Variable declaration:
A = 1.0 //Surface area of glass (m^2)
h1 = 11.0 //Heat transfer coefficient inside room (W/m^2.K)
L2 = 0.125*0.0254 //Thickness of glass (m)
k2 = 1.4 //Thermal conductivity of glass (W/m.K)
h3 = 9.0 ... |
d884ed6d4ef41b235b535d323eeec736e97b8b3a | 3c47dba28e5d43bda9b77dca3b741855c25d4802 | /microdaq/macros/pre_code_gen.sci | 0b5828cd074b368c1d45cd0a7f6297439c5df271 | [
"BSD-3-Clause"
] | permissive | microdaq/Scilab | 78dd3b4a891e39ec20ebc4e9b77572fd12c90947 | ce0baa6e6a1b56347c2fda5583fb1ccdb120afaf | refs/heads/master | 2021-09-29T11:55:21.963637 | 2019-10-18T09:47:29 | 2019-10-18T09:47:29 | 35,049,912 | 6 | 3 | BSD-3-Clause | 2019-10-18T09:47:30 | 2015-05-04T17:48:48 | Scilab | UTF-8 | Scilab | false | false | 997 | sci | pre_code_gen.sci | function [ok,out]=pre_code_gen(scs_m)
global %microdaq
%microdaq.private.mdaq_signal_id = [];
%microdaq.private.mdaq_param_id = [];
reset_mdaq_blk_idx();
ok = %t;
// scan_mdaqBlock will fill mdaq_signal_id
// with signal ID from whole scheme
out = scan_mdaq_blocks(scs_m);
... |
e5769df1f55bd436d98ac4147cb05b3869c444ca | 449d555969bfd7befe906877abab098c6e63a0e8 | /74/CH1/EX1.15/example15_sce.sce | f30228ed0fb987a381a94e3e1e068a0413c96e6e | [] | 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 | 224 | sce | example15_sce.sce | //chapter 1
// example 1.15
//page 47, figure 1.57
Bdc=100;Bac=100;
Vbe=.715;
R=5600;
Vr=-(Vbe-10);
Ir=Vr/R;// Ir=Ic+Ib=Vr/R
disp(Ir)
Ic=Ir*(Bdc/(1+Bdc));//Ir=Ic+Ib=Ic+Ic/Bdc
disp(Ic)//ampre
Ic2=Ir
Ic3=Ir
Ic4=Ir |
34d1c5a13da716154213986fdb0d04a89a4339eb | fceea4482d57a155557a5001d94387849ba39c9c | /ruidoTest1.sce | f6f28d2cda09b064e5f49ad23ba625ec63855211 | [] | no_license | anmartinezdi/Proyecto-final-SyS | b7c122f4208dbcdf74aebab2a1f150c555a49655 | 8cfcea327feda202fd5fc56d93d7525e79a50544 | refs/heads/master | 2020-12-30T12:11:18.609555 | 2017-05-24T23:45:59 | 2017-05-24T23:45:59 | 91,409,150 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,114 | sce | ruidoTest1.sce | //Ruido blanco contiene todas las frecuencias
close();
clear;
[y,Fs]=wavread('Hello.wav');
y=y(1,:)
//sound(y,Fs);
noisegen(1,length(y)-1,0.1); //Señal de ruido, se guarda como dua_g
s=y+dua_g; //Suma de la original mas el ruido
m=50; //Numero de muestras de entrada
b = ones(m,1... |
f5e6149d76f1f23b8469d18ee95b7c0b2efbe513 | 717ddeb7e700373742c617a95e25a2376565112c | /40/CH8/EX8.8/Exa_8_8.sce | 7fad7f114998d44249d66b3d6c7a5d57acccc7bf | [] | 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 | 194 | sce | Exa_8_8.sce | //Relating DFT and DTFT
xn=[1 2 1 0];
XDFT=dft(xn,-1);
//for F=k/4,k=0,1,2,3
for k=1:4
XF(k)=1+2*%e^(-%i*%pi*(k-1)/2)+%e^(-%i*%pi*(k-1));
end
XF,XDFT
disp(XF,'The DFT of x[n] is');
|
d366ea2bc39597648f388969e737df5d5cc0096b | 2587236934174196597ea90b834c2cf87d5bdb0d | /Q3.sce | 4874b7e72ee05981594ba6130787afe637ce05f7 | [] | no_license | Stephaniebraga/SC2 | 386bb257d07e874e3a22595d90c1327ec26bf365 | 011331e5cad4a633f935495ff8e95151254a118a | refs/heads/master | 2021-01-19T04:56:19.429061 | 2015-08-04T12:39:35 | 2015-08-04T12:39:35 | 39,805,292 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 2,752 | sce | Q3.sce | //Trabalho de Simulação
//Disciplina: Sistemas de Comunicação II
//Dupla: Stéphanie Braga e Hugaleno
//Questão 3 - Equalizador ZF.
clc;
close;
clear;
//****SINAL****//
b=rand(1,10); //Gera matriz com valores aleatórios entre 0 e 1.
s=round(b); //arredonda os valores para 0 ou 1.
ns=size(s,2); //retorna o número... |
187982090e7f939e77652d4c5c34476b9e50bcce | 449d555969bfd7befe906877abab098c6e63a0e8 | /2891/CH1/EX1.5/Ex1_5.sce | 70d4b5ad062e0c6f4af2109b91df3732f468891e | [] | 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 | 190 | sce | Ex1_5.sce | // Exa 1.5
clc;
clear;
close;
// given :
A=[1 3 4] // vector A
B=[1 0 2] // vector B
k=sum(A.*B) // dot product of two vectors A and B
disp(k,"dot product of two vectors A and B:")
|
100bded71d2ea91c90d4700593c69cfcaddf2595 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2273/CH5/EX5.2/ex5_2.sce | 74f4023dc51f493ef64885da1370356ee82b3ade | [] | 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 | 642 | sce | ex5_2.sce | //voltage at sending end, percentage regulation,total line losses and transmission efficiency
clear;
clc;
//soltion
//given
P=5000;//kW//power
V=22000;//kV//recieving voltage
pf=0.8;//peak factor
R=4;//ohm//resistance
X=6;//ohm//loop reactance
Vr=V/sqrt(3);
I=P*1000/(3*round(Vr)*pf);
Vs=round(Vr)+(I*R*pf)+(... |
6f7125aec1168d85a59a6a2cd82425860a2dcfef | 449d555969bfd7befe906877abab098c6e63a0e8 | /1118/CH25/EX25.8/eg25_8.sce | 1dce2f1bd5e23fd05aeaa26465079800136e36b7 | [] | 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 | 672 | sce | eg25_8.sce | clear;
//clc();
w_days=300;
t=8;
tar_mdh=75;
tar_kwh=1.15;
tar_mdl=80;
tar_kwhl=1.43;
avg_load=400;
pf=0.8;
max_dem=500;
loss=0.04;
dep=0.15;
cost=900;
max_kva=max_dem/pf;
cap=max_kva/(1-loss);
cost_hv=cost*cap;
ann_int=dep*cost;
ann_max_dem=tar_mdh*12*max_kva;
ene_con=avg_load*w_days*t/(1-lo... |
8f9d688f10feae1efe95bcb9e58f9182fb60329b | cccbd1095e2f872b44c9f2cf3aaea40ce3b94a77 | /GNG-feci/GNG-feci.sce | 4c35cbd1f4264597f29ce31fc9c1251a3276bbfb | [] | no_license | Robstei/work | ca8a70dba742f520f16e0d7688fa448c79d7c2c5 | 0c7e3bedc1d66db3148de57f13d406d787b756df | refs/heads/master | 2021-07-16T17:37:10.588912 | 2020-05-17T19:51:43 | 2020-05-17T19:51:43 | 152,545,932 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 23,912 | sce | GNG-feci.sce | #text and color preferences
default_font_size = 25;
default_font = "Times new Roman";
default_background_color =242,242,242;
default_text_color = 0,0,0;
active_buttons = 3;
response_matching = simple_matching;
default_clear_active_stimuli = false;
begin;
$inheight = 800;
$inwidth = 1280;
array{
bit... |
