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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
692c3de60df915328c2a92bf24f23ab1490c8605 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1067/CH3/EX3.7/3_7.sce | ec9dada918e724a45fa06bb6ca9521af0efbaea9 | [] | 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 | 194 | sce | 3_7.sce | clear;
clc;
Em=100e3
t=70e-6
Ea=Em/t/1e6
f=1/(2*t);
Ea=round(Ea/10)*10;
f=round(f);
printf("average voltage in volts=%dV/microsecs\n",Ea);
printf("frequency of oscillation =%dc/s",f);
|
003d04dfd5256f76424c79f36a47bbb6cfb6703f | 449d555969bfd7befe906877abab098c6e63a0e8 | /1871/CH10/EX10.3/Ch010Ex3.sce | 85bccd6156a9cfb206e8597dd721f3914b9dc3b4 | [] | 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 | 794 | sce | Ch010Ex3.sce | // Scilab code Ex10.3 : Pg:414 (2008)
clc;clear;
N = 9.8e+026; // Number of atoms in one cubic meter of hydrogen gas
R = 0.53e-010; // Radius of hydrogen atom, meter
epsilon_0 = 8.85e-012; // Permittivity of free space, force per meter
alpha_e = 4*%pi*epsilon_0*R^3; // Electronic polarizability of an ... |
d5a03259c4b008cbd8e4c3ace3a53711e6b1c946 | e04f3a1f9e98fd043a65910a1d4e52bdfff0d6e4 | /New LSTMAttn Model/.data/lemma-split/GOLD-TEST/xty.tst | fe337e2a4a5a9f726184f4cdaddbcf033c70c18e | [] | 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 | 23,299 | tst | xty.tst | ku³na¹⁴ni³ ju⁴na¹⁴ni³ V;IPFV
ku³na¹⁴ni³ ku³na¹⁴ni³ V;IRR
ku³na¹⁴ni³ ku¹⁴na¹⁴ni³ V;IRR;NEG
ku³na¹⁴ni³ ni¹-ju³na¹⁴ni³ V;PFV;LGSPEC1
ku³na¹⁴ni³ ju¹³na¹⁴ni³ V;PFV;LGSPEC2
ku³-xi⁴ni⁴ ku¹³-xi⁴ni⁴ V;PFV;LGSPEC2
ku³-xi⁴ni⁴ ku¹⁴-xi⁴ni⁴ V;IRR;NEG
ku³-xi⁴ni⁴ ni¹-ku³-xi⁴ni⁴ V;PFV;LGSPEC1
ku³-xi⁴ni⁴ ku⁴-xi⁴ni⁴ V;IPFV
ku³-xi⁴ni⁴ ku³... |
d96760f132f2b1d4bb15a6cb26df68905a9ae34a | 089894a36ef33cb3d0f697541716c9b6cd8dcc43 | /NLP_Project/test/tweet/bow/bow.19_10.tst | 18be31232f2369dbbc20d37cb915d4d5b365abbf | [] | 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 | 23,943 | tst | bow.19_10.tst | 19 14:0.3333333333333333 38:0.5 88:0.5 114:0.15384615384615385 144:0.5 209:0.07142857142857142 228:1.0 270:1.0 284:1.0 530:1.0 550:0.3333333333333333 582:1.0 685:0.3333333333333333 695:0.2 1481:1.0 2648:1.0
19 10:0.14285714285714285 14:0.6666666666666666 22:0.07142857142857142 56:0.024691358024691357 59:0.0909090909090... |
f099cd35d7f29c930f90bd13db85893fda8c4240 | 292fdfbcaae1142141fcb8c7c2f73dcdb871a582 | /Tests/1-basic.tst | 95e032dc3106b8b27e6f56240bfe771246f22571 | [] | no_license | Nyktalop/TpCppM1S1 | f11b362f753656c5c1c7fbc963a71ced6ece211b | 67a3adae4d943d5e0a6b580b277b39e591d3ad39 | refs/heads/master | 2020-08-22T13:54:17.437596 | 2019-12-07T17:35:26 | 2019-12-07T17:35:26 | 216,409,340 | 1 | 1 | null | null | null | null | UTF-8 | Scilab | false | false | 155 | tst | 1-basic.tst | 5 + 5 # 10
( 5 + 3 ) # 8
(5*2.0) # 10
5 * -5.2 # -26
5 * ( 2 + 3.5) # 27.5
1 + 2 / 3.2 # 1.625
5(9*2) # 40
((5)) # 5
-1 # -1 |
67421ee4a70d7f400e36fa0452b88aa04fa81f27 | 449d555969bfd7befe906877abab098c6e63a0e8 | /317/CH13/EX13.14/example14.sce | f48541196fb25a554d63a6b3eacbc8bcfefd5141 | [] | 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 | 556 | sce | example14.sce | // calculate output voltage
// Electronic Principles
// By Albert Malvino , David Bates
// Seventh Edition
// The McGraw-Hill Companies
// Example 13-14, page 450
clear; clc; close;
// Given data
Rs=10^3;// in ohms
Rl=10^3;// in ohms
gm=2500*10^-6;// transconductance in Seimen
Vin=10^-3;// input voltage ... |
8891edccce3970cd611118b3fac0c8a805746242 | 8217f7986187902617ad1bf89cb789618a90dd0a | /browsable_source/2.4.1/Unix-Windows/scilab-2.4.1/macros/percent/%r_o_r.sci | 588566b1b45d1bcb48bd39990cc6eab3cb3b922f | [
"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 | 251 | sci | %r_o_r.sci | function r=%r_o_r(l1,l2)
//%r_o_r(l1,l2) <=> l1==l2 with l1 and l2 rationals
//!
//r=l1(4)==l2(4)&l1(2)==l2(2)&(l1(3)==l2(3)|l1(2)==0)
// Copyright INRIA
if varn([l1(2),l1(3)])~=varn([l2(2),l2(3)]) then r=%f;return;end
r=(l1(4)==l2(4))&((l1-l2)==0)
|
0e751983a610b179bedf96c6dfc424440af7399a | 449d555969bfd7befe906877abab098c6e63a0e8 | /1427/CH34/EX34.15/34_15.sce | abfd864e82a5e5de8669c58d11123e8376b99be7 | [] | 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 | 34_15.sce | //ques-34.15
//Calculating percentage of light absorbed by a solution
clc
C1=30.1; C2=15.05;//concentration (in g/L)
l=1;//thickness (in cm)
ratio=100/50;//=Io/I1
z=log10(ratio)/(C1*l);//= EC/M
//On solving, log10(tran) = EC/M*C2*l
tran=1.4144;
I2=100/tran;
ab=100-I2;
printf("The percentage of light absorbed... |
79589493be8742e23b258ca9dfecd58c9dcb9a07 | 42fdf741bf64ea2e63d1546bb08356286f994505 | /test_0622_peak_detector/bcg_scg_input_graph.sce | 12ad9b2890b5fb7899e66b1b6a904e1e88417e55 | [] | no_license | skim819/RASP_Workspace_sihwan | 7e3cd403dc3965b8306ec203007490e3ea911e3b | 0799e146586595577c8efa05c647b8cb92b962f4 | refs/heads/master | 2020-12-24T05:22:25.775823 | 2017-04-01T22:15:18 | 2017-04-01T22:15:18 | 41,511,563 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 2,514 | sce | bcg_scg_input_graph.sce | // Sampling rate: 1000
bcg_input(:,2) = fscanfMat('bcg_input.txt');
a_temp=size(bcg_input);
bcg_input(:,1)=linspace(0,a_temp(1,1)-1,a_temp(1,1))';
offset_for_BPF_input=1.25-mean(bcg_input(10000:13000,2));
bcg_input(:,3)=bcg_input(:,2)+offset_for_BPF_input;
myVariable = [linspace(1.25,1.25,500) bcg_input(10000:13000,3)'... |
be148bd985084cf4dcd5f960396b2a1d2046c7ce | 449d555969bfd7befe906877abab098c6e63a0e8 | /1574/CH9/EX9.1/Aerials_Ex_9_1.sce | 5a71b56bbe7fcee224070e58d7d2a5a316392c75 | [] | 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 | Aerials_Ex_9_1.sce | clc
//Chapter9
//Example9.1, page no 397
//Given
D=90// directivity
lambda=2// wavelength
Ae=(D*(lambda^2))/(4*%pi)//effective aperture
mprintf('The maximum effective aperture of the\n aerial is %f sq m',Ae)
|
a7017497215b42c0459afa3e4e46609fe956e64b | 449d555969bfd7befe906877abab098c6e63a0e8 | /557/CH23/EX23.2/2.sce | b3144279700864b7d0ade030103bcf14de715c7b | [] | 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 | 2.sce | clc; funcprot(0); //Example 23.2
//Initializing the variables
n = 0.9;
g = 9.81;
D = 1.45;
N = 375/60;
H = 200; // Real height
x = 165; // Theta
P = 3750*10^3;
rho = 1000;
//Calculations
h = n*H; //Effective Head
v1 = sqrt(2*g*h);
u = %pi*D*N;
n_a = (2*u/v1^2)*(v1-u)*(1-n*cosd(x));
P_b =... |
60d681a2bd4ea6712b1e5f35da4ff8ac2b9f83e1 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2498/CH2/EX2.15/ex2_15.sce | af3c03b0f4ff3768e51942c869412c4e6a391092 | [] | 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 | 455 | sce | ex2_15.sce | // Exa 2.15
clc;
clear;
close;
format('v',6)
// Given data
V = 10;// in V
V1 = 2.5;// in V
R = 1;// in Mohm
R = R * 10^6;// in ohm
i = (V-V1)/R;// in A
i = i * 10^6;// in µA