5ceb571eb61efd708704674c605de5127662fd1a | 2306fe37806fcf2e0b7509d8c35d5b5761d87624 | /dessinerForme.sci | 40512bec6506266575fe909c30c7f58d4c6bac14 | [
"MIT"
] | permissive | thbt/PlanetarySystem | 60532b0a9e0e59a8ee2089eb721b68ff9c518335 | a8a514c583e59cebacaa3ad32cf5c2ac923d7e60 | refs/heads/master | 2021-01-01T16:40:28.843162 | 2015-07-30T09:30:03 | 2015-07-30T09:30:03 | 39,942,394 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 477 | sci | dessinerForme.sci | function dessinerForme(Sommets,Faces)
// On insère les données de chaque face dans des matrices qui contiendront
// leurs données x, y et z
Sommets = Sommets';
for i=1:size(Faces,'r')
X(:,i) = Sommets(Faces(i,:),1);
Y(:,i) = Sommets(Faces(i,:),2);
Z(:,i) = Sommets(Faces(i,:),3);
... |
03cb6898e5ad390337cd77de7f1ac6e441e50fe2 | d221f694a13098ee20d7f4e530d710430792099f | /projects/08/FunctionCalls/CallReturn/CallReturn.tst | eb7f74ae118a425f62600ba2d883b53972511659 | [] | no_license | lithium/nand2tetris | 61bc4898bacc399d2c43aac8bd8385a778d6c5a9 | 476651a1789d27bf350007120b95fd0c485fa3e5 | refs/heads/master | 2020-05-18T07:06:12.043167 | 2014-01-11T19:58:28 | 2014-01-11T19:58:28 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 555 | tst | CallReturn.tst | // This file is part of www.nand2tetris.org
// and the book "The Elements of Computing Systems"
// by Nisan and Schocken, MIT Press.
// File name: projects/08/FunctionCalls/FibonacciElement/FibonacciElement.tst
// FibonacciElement.asm is the result of translating both Main.vm and Sys.vm.
load CallReturn.asm,
... |
eb5839896ca20f8bde51ea2f016d4c4f1ccc6820 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2513/CH3/EX3.3/3_3.sce | a497652bb9b6f85aa4d3295d29da900e327e96e6 | [] | 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 | 518 | sce | 3_3.sce | clc
//initialisation of variables
w=1.0//cfs
w1=3.0//cfs
w2=45.0//cfs
v=3.0//fps
h=144//ft
D=12*sqrt(4*w/(%pi*w1))//in
d1=1.95//cfs
D1=12*sqrt(4*d1)/(%pi*v)//in
d2=41.6//cfs
D2=12*sqrt(4*d2)/(%pi*w1)//ins
//CALCULATIONS
C=%pi*(D)^2*3/(4*h)//cfs
C1=%pi*(1/4)*3//cfs
V=(d2*4)/(%pi*4^2)//fps
//RESULTS
prin... |
3036ca0d276d6c25f493e7b0f8f254649525ac1f | 0896afb25280a9d27c93c0c8e9d07e608426fbea | /scilab_prof/ballon_a_sculpter.sce | a34c071353d946a9b6c7a3c04d292e7fd8f0f8f1 | [] | no_license | netixx/projet_meca | 9a7c932ba4188a1ee6462effd5671e128ccc524f | a1d5794e2eeef61efadd7cbb8d8c477676610eec | refs/heads/master | 2020-12-30T14:56:13.306855 | 2012-12-12T13:51:34 | 2012-12-12T13:51:34 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 2,917 | sce | ballon_a_sculpter.sce | // /////////////////////
// Enveloppe cylindrique
// /////////////////////
// //////////
// Invariants // Question 5
// //////////
function [I1,I2]=Invariants(lambda, mu)
I1 = lambda^2 + mu^2 + 1/(lambda*mu)^2;
I2 = 1/lambda^2 + 1/mu^2 + (lambda*mu)^2;
endfunction
// ///////////
// Contraintes // Question 6
// //////... |
13dd9c051f80cd10764e883086fee071f9be1d0a | 449d555969bfd7befe906877abab098c6e63a0e8 | /1694/CH3/EX3.2/EX3_2.sce | 52e81e7fe71b3fd492273ba31a1df19a6af24812 | [] | 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 | 433 | sce | EX3_2.sce | clear;
clc;
printf("\nEx3.2\n");
//page no.-121
//given
m=9.11*10^-31;.......//mass of electron in kg
h=6.63*10^-34;.......//planck's constant in J*s
a=10^-10;............//width of box in m
n=1;.................//quantum no. for least energy
e=1.602*10^-19;........//charge
E=(h^2)/8*m*a^2........//least en... |
9b184d3dab234c859aa4428736c427e6980e87c2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /587/CH10/EX10.8/example10_8.sce | 982c1fda8e009e2a113151ebcc480ad1e6d0ff37 | [] | 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 | 456 | sce | example10_8.sce | clear;
clc;
//Example10.8[Replacing a Heat Pipe by a Copper Rod]
//Given:-
L=0.3;//[m]
D=0.006;//[m]
Q=180;//[W]
del_T=3;//Temperature Difference [degree Celcius]
//Properties of copper at room temperature
rho=8933;//[kg/m^3]
k=401;//[W/m.degree Celcius]
//Solution:-
A=Q*L/(k*del_T);//[m^2]
d=sqrt(4*A/%p... |
ad807e636bbf5e2b17fbe2d967213111bb9bec4f | 449d555969bfd7befe906877abab098c6e63a0e8 | /548/DEPENDENCIES/5_20data.sci | 89c733652af2879b93afa8657eb364252841fbca | [] | 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 | 228 | sci | 5_20data.sci | Wt=10258*9.8;//total weight of plane including fuel (unit N)
Wf=6071*9.8;//weight without fuel (unit N)
D=1.23;//density at sea level(Kg/m^3)
S=18.21;//wing area in m^2
Clm=1.15;//maximum lift coefficient at subsonic speed
|
2b8f962a443d993f73a7aaad55c6dc8d57eca3b2 | 5ff578fc2e64f1bb0107c54f8534a025742e08bc | /Lab Calc Num/newtonRaphson.sci | cc554fd3e3edc514599a25c4e9fb136ea2490afb | [] | no_license | notreve1/Files | 33a98a41bad9408acf2b27669f7bb4b444e9bd6b | b0bf1b5b984c4bd3b2f2e5361789716ce186ce63 | refs/heads/master | 2021-01-23T08:48:37.446551 | 2017-09-06T02:14:49 | 2017-09-06T02:14:49 | 102,541,230 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,183 | sci | newtonRaphson.sci | //Cria o vetor para armazenar alguns valores de x para plotar o gráfico
x = 0:0.01:30;
//Função f(x) aplicada aos valores de x
deff('y = f(x)', ['y = (x^2) - (7.6)*x + 11.55']);
//Derivada de f(x) = 2x - 7.6
deff('k = fp(x)', ['k = 2*x - 7.6']);
//Gera o gráfico
plot(x,f);
function [raiz, x, iter, ea]=n... |
345db962df2de5f8d4c23c4176e32f25ddd46490 | 99b4e2e61348ee847a78faf6eee6d345fde36028 | /Toolbox Test/fftfilt/fftfilt10.sce | a7e25b29994443bdf378585edaf18e326791e148 | [] | no_license | deecube/fosseetesting | ce66f691121021fa2f3474497397cded9d57658c | e353f1c03b0c0ef43abf44873e5e477b6adb6c7e | refs/heads/master | 2021-01-20T11:34:43.535019 | 2016-09-27T05:12:48 | 2016-09-27T05:12:48 | 59,456,386 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 130 | sce | fftfilt10.sce | x=[0 0 0 0 0 0 0 0];
b=[0 0 0 0 00 0 0 0];
y=fftfilt(b,x);
disp(y);
////output
// 0. 0. 0. 0. 0. 0. 0. 0.