// The output voltage for a complete cycle
Vo1 = (i*10^-6*R)+V1;// in V
disp(Vo1,"The output voltage for a complete cycle in V is")... |
8fd3832f6de07c4a2bfa3ec39bd66266db8e1224 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2198/CH2/EX2.12.3/Ex2_12_3.sce | 2c171cd7498a8607b21ef03a5df353a68ddc461b | [] | 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 | 437 | sce | Ex2_12_3.sce | //Ex 2.12.3
clc;clear;close;
format('v',8);
//Given :
NA=3*10^20;//per m^3
Vj=0.2;//Volt
V=-10;//Volts
A=1*10^-6;//m^2
epsilon_r=16;//for Ge
epsilon_o=8.854*10^-12;//permitivity
q=1.6*10^-19;//Coulomb
W=sqrt(2*epsilon_r*epsilon_o*(Vj-V)/q/NA);//m
disp(W*10^6,"Width of depletion region(micro meter) : ");
... |
57dbc5fba4906e72a563e7f6293bbf1d66963a0d | 449d555969bfd7befe906877abab098c6e63a0e8 | /135/CH10/EX10.13/EX13.sce | dc461cad307c12a25d9d544f38a85e452bdc7515 | [] | 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 | 812 | sce | EX13.sce | // Example 10.13: (a) fH for cascode amplifier
// (b) fH for common -emitter stage
clc, clear
RC1=1.5e3; // in ohms
RC2=RC1;
RS=300; // in ohms
r_pi=2e3; // in ohms
gm=0.05; // in mho
bta=100;
C_pi=19.5e-12; // in farads
C_mu=0.5e-12; // in farads
disp("Part (a)");
R_pi1=RS*r_pi/(RS+r_pi); ... |
61db6a54052d7dfe4ff2292835d51ba38302abb2 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3506/CH2/EX2.2/EXP_2_2.sce | a5212896b69960ff6d627c17995bd486d52b7e3c | [] | 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 | 708 | sce | EXP_2_2.sce | //Optical Fiber communication by A selvarajan
//example 2.2
//OS=Windows XP sp3
//Scilab version 5.5.1
clc;
clear all;
lamda1=0.7//wavelength in um
lamda2=1.3//wavelength in um
lamda3=2//wavelength in um
f_lambda1=(303.33*(lamda1^-1)-233.33)//equation for lambda1
f_lambda2=(303.33*(lamda2^-1)-233.33)//equatio... |
b67e5dbc9ab40edda7ae91af7953b1583e9f7c2d | dc5a2fe4380e1453a12f15f5080b10f3ababb9de | /AutomationTools/bin/1.0/common/ATLAS/tools/txtfile/sh_aipad_lan_ether.tst | 5465826d05e47397058c5c4cc43f443d65ca65e0 | [] | no_license | jameshilliard/PythonCode | f72ad62bb8b8cafbc94cbe7c0d3065343fdf0f98 | 422543bc049f57a67d53ec0b89caef076297cdc5 | refs/heads/master | 2020-04-09T00:06:25.689609 | 2015-03-14T13:14:34 | 2015-03-14T13:14:34 | 32,722,067 | 3 | 0 | null | 2015-03-23T09:21:52 | 2015-03-23T09:21:52 | null | UTF-8 | Scilab | false | false | 4,562 | tst | sh_aipad_lan_ether.tst | -v G_USER=jma
-v G_CONFIG=1.0
-v G_TBTYPE=aipad
-v G_PROD_TYPE=MC524WR
-v G_HTTP_DIR=test/
-v G_FTP_DIR=/log/autotest
-v G_TESTBED=tb40
-v G_TST_TITLE="Advanced IP Address Distribution Network Home Office"
-v G_FROMRCPT=shqa@actiontec.com
-v G_FTPUSR=root
-v G_FTPPWD=@ctiontec123
-v U_USER=admin
-v U_PWD=admin1
-v G_L... |
34bb1ce87335e441f9395c6f228d7d8bf48fa486 | 676ffceabdfe022b6381807def2ea401302430ac | /utilities/FieldConvert/Tests/bfs_tec.tst | 402d7cbed62992c838d56f9f815c99fe0808037d | [
"MIT"
] | permissive | mathLab/ITHACA-SEM | 3adf7a49567040398d758f4ee258276fee80065e | 065a269e3f18f2fc9d9f4abd9d47abba14d0933b | refs/heads/master | 2022-07-06T23:42:51.869689 | 2022-06-21T13:27:18 | 2022-06-21T13:27:18 | 136,485,665 | 10 | 5 | MIT | 2019-05-15T08:31:40 | 2018-06-07T14:01:54 | Makefile | UTF-8 | Scilab | false | false | 768 | tst | bfs_tec.tst | <?xml version="1.0" encoding="utf-8"?>
<test>
<description> Process 2D tecplot output </description>
<executable>FieldConvert</executable>
<parameters> -f -e bfs_tg.xml bfs_tg.fld bfs_tg.dat</parameters>
<files>
<file description="Session File">bfs_tg.xml</file>
<file description="Session File"... |
5a7800a022522c42d9f2a40366b111018e92cfdc | 449d555969bfd7befe906877abab098c6e63a0e8 | /3648/CH25/EX25.8/Ex25_8.sce | f503fac5f59aa14f9fe92fa524e7d5dea9ec4636 | [] | 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 | 617 | sce | Ex25_8.sce | //Example 25_8
clc();
clear;
//To find the energy of photonn each case
dist1=1240*10^-9 //units in meters
lamda1=100 //units in meters
e1=dist1/lamda1 //Units in eV
dist2=1240 //units in nano meters
lamda2=550 //units in meters
e2=dist2/lamda2 //Units in eV
dist3=1240 //units ... |
cf96115f239164214818774a91cf70d80581ced5 | 449d555969bfd7befe906877abab098c6e63a0e8 | /62/CH7/EX7.39/ex_7_39.sce | cd717f2319217afefbd5e8ebc4d7ed9515324683 | [] | 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 | 193 | sce | ex_7_39.sce | clc;
A=[0 1;-6 -5];
syms t
//we know %e^(at)=b0*I+b1*A;
e=spec(A);//eigen values
b0=e(1)*%e^(e(2)*t)-e(2)*%e^(e(1)*t);
b1=%e^(e(1)*t)-%e^(e(2)*t);
eAt=b0*eye(A)+b1*A;
disp(eAt,"e^(At)") |
1936663e2a3a1e8cf9fe4d59cc4d24560f26b88e | 449d555969bfd7befe906877abab098c6e63a0e8 | /104/CH8/EX8.19/8_19.sce | 628a0ef137a54699b5e986e628b1b3846c2edef4 | [] | 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 | 249 | sce | 8_19.sce | //effect of addition of zeroes to sys
s=%s
sys=syslin('c',1/(s*(s+1))) //a=1
evans(sys)
sys1=syslin('c',(s+2)/(s*(s+1))) //b=2
//evans(sys1)
printf("adding a LHP zero to sys has effect of moving and bending the root loci towards the LHP") |
1808a0d61511683df1ebe047973379829c709dc9 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2063/CH9/EX9.8/9_8.sce | e7802842aca8b018039f7bd55c32a1bedb7c22b8 | [] | 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 | 957 | sce | 9_8.sce | clc
clear
//Input data
V1=0.05;//displacement of a piston of a single cylinder single stage reciprocating compressor in m^3
P1=1;//pressure of air sucked in the compressor in bar
T1=300;//Initial Temperature of air in K
P2=7;//Pressure after the compression process in bar
//Calculations
V2=(P1*V1)/P2;//Volume... |
d6c0741a3624eae7eedb52e7201f36aface859dd | 449d555969bfd7befe906877abab098c6e63a0e8 | /764/CH14/EX14.6.a/data14_6.sci | d9e46b3791adc490b2121a6c1f83a90a4e3a500f | [] | 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 | 1,093 | sci | data14_6.sci |
//(Chain Drives) Example 14.6
//Power rating of the petrol engine kWd
kWd = 10