|
26ca15d1564c123f537ec8c25ddb743b7c507fcb | 449d555969bfd7befe906877abab098c6e63a0e8 | /3751/CH11/EX11.9/Ex11_9.sce | 67c4b0361a0225262836e4cf8cda32d7d24fbf7c | [] | 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 | 1,836 | sce | Ex11_9.sce | //Fluid Systems - By - Shiv Kumar
//Chapter 11- Centrifugal Pumps
//Example 11.9
//To Find (i)Vane Angle at Inlet (ii)Work done by Impeller on water per second and (iii)Manometric Efficiency.
clc
clear
//Given Data:-
Do=500; //Outer Diameter of the Impeller, mm
... |
aa2d4b7ffd87722d349a5e29fdd1ad1735a6b67d | 449d555969bfd7befe906877abab098c6e63a0e8 | /2168/CH3/EX3.6/Chapter3_example6.sce | 5be34231d9669adbd345cf91086793a64cb217d3 | [] | 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 | 982 | sce | Chapter3_example6.sce | clc
clear
//Input data
T1=40+273//Temperature at the beginning of compression in K
p1=1//Pressure at the beginning of compression in kg/cm^2
p2=15//Pressure at the end of adabatic compression in kg/cm^2
T3=2000+273//Maximum temperature during the cycle in K
Cv=0.17//Specific heat at constant volume in kJ/kg.K
g... |
74abd46a205f1db1c0b87a1896fb63b7124f2c84 | 449d555969bfd7befe906877abab098c6e63a0e8 | /978/CH15/EX15.3/Example15_3.sce | 3cbd707b2cd055a01d626f78acaea194e3ead006 | [] | 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 | 242 | sce | Example15_3.sce | //chapter-15,Example15_3,pg 512
//(Po1/Po2)=1/2 and Po1+Po2=3Po2=Pi
Po2byPi=1/3//(Po2/Pi)
kL=acos(sqrt(Po2byPi))//k->coupling coefficient
L=kL//L=kL/k L->interacting length
printf("interacting length\n")
printf("L=%.3f/k",L) |
ec2d8ec6efb774e0b471ece75aefc9f889cd7dbc | 449d555969bfd7befe906877abab098c6e63a0e8 | /32/CH3/EX3.15/3_15.sce | 08cb1b9111e4cb9e9620e18a9960f176bb0224c1 | [] | 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 | 529 | sce | 3_15.sce | //pathname=get_absolute_file_path('3.15.sce')
//filename=pathname+filesep()+'3.15-data.sci'
//exec(filename)
//Initial pressure(in MPa):
p1=0.5
//Initial temperature(in K):
T1=400
//Ratio of v2 to v1:
r1=2
//Ratio of v3 to v1:
r2=6
//Universal gas constant(in kJ/kg):
R=8.314
//Work from state 1 to 2(in kJ)... |
9633f8d25cbd16216db26613ed6e0abce4a073e1 | 449d555969bfd7befe906877abab098c6e63a0e8 | /593/CH3/EX3.7/ex3_7.sce | 2a06d0a6f0ed1d6a8ec4c5d065f29e1c8de4c9cf | [] | 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 | 1,730 | sce | ex3_7.sce | clear;
//clc();
// Example 3.7
// Page: 60
printf("Example-3.7 Page no.-60\n\n");
//***Data***//
V = 0.25;//[L] Volume of water
T_1 = 0;//[C] Initial temperature of water
T_2 = 20;//[C] Final temperature of water
// From the example 3.3 the mol fractions of oxygen and notrogen in water at temperatu... |
69be7dd0a349b2d5fd1410831254473bf2951d38 | 61e39cdb9efce4bc7bc35be444b193c1066f1bf2 | /newtonbackward.sce | cc919acadab49559d6915424051aa0df952b70e7 | [] | no_license | nancyanand2807/SCILAB-CODES | 866c1c99754975f9f0deb271d3844c854db1645c | 69bf72606e8cd62aae3d1302c734f425d381a121 | refs/heads/master | 2020-06-02T00:39:27.236873 | 2019-06-09T11:26:55 | 2019-06-09T11:26:55 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 445 | sce | newtonbackward.sce | //Backward Difference
x=input("Enter the value of x as row natrix:")
y=input("Enter the value of y as row matrix:")
xg=input("Enter xg at which we want to Interpolate:")
n=length(x)
h=x(2)-x(1)
u=(xg-x(n))/h
disp("Backward difference table is:")
for i=1:n-1
disp(diff(y,i))
end
yg=y(n)
p=u
for i=1:n-1
... |
6e325a3bf58b1f2785a165992dd367465bc1020b | 449d555969bfd7befe906877abab098c6e63a0e8 | /3808/CH5/EX5.1/Ex5_1.sce | 0e73efa02be1138d0302f680e2ef41dc233c96fa | [] | 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 | 239 | sce | Ex5_1.sce | //Chapter 05: Induction and Recursion
clc;
clear;
function f = my_f(n)
if n == 0
f = 3
else
f = 2* my_f(n-1) +3 //making a recursive call
end
return f
endfunction
for n=0:4
re=my_f(n)
mprintf("The value of f(%d) is %d\n",n,re)
end
|
47cffeba1ed5951dc2a68ae71ed412ca40425a7d | 5c5fd5efaeecddf4cd7b8470a41364de7fcba737 | /Scilab/kopplung.sce | 7839f6bfb411f7def31beaa25323b5610aff6f2a | [] | no_license | derLars/RFIDInductiveCoupling | c1ba28900af0930e7278f1764b3c02e6d2a80ec1 | 18a26c28ec1348674c112387109aa31b36dbd7df | refs/heads/master | 2021-01-10T11:55:51.539075 | 2015-05-25T19:49:58 | 2015-05-25T19:49:58 | 36,164,222 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,118 | sce | kopplung.sce | I = 0.0125
x_4 = 0.04
x_6 = 0.06
x_8 = 0.08
//mu = (4 * %pi * 10^(-7)) / 100
mu = (4 * %pi * 10^(-7))
N1 = 150
l1 = 0.04
r1 = [0.001:0.001:0.2]
N2 = 100
l2 = 0.01
r2 = 0.02
H_4 = (N1 * I * r1.^2) ./ (2 * sqrt((r1.^(2) + x_4.^2).^3))
H_6 = (N1 * I * r1.^2) ./ (2 * sqrt((r1.^(2) + x_6.^2).^3))
H_8 = (N1 * I * r1.^2... |
36ba11c393e8c3345d194edf7089717ac9aeef57 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1442/CH19/EX19.6/19_6.sce | 9769b578ceb2761b9818181f63ee6509efa66397 | [] | 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 | 19_6.sce | clc
//initialisation of variables
T= 25 //C
hfT= -241820 //kJ/kmol
R= 8.314 //J/mol K
k= 1.4
cpH2O= 4.45
cpO2= 3.5
T1= 1000 //C
//CALCULATIONS
S= (cpH2O-k*cpO2)
hfT1= hfT+S*(T1-T)
//RESULTS
printf (' enthalpy formation= %.f kJ/kmol ',hfT1)
|
ec4059f9995198fd69672065f1f020b8d09b182b | 449d555969bfd7befe906877abab098c6e63a0e8 | /1697/CH1/EX1.8/Exa1_8.sce | b28ed4afd31fc05b07634a3e6f13ec9f05f0e340 | [] | 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 | 284 | sce | Exa1_8.sce | //Exa 1.8
clc;
clear;
close;
//given data :
Rl=1;//in ohm
//Formula : Rr=80*%pi^2*(l/lambda)^2
//Given l=lambda/10
//l/lambda=1/10
Rr=80*%pi^2*(1/10)^2;//in Ohm
disp(Rr,"Radiation resistance in Ohm: ");
Eta=Rr/(Rr+Rl);//Unitless
disp(Eta*100,"Antenna Efficiency in % : "); |
6d8a41e016455901a22dfe20b365e559e9298a64 | 449d555969bfd7befe906877abab098c6e63a0e8 | /773/CH11/EX11.10/11_10.sci | 89c14c8e0a457b10c25b85ad91e53a22131ffbdf | [] | 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 | 321 | sci | 11_10.sci | //value//
n=3;
disp(n,"no of poles=")
m=1;
disp(m,"no of poles=")
q=0;
O=((2*q)+1)/(n-m)*180;
disp(O,"q=")
q=1;
O=((2*q)+1)/(n-m)*180;
disp(O,"q=")
printf("Centroid=((sum of all real part of poles of G(s)H(s))-(sum of all real part of zeros of G(s)H(s))/(n-m) \n")
C=((0-1-4)-(-2))/2;
disp(C,"centroid=")
... |
122ca0f214bcc890e75da0355808b3b1557bc22a | 449d555969bfd7befe906877abab098c6e63a0e8 | /3472/CH15/EX15.2/Example15_2.sce | 03c16aca73d6066c97af3f6368c02846b3e3e85d | [] | 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 | 1,513 | sce | Example15_2.sce | // A Texbook on POWER SYSTEM ENGINEERING
// A.Chakrabarti, M.L.Soni, P.V.Gupta, U.S.Bhatnagar
// DHANPAT RAI & Co.
// SECOND EDITION
// PART II : TRANSMISSION AND DISTRIBUTION
// CHAPTER 8: CORONA
// EXAMPLE : 8.2 :
// Page number 227-228
clear ; clc ; close ; // Clear the work space and console
// Give... |
9c35ac6393b07cc561f39afc5206865c1f7a9b69 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1949/CH2/EX2.15.1/2_15_1.sce | 4316ebba8d2bfaa8928b1eb950c7c6fe5c9fcc4f | [] | no_license | FOSSEE/Scilab-TBC-Uploads | 948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1 | 7bc77cb1ed33745c720952c92b3b2747c5cbf2df | refs/heads/master | 2020-04-09T02:43:26.499817 | 2018-02-03T05:31:52 | 2018-02-03T05:31:52 | 37,975,407 | 3 | 12 | null | null | null | null | UTF-8 | Scilab | false | false | 479 | sce | 2_15_1.sce | //Chapter-2,Example 2_15_1,Page 2-54
clc()
//Given Data:
a=0.2*10^-3 //width of slit
n=1 //order
y=0.5*10^-2 //separation between first minima and central bright band
D=2 //distance between screen and slit
//Calculations:
theta=y/D //from diag... |
43b30133392e7b3515180042e70aaa141707aaac | 1bb72df9a084fe4f8c0ec39f778282eb52750801 | /test/CMP3.prev.tst | 2d7966b37b2caac31521b0b45e582ba68b8dca29 | [
"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 | 423 | tst | CMP3.prev.tst | 2,1: 5 2 11
3,2: 13 -9 46
4,1: 17 52 47
4,3: 25 -44 117
5,2: 29 65 142
6,1: 37 198 107
5,4: 41 -115 236
7,2: 53 259 286
8,1: 65 488 191
6,5: 61 -234 415
7,4: 65 7 524
8,3: 73 296 549
9,2: 85 621 478
10,1: 101 970 299
7,6: 85 -413 666
8,5: 89 -88 835
9,4: 97 297 908
10,3: 109 730 873
11,2: 125 1199 718... |
165668e62b57bd586d057a7925df3c7192f108a2 | 8217f7986187902617ad1bf89cb789618a90dd0a | /source/2.5/tests/examples/cheb1mag.man.tst | b3ce3f5fcbcf1f7bfc6c2c982d1dac4b1d6a439c | [
"LicenseRef-scancode-public-domain",
"LicenseRef-scancode-warranty-disclaimer"
] | permissive | clg55/Scilab-Workbench | 4ebc01d2daea5026ad07fbfc53e16d4b29179502 | 9f8fd29c7f2a98100fa9aed8b58f6768d24a1875 | refs/heads/master | 2023-05-31T04:06:22.931111 | 2022-09-13T14:41:51 | 2022-09-13T14:41:51 | 258,270,193 | 0 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 174 | tst | cheb1mag.man.tst | clear;lines(0);
//Chebyshev; ripple in the passband
n=13;epsilon=0.2;omegac=3;sample=0:0.05:10;
h=cheb1mag(n,omegac,epsilon,sample);
plot(sample,h,'frequencies','magnitude')
|
2d3a9774cb28c604196fdaefe95972a320cc2cf1 | 19ba35741abeefce1e69482bfe706700a7c4fe54 | /trianglewave.sci | 07464eb5b24da4880e9b6c1379d0caaae97f22fc | [
"MIT"
] | permissive | swarlesbarkely/SciLab_Functions | 3c3be10d2025c06aa59bdc985d31239d59860d96 | f97d45ee7c2e574041a7b2845e6aad3bfbb76dad | refs/heads/master | 2021-01-17T11:28:57.829853 | 2017-06-06T01:20:01 | 2017-06-06T01:20:01 | 33,019,021 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 458 | sci | trianglewave.sci | //*****************************************
// Returns a triangle wave of amplitude 1
// and of the given frequency
//*****************************************
function y = trianglewave (t, frequency)
// Generate square wave of proper frequency
temp = sign (sin (2*%pi*frequency * t));
// Generate triangle wave b... |
0e70584d3573d5ea5eeaf4dc80534f562e5b387f | 6b85d1958ff11075634ed9e0f6dbef2de9548f1b | /ANN_Toolbox/demos/enc848_ssab.sci | ee1c1a4dffd4dbe54946bbc8e44e2027e988fd1a | [
"Unlicense"
] | permissive | ademarazn/REDES_NEURAIS | 8a048c13aab33daa4068f52e18b263cc8325884f | a9a35744476d1f7e8405df04d5e4a9f8e4ed4595 | refs/heads/master | 2021-05-06T13:09:56.514632 | 2018-04-25T18:49:30 | 2018-04-25T18:49:30 | 113,248,743 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,109 | sci | enc848_ssab.sci | // Loose 8-5-8 encoder
// on a backpropagation network without biases, with SuperSAB
// (Note that the tight 8-3-8 encoder will not work without biases)
// (The 8-4-8 encoder have proven very difficult to train on SuperSAB)
rand('seed',0);
// network def.
// - neurons per layer, including input
N = [8,4,8];
// inp... |
b4ca087975d8cb1058de9423e944aceaad4d8cfa | 449d555969bfd7befe906877abab098c6e63a0e8 | /2444/CH6/EX6.16/ex6_16.sce | 8019a8ae863263c47b0a3f2f678dd7fb9f7983a0 | [] | 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 | 357 | sce | ex6_16.sce | // Exa 6.16
clc;
clear;
close;
format('v',7)
// Given data
D = 10/100;// distortion without feedback
Df = 1/100;// distortion with feedback
Beta = 10/100;// feedback ratio
// Df = D/(1+(Beta*A));
A = ((D/Df)-1)/Beta;// open loop gain
disp(A,"The open loop gain is");
Af = A/(1+(Beta*A));// closed loop gain
... |
805b4f3d73389ce612dcb2c38349286516dbb2d0 | 65ad6164ce52c715cc25368790f2f259ec57f6b3 | /ga.sce | ace13049a73df9c5f935a13d94c4e627c9e70387 | [] | no_license | carlaecomp/otimizacao_w3 | 4493d7d6b3e47cc4bc898b9c8c49582ca63151db | 319e43e29c26b1ab6fa7f76c510d001873c1fbd1 | refs/heads/master | 2020-03-22T06:36:50.541135 | 2018-07-05T12:53:21 | 2018-07-05T12:53:21 | 139,646,198 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 4,353 | sce | ga.sce | function pop = geneticAlgorithm(it, size_pop, porc_c, porc_m)
tic()
for i=1:it
pop= popGenerate(size_pop)
pop= crossPop(pop, size_pop, porc_c)
pop= mutaPop(pop, size_pop, porc_m)
pop = gsort(pop,'lr','i')
pop_best(i,:) = pop(1, :)
pop= selectPop(pop, size... |
0f8875abca83ee251cfe80abda9329ff33fb0ff9 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1985/CH15/EX15.2/Chapter15_example2.sce | 7991e3b420994c571e84d68a1931d665a7bc4691 | [] | 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 | 268 | sce | Chapter15_example2.sce | clc
clear
//Input data
s1=(405*10^6)//Principal stress in N/m^2
s2=(-105*10^6)//Principal stress in N/m^2
//Calculations
tmax=((s1-s2)/2)/10^6//Maximum shearing stress in N/m^2 *10^6
//Output
printf('The maximum shearing stress is %3.0f*10^6 N/m^2',tmax)
|
a94d1bfb7987b3d1f815fb2b17769a05b2e4c72f | 449d555969bfd7befe906877abab098c6e63a0e8 | /2609/CH2/EX2.2/ex_2_2.sce | a84aaca7dc5659a803c02352b1811e015d509e16 | [] | 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 | ex_2_2.sce | ////Ex 2.2
clc;
clear;
close;
format('v',7);
v1=50;//micro V
v2=55;//micro V
Ad=2*10^5;//unitless
CMRR=80;//dB
vid=v2-v1;//micro V
vcm=(v1+v2)/2;//mV
CMRR=10^(CMRR/20);//unitless
vout=Ad*(vid+vcm/CMRR)/10^6;//V
disp(vout,"Output Voltage(V)");;
Verror=vout-Ad*vid/10^6;//V
disp(Verror,"Error Voltage(V)");
... |
7d6aea4b6e4e838133f9085538dd742c94f09ee1 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2417/CH3/EX3.21/Ex3_21.sce | b729c0085dd33d8874742b86aa5f0dcb4da02f40 | [] | 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 | 1,020 | sce | Ex3_21.sce | clear;
clc;
printf("\t\t\tProblem Number 3.21\n\n\n");
// Chapter 3 : The First Law Of Thermodynamics
// Problem 3.21 (page no. 125)
// Solution
m=400; //Unit:LBm/min //mass of lubricating oil
Cp=0.85; //Unit:Btu/LBm*R //Specific heat of the oil
T1=215; //Temperature when hot oil is entering //Unit:Fahrenhei... |
d2fc42fe073536be730abd6490c4ff69398d75fd | db6c77c95fe7a97b791d5689c2ac3b39e791ea17 | /tests/cases/europepmc-xml_002.tst | f210ac85143421a23fdfdc73c1606d35f77d4b66 | [] | no_license | sauliusg/bibliophile | 9623cd5e8b163d36a253eaa36b558ed87666450a | 1e6f63b1e08209af5c6c87ee05098d8fa53a4345 | refs/heads/master | 2021-01-19T05:49:43.075428 | 2018-11-20T19:30:36 | 2018-11-20T19:30:36 | 100,584,633 | 1 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 94 | tst | europepmc-xml_002.tst | Test how the europepmc-xml processes the search terms with spaces.
The output format is XML.
|
91bc8c8f5134c2e82a621e6fc2dfb53cbe9af0de | 449d555969bfd7befe906877abab098c6e63a0e8 | /1022/CH13/EX13.1/13_1.sce | fd9b6005968b19e2a19dde151c891954a67a71f7 | [] | 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 | 448 | sce | 13_1.sce | clc
//initialisation of variables
P= 1 //atm
dt= 11 //C
Csf= 0.006
r= 1/3
s= 1
cl= 4.218 //J/gm K
hfg= 2257 //J/gm
Pr= 1.75
ul= 283.1*10^-3 //gm/m s
s= 57.78*10^-3 //N/m
pl= 958*10^3 //gm/m^3
pv= 598 //gm/m^3
gc= 10^3 //gm m/N s^2
g= 9.8 //m/s^2
//CALCULATIONS
p= pl-pv
q= ((((cl*dt)/(hfg*Csf*Pr))^(1/r... |
9707cba5da9f7e4983884dd3800a7fc6fd7b1e52 | 449d555969bfd7befe906877abab098c6e63a0e8 | /858/CH4/EX4.19/example_19.sce | eb57ad25e050f53d007155b6984cc8e662861825 | [] | 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 | 222 | sce | example_19.sce | clc
clear
printf("example 4.19 page number 155\n\n")
//to find the flow rate
d = 0.3 //in m
u = 17.63 //avg velocity in m/s
q = (3.14/4)*d^2*u;
printf("volumetric flow rate = %f cubic meter per second",q)
|
63d7c545543a67c50c260676e22910869be4959d | 449d555969bfd7befe906877abab098c6e63a0e8 | /29/CH7/EX7.24.6/exa7_24_6.sce | a13dfb8cb6c2b7498d2d54c9f36534c2f637c878 | [] | 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 | 793 | sce | exa7_24_6.sce | //caption:root_locus
//example 7.24.6
//page 304
clc;
s=%s;
syms K;
clf();
g=(K*(s+1)/(s^2+0.4*s+0.4));
eq=(s^2+0.4*s+0.4)
p=roots(eq)
disp(p,"open loop poles are:");
P=2;
Z=1;
k=0
A=((2*k+1)*180)/(P-Z);
disp(A,"asymptote are at angle:")
CH=(s^2+0.4*s+0.4)+K*(s+1)
CH=sym('(s^2+0.4*s+0.4)+K*(s+1)'... |
c7144502b7728f6c291e66832c407a808c93adea | 449d555969bfd7befe906877abab098c6e63a0e8 | /3428/CH3/EX1.3.12/Ex1_3_12.sce | f1475b28e189f611ccc79fb5aa00932dfd3b52c5 | [] | 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 | 276 | sce | Ex1_3_12.sce | //Section-1,Example-2,Page no.AC-250
//To determine the alkalinity due to OH-.
clc;
N=1/50 //Normality of H2SO4
V_1=10 //Volume of 1/50N H2SO4
V_2=200 //Volume of sample of water.
N_P=V_1*N*(1/V_2)
P=N_P*50*1000
M=P
disp(M,'Alkalinity due to OH-(ppm)')
|
347fe5da3506f2d21bb1f96757af7482a08521d6 | 449d555969bfd7befe906877abab098c6e63a0e8 | /788/CH14/EX14.10.b/14_10_soln.sce | f716041590483d54e0c4bc1d1e8ab46f3614ad03 | [] | 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 | 991 | sce | 14_10_soln.sce | clc;
pathname=get_absolute_file_path('14_10_soln.sce')
filename=pathname+filesep()+'14_10_data.sci'
exec(filename)
// Solutions:
// volume of hydraulic cylinder,
V=(%pi/4)*L*((D/1000)^2); //m^3
// volume of cylinder in charged position,
V2=V/((p2/p3)-1); //m^3
// volume of cylinder in final position,
V3=(p2/p3)*V2; //... |
70ef52b8a17b55517ca185c064bbc87267367f2b | affb43e91a6a0cac39356ff1c5f9f5154b70a4a2 | /Filter_Desgin/Beziar_curve.sce | 5dbba412176b86513c080f7051991856fd0b7e4f | [] | no_license | kathan-shah99/Digital-signal-processing | 87fb0615a98a764c546681ffb18fea32d69caa6d | 3d5ad3553152a2b57f98a3b1a26756ebca37d7bc | refs/heads/main | 2023-04-07T06:53:06.263109 | 2021-04-07T03:57:52 | 2021-04-07T03:57:52 | 355,397,284 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 555 | sce | Beziar_curve.sce | //---Author :Kathan-shah-----
clc
clear
function [out] = Beziar(x,t)
d = length(x)-1
out = 0
for i=1:length(x)
c = factorial(d)/(factorial(i-1)*factorial(d-i+1))
//disp(c(i))
Blend = c*(t^(i-1)).*((1-t)^(d-(i-1)))
out = out + x(i).*Blend
end
endfunction
t = 0:0.01:1
x =... |
0f76ece1a97a3d11cfe2fcd6030d304f7d84befe | 8217f7986187902617ad1bf89cb789618a90dd0a | /browsable_source/2.4.1/Unix-Windows/scilab-2.4.1/macros/metanet/check_graph.sci | 26124aac2ccd9f0ad40c6cba970a8f29e80d260d | [
"LicenseRef-scancode-public-domain",
"LicenseRef-scancode-warranty-disclaimer"
] | permissive | clg55/Scilab-Workbench | 4ebc01d2daea5026ad07fbfc53e16d4b29179502 | 9f8fd29c7f2a98100fa9aed8b58f6768d24a1875 | refs/heads/master | 2023-05-31T04:06:22.931111 | 2022-09-13T14:41:51 | 2022-09-13T14:41:51 | 258,270,193 | 0 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 6,356 | sci | check_graph.sci | function check_graph(g)
// Copyright INRIA
[lhs,rhs]=argn(0)
if rhs<>1 then error(39), end
if type(g)<>16 then
error('Graph list check: the graph must be a typed list')
end
l=34
if size(g)<>l then
error('Graph list check: the graph must be a list of size '+string(l))
end
// type
if g(1)(1)<>'graph' then
error('G... |
3110c63b4dedf6081d3716e3fe1c03c4c3cef800 | 1bb72df9a084fe4f8c0ec39f778282eb52750801 | /test/MX09.prev.tst | baf4fc4d117ee40f420796e8e89e0326c2a0ef06 | [
"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 | 917 | tst | MX09.prev.tst | chain 2, fact 1 [[-3,0,2,0],[0,-1,0,2],[3,1,1,-2],[-1,-1,2,1]] [3,4,5,6] => [1,8,6,9] => [9,10,-1,12] ?? [-29,14,12,-9]
chain 2, fact 1 [[0,1,3,-3],[2,2,0,-1],[1,0,-3,3],[2,2,-1,0]] [3,4,5,6] => [1,8,6,9] => [-1,9,10,12] ?? [3,4,5,6]
chain 2, fact 1 [[1,1,0,-1],[-1,-4,5,0],[1,0,1,0],[0,-4,5,0]] [3,4,5,6] => [1,6,8,9]... |
5e98966e57c02a40263d3088c85031a79aabc9ef | 449d555969bfd7befe906877abab098c6e63a0e8 | /3785/CH2/EX2.3/Ex2_3.sce | 83aa1c9651410c163b62bbf2c5df22cc80e5b771 | [] | 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 | 752 | sce | Ex2_3.sce | // Example 2_3
clc;funcprot(0);
// Given data
D=1;// The diameter of a circular flat plate in m
h=3;// Distance in m
theta=45;// Angle in degrees
rho=1*10^3;// The density of water in kg/m^3
g=9.807;// The acceleration due to gravity in m/s^2
// Calculation
p_c=rho*g*h;// The gage pressure at the plate centr... |
252a53d257fe4438c89005c53ad4c973bae7e3af | 449d555969bfd7befe906877abab098c6e63a0e8 | /758/CH2/EX2.8/Ex_2_8.sce | a5b6253a1b2d3258e20d075ccc362cfacf482139 | [] | 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 | 462 | sce | Ex_2_8.sce | //Example 2.8
clc;clear;close;
t=poly(0,'t');
//cn=3/(4+(n*%pi)^2)
Pt=0.669; //Total energy
Preq=0.999*Pt; //Required energy
c0=3/(4+(0*%pi)^2);
disp(c0,'c0=');
P=(abs(c0))^2;
c=[];n=0;
while P<Preq
n=n+1;
c(n)=3/(4+(n*%pi)^2);
disp(c(n),'cn=',n,'n=');
P=P+2*(abs(c(n)))^2;
end
di... |
cb025324c285f676d2dd018b3bceebbfdf0c8a32 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3886/CH18/EX18.5/18_5.sce | c7f2d06c1b41e614a4f15e5685cf7cd5f04aefeb | [] | 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 | 582 | sce | 18_5.sce | //Ball in frictionless tube
//refer fif. 18.4
u1=sqrt(2*9.81*2) //m/sec
u2=0
//By principle of conservation of momentum
//v1+2*v2=6.264
//From defination of coefficient of restitution
//case(1)-e=1
//v2-v1=6.264
//solving
v2=4.176 //m/sec
v1=6.264-(2*4.176) //m/sec
//Let h be the height to which hanging ... |
760fca5f01aa17d0b70c8dfe7fc580d8500c587f | 449d555969bfd7befe906877abab098c6e63a0e8 | /431/CH5/EX5.14/EX5_14.sce | fa7e73ea51d8c88dd09a15ea2d57b2b2109ac7b7 | [] | 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 | 709 | sce | EX5_14.sce | //chapter 5
//example 5.14
//page 443
clear;
clc;
disp("example 5.14");
disp("star connected alternator")
printf("\n");
KVA=1500; //rating
ph=3; //3-phase
V_l=6600; //voltage
Ra=0.4 //armature resistance
Xs=6; //reactance
Ia=(KVA*1000)/(sqrt(3)*V_l);
printf("Full-l... |
dfd6531fdfdec82ff959a39a04d1a9c50c36bdc2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /830/CH3/EX3.2.4/Unit_Step_Sequence.sce | 6533fe15675863a06a588a60b854f5b7a084781f | [] | no_license | FOSSEE/Scilab-TBC-Uploads | 948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1 | 7bc77cb1ed33745c720952c92b3b2747c5cbf2df | refs/heads/master | 2020-04-09T02:43:26.499817 | 2018-02-03T05:31:52 | 2018-02-03T05:31:52 | 37,975,407 | 3 | 12 | null | null | null | null | UTF-8 | Scilab | false | false | 151 | sce | Unit_Step_Sequence.sce | //Graphical//
//Example 3.2.4
//Z transform of x[n] = u[n]
clear;
clc;
close;
syms n z;
x=(1)^n
X=symsum(x*(z^(-n)),n,0,%inf)
disp(X,"ans=")
|
6474d71f34739f05731f492503a6fe159a304115 | 449d555969bfd7befe906877abab098c6e63a0e8 | /377/CH6/EX6.1/6_1.sce | c54dbc49a95c4afa2f948550fd97fa299b84187c | [] | 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 | 132 | sce | 6_1.sce | disp("ρ=1/(q*μe*n)");
n=9*10^14;
c=1400; //say c=μe
q=1.6*10^-19;
a=1/(q*c*n);
printf('\n The value of ρ is %f ohm-cm',a); |
8792ccb6add65afbf51caa0ad6bae5962ba739e1 | 01697f0dc71290a6b6e233849a73d19a883845f1 | /sem01/lab03/q01.sce | 2ad54b69e0ccc8970956616ab619c5fa2d90bfe9 | [] | no_license | aaruni96/Math-Lab | 5d83a13547308bd9d1b7daa28be29a49e1020fbd | 488469c9aba9251f5725e0851fb19e2aef38d234 | refs/heads/master | 2021-01-12T06:29:53.790743 | 2018-04-27T09:21:40 | 2018-04-27T09:21:40 | 77,370,232 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 221 | sce | q01.sce | //trace asteroid
clc;
clear;
x=[-5:0.01:5];
a=4;
y1=(a^(2/3) - (x.^2).^(1/3)).^(3/2); //for some odd reason, x^(2/3) != (x^2)^(1/3)
y2=-y1;
plot2d(x,y1);
plot2d(x,y2);
xlabel("X-Axis")
ylabel("Y-Axis")
title("Asteroid")
|
2427d204aae126addbd0b0e3ae96f6c05935467d | e550ac20c1cefca2af7fff5c377406d8b20c4a3c | /Scripts/ScenarioImportExport/HCBotScenarioIE/test/fixture/Greetings.out.sce | 5ff996ccf062d1180bfffa3ad3c96bcd416a94bd | [
"MIT"
] | permissive | cmayomsft/HealthBotEngFundBot | 93a3dc170d2fba97dbcfbd2f9635e1474edf2885 | 95287f85001d558945b44c5827681a2ce685e7da | refs/heads/master | 2021-05-26T11:45:09.699540 | 2020-04-15T22:31:13 | 2020-04-15T22:31:13 | 254,118,630 | 1 | 0 | MIT | 2020-04-15T22:31:14 | 2020-04-08T14:56:43 | PowerShell | UTF-8 | Scilab | false | false | 536 | sce | Greetings.out.sce | {
"name": "Greetings",
"id": "398e4a12-a1df-4770-9ff0-fa54dcb5c718",
"scenario_trigger": "greetings",
"description": "",
"active": true,
"updated": "2020-03-31T15:21:17.261Z",
"userDisplayName": "API",
"code": {
"version": 2,
"steps": [
{
"id": "aaa3073dc553-32a44525cced8e2f-2200",... |
0b59c8072313f43ef16b1ce6ce972c2fd79ed133 | 6dce9b797ef9252682f3204157ccb3fe8a239073 | /02/ALUm.tst | d0dcde64f196953d66042c3a313fbf0cb3a51200 | [] | no_license | richardjharris/tecs | dc74d7286a3f0d982772c8e025a0e4292ff5d0b5 | ffcbb8c935a09ff9ddf86315a49b79b3bc8a8e2b | refs/heads/master | 2020-05-22T14:55:59.635342 | 2012-02-11T15:22:55 | 2012-02-11T15:22:55 | 3,415,817 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 764 | tst | ALUm.tst | load ALUm.hdl,
output-file ALUm.out,
compare-to ALUm.cmp,
output-list in%B1.16.1 zero%B1.1.1 negate%B1.1.1 out%B1.16.1;
set in %B0000000000000000,
set zero 0,
set negate 0,
eval,
output;
set zero 1,
set negate 0,
eval,
output;
set zero 0,
set negate 1,
eval,
output;
set zero 1,
set negate 1,... |
07e1e28eaab0ed1ba9338d77d7275cd585a853bd | 1b969fbb81566edd3ef2887c98b61d98b380afd4 | /Rez/bivariate-lcmsr-post_mi/bfi_a6_vrt_ind_d/~BivLCM-SR-bfi_a6_vrt_ind_d-PLin-VLin.tst | a68f2e1998e6bf35cd2dc41be62c642cdcfb4910 | [] | no_license | psdlab/life-in-time-values-and-personality | 35fbf5bbe4edd54b429a934caf289fbb0edfefee | 7f6f8e9a6c24f29faa02ee9baffbe8ae556e227e | refs/heads/master | 2020-03-24T22:08:27.964205 | 2019-03-04T17:03:26 | 2019-03-04T17:03:26 | 143,070,821 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 11,974 | tst | ~BivLCM-SR-bfi_a6_vrt_ind_d-PLin-VLin.tst |
THE OPTIMIZATION ALGORITHM HAS CHANGED TO THE EM ALGORITHM.
ESTIMATED COVARIANCE MATRIX FOR PARAMETER ESTIMATES
1 2 3 4 5
________ ________ ________ ________ ________
1 0.353507D+00
... |
4314c21858d24cffab80583d395f2e6befa675f6 | 584105ff5b87869494a42f632079668e4c3f82de | /TestCases/calib3d/stereoCalibrate/test2.sce | 609c7b3198dafe5a90e50c6f4138512435d29d5a | [] | no_license | kevgeo/FOSSEE-Computer-Vision | 0ceb1aafb800580498ea7d79982003714d88fb48 | 9ca5ceae56d11d81a178a9dafddc809238e412ba | refs/heads/master | 2021-01-17T21:11:31.309967 | 2016-08-01T14:45:40 | 2016-08-01T14:45:40 | 63,127,286 | 6 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 779 | sce | test2.sce | //Checking if function works for different set of stereo imagess
inImage = imread("left01.jpg");
inImage2 = imread("right01.jpg");
[found coordinates ] = findChessboardCorners(inImage,9,6,"CV_CALIB_CB_ADAPTIVE_THRESH");
[found2 coordinates2 ] = findChessboardCorners(inImage2,9,6,"CV_CALIB_CB_ADAPTIVE_THRESH");
obpts =... |
e0167f0aa65ad74ade9f837e58d0f180fb5a57a8 | 449d555969bfd7befe906877abab098c6e63a0e8 | /884/CH7/EX7.2/Example7_2.sce | 6de8255685fa8e3126cf9f9db22b041a58c2da4a | [] | 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 | 275 | sce | Example7_2.sce | //calculation of frequency of a wave
clear;
clc;
printf("\t Example 7.2\n");
lambda=522*10^-9;//wavelength, m
c=3*10^8;//speed of light in vacuum, m/s
v=c/lambda;//frequency, Hz
printf("\t the frequency of the wave is : %4.2f *10^14 Hz\n",v*10^-14);
//End
|
3ee0b3d5d220b0ba5d23bc2012833d0e2ca86114 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1640/CH5/EX5.24/5_24.sce | 1251d1b41cc6d2638c23544358b0256a9900fda0 | [] | 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 | 299 | sce | 5_24.sce | clc
//initialisation of variables
D= 3 //in
l= 800 //ft
H= 120 //ft
f= 0.01
g= 32.2 //ft/sec^2
w= 62.4 //lb/ft^3
//CALCULATIONS
d= ((D/12)^5/(8*f*l))^0.25
hf= H/3
dh= H-hf
v= sqrt(hf*(D/12)*2*g/(4*f*l))
HPmax= w*%pi*((D/48)^2/4)*v*dh/550
//RESULTS
printf ('HPmax = %.3f HP ',HPmax)
|
b658ee5d1f1a64272dba04620b6e029ff06cd980 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1808/CH3/EX3.28/Chapter3_Exampl28.sce | 353e6574c3de7fde5c829c88b7f42c3b6b879b6c | [] | 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 | 1,449 | sce | Chapter3_Exampl28.sce | clc
clear
//INPUT DATA
cp=1.005;//specific pressure
cv=0.718;//specific volume
R=0.287;//gas constant
vs=0.01;//Swept volume in m^3
Rc=18;//compression ratio
p1=101.325;//Pressure in kN/m^2
t1=303;//temperature in K
p3=80*10^2;//pressure in kN/m^2
g=1.4;//constant
v2=0.000588;//volume in m^3
v43=0.0006;//d... |
5927a8f241997c24fa1cb1545eccaa1ab494228e | 6e257f133dd8984b578f3c9fd3f269eabc0750be | /ScilabFromTheoryToPractice/Programming/testoverloading.sce | 0eab28350b97924411edab6c2a0efbc0f101ada7 | [] | no_license | markusmorawitz77/Scilab | 902ef1b9f356dd38ea2dbadc892fe50d32b44bd0 | 7c98963a7d80915f66a3231a2235010e879049aa | refs/heads/master | 2021-01-19T23:53:52.068010 | 2017-04-22T12:39:21 | 2017-04-22T12:39:21 | 89,051,705 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 468 | sce | testoverloading.sce | exec('scilab-base-program-make_point.sce',-1) //to delete
exec('scilab-base-program-check_point.sce',-1) //to delete
exec('scilab-base-program-testoverloaddisplay.sce',-1) //to delete
function M=%point_m_point(O,P)
check_point(P)
check_point(O)
M=make_point(0,0)
M.x=O.x-(P.x-O.x)
M.y=O.y-(P.y-O.... |
3a83e0f52825cc740bc09c15cecdd2e3ab30e25e | 449d555969bfd7befe906877abab098c6e63a0e8 | /2096/CH1/EX1.39/ex_1_39.sce | b0cc05ef2b2cf32580aebc3ae0b9f2edd7c5c0f3 | [] | 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 | ex_1_39.sce | //Example 1.39://frequency range
clc;
clear;
fn=800;// natural frequency in cps
MD=12;//maximum amount of deviation in amplitude ratio
M1=1.12;//
M2=0.88
r=0.904;//ratio
y=0.62;//damping ratio
f=fn*r;//excitation frequency in cps
//When M=1.12 THE SOLUTION WILL HAVE IMAGINARY ROOTS AND THIS IMLIES THE OUTPUT WOULD NE... |
1ebd13fb9e3898d24de6cd4b590d1bb17bf697e1 | 9ba84a7f7b27fc82fdfcfb8dd03498c4cc91f124 | /Unidad 8/P8.sce | e2d0e5909df620890d8cc9177926b0d82216554b | [] | no_license | ignaciolitma/LCC-Metodos-Numericos | 8120eba09ea160e3252542373afc5ddad49a04c9 | e63728e5f15bb469dff205a74901a5b930e1271d | refs/heads/main | 2023-03-12T11:34:36.940908 | 2021-03-01T20:56:12 | 2021-03-01T20:56:12 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 7,165 | sce | P8.sce |
// Aplica f a todos los elementos
// de la matriz A
function B = matrixfun(f,A)
B = A
for i = 1 : size(A,'r')
for j = 1 : size(A,'c')
B(i,j) = f(A(i,j))
end
end
endfunction
// Aplica la regla del trapecio
// para aproximar la integral definida
// de f entre a y b
function inte... |
51a2a3d42960e5dccdeff56d0d190ac101c2f1f0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3835/CH2/EX2.25/Ex2_25.sce | 228307d98b9eaad138ef496328169689572f638e | [] | 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 | 212 | sce | Ex2_25.sce | clear
//
//applying kvl to circuit
i=0.414
vth=12-4*0.414 //using vth formula
//when terminals a and b are short circuited applying kcl to node a gives isc=5*i
isc=2.07
rth=vth/isc
printf("\n rth= %0.1f A",rth)
|
cd7e129bf5e806778b4b0483ab8f78a87beb881b | 449d555969bfd7befe906877abab098c6e63a0e8 | /1655/CH2/EX2.4.3/Example_2_4_3.sce | 2e9e17970f73fd4b76372ffa72f8f2e9b732fd95 | [] | 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 | 633 | sce | Example_2_4_3.sce | // Example 2.4.3 page 2.12
clc;
clear;
delta = 1.2/100; // Relative refractive difference index
n1=1.45; // Core refractive index
NA= n1*sqrt(2*delta); //computing numerical aperture
Acceptance_angle = asind(NA); //computing acceptance angle
si = %pi * NA^2; //computing solid a... |
ff7c5f07ad7e1ac646c85f2a71c6551bc8215165 | 449d555969bfd7befe906877abab098c6e63a0e8 | /911/CH3/EX3.7.e/ex_3_7_e.sce | f8d091539d9f0deda99325009252cd93d30a2205 | [] | 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 | 200 | sce | ex_3_7_e.sce | //example 3.7//
//not using nor 2 different input//
clc
//refreshes all variables//
clear
//clears the screen//
disp('in the figure one input is permanently 0 is given to NOR gate.')
//result// |
1cce518f70ea985b43a854845b24d123d0e5b8bd | 127061b879bebda7ce03f6910c80d0702ad1a713 | /bin/PIL_supercell.sci | f4e33a401f16b06eef832704613151b333b14ac3 | [] | no_license | pipidog/PiLib-Scilab | 961df791bb59b9a16b3a32288f54316c6954f128 | 125ffa71b0752bfdcef922a0b898263e726db533 | refs/heads/master | 2021-01-18T20:30:43.364412 | 2017-08-17T00:58:50 | 2017-08-17T00:58:50 | 100,546,695 | 0 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 2,955 | sci | PIL_supercell.sci | // **** Purpose ****
// This code generates the primitive cell and the sublattices of a super
// cell, i.e, enlarge the unit cell of a given system.
// **** Variables ****
// [primitive]: 3x3, real
// <= primitive vectors in row vectors
// [sublatt_format]: 1x1, string, 'coordinate' / 'coefficient'
// <= specify the f... |
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