//Speed of the engine n1 (rpm)
n1 = 900
//Number of teeth on the driving sprocket z1
z1 = 21
//Alternate number of teeth on the driving sprocket alt_z1 (rpm)
alt_z1 = 25
//Minimum speed of the conveyor shaft n2min (rpm)
n2min = 2... |
3e0dda2bfdc04104bb2abf875053710d0eda4ec5 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1553/CH21/EX21.1/21Ex1.sce | 629325463fc1d9e61d212e9dc6310e52df5d5f18 | [] | 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 | 145 | sce | 21Ex1.sce | //chapter 21 Ex 1
clc;
clear;
close;
p=68000; r=50/3; t=9/12;
sInterest=(p*r*t)/100;
printf("The simple interest is Rs. %d",sInterest);
|
409340884b4ef7d3f554e61dc65227240947b834 | 36c5f94ce0d09d8d1cc8d0f9d79ecccaa78036bd | /DJ Simulator.sce | 0486c0d98f679713bdb14e0e16f3566f968c5471 | [] | no_license | Ahmad6543/Scenarios | cef76bf19d46e86249a6099c01928e4e33db5f20 | 6a4563d241e61a62020f76796762df5ae8817cc8 | refs/heads/master | 2023-03-18T23:30:49.653812 | 2020-09-23T06:26:05 | 2020-09-23T06:26:05 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 152,559 | sce | DJ Simulator.sce | Name=DJ Simulator
PlayerCharacters=Quaker
BotCharacters=Quaker Bot Fast Strafes.bot
IsChallenge=true
Timelimit=3600.0
PlayerProfile=Quaker
AddedBots=Quaker Bot Fast Strafes.bot;Quaker Bot Fast Strafes.bot;Quaker Bot Fast Strafes.bot;Quaker Bot Fast Strafes.bot;Quaker Bot Fast Strafes.bot;Quaker Bot Fast Strafes.bot;Qua... |
41fe34684292cccaf82e33a5ea06501ab847236f | 449d555969bfd7befe906877abab098c6e63a0e8 | /2489/CH18/EX18.6/18_6.sce | a666a31dd83c92334b27365f56e10114dd127a85 | [] | no_license | FOSSEE/Scilab-TBC-Uploads | 948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1 | 7bc77cb1ed33745c720952c92b3b2747c5cbf2df | refs/heads/master | 2020-04-09T02:43:26.499817 | 2018-02-03T05:31:52 | 2018-02-03T05:31:52 | 37,975,407 | 3 | 12 | null | null | null | null | UTF-8 | Scilab | false | false | 208 | sce | 18_6.sce | clc
//Intitalisation of variables
clear
T= 45 //C
E= 24.7 //kcal
R= 2 //cal
//CALCULATIONS
k= 2*10^10*(273+T)*%e^-(E*1000/(R*(273+T)))
//RESULTS
printf ('Specific rate of reaction = %.e sec^-1',k)
|
670f72bafb2e44cad9ff7d52b378e0bd47aa7796 | 417f69e36190edf7e19a030d2bb6aa4f15bb390c | /SMTTests/tests/err_numeral.tst | 549e852df5efdd63e9bb075c7a185906bd47ad77 | [] | no_license | IETS3/jSMTLIB | aeaa7ad19be88117c7454d807a944e8581184a66 | c724ac63056101bfeeb39cc3f366c8719aa23f7b | refs/heads/master | 2020-12-24T12:41:17.664907 | 2019-01-04T10:47:43 | 2019-01-04T10:47:43 | 76,446,229 | 1 | 0 | null | 2016-12-14T09:46:41 | 2016-12-14T09:46:41 | null | UTF-8 | Scilab | false | false | 10 | tst | err_numeral.tst | (push 00)
|
81f18bbb56e31b90e01de34389a17981c82be07b | 449d555969bfd7befe906877abab098c6e63a0e8 | /83/CH13/EX13.1/example_13_1.sce | 0e6257c748a78923f05067db8ff92cec1f5ec1e0 | [] | 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 | 9,366 | sce | example_13_1.sce | //Chapter 13
//Example 13.1
//page 522
//To find the generation shift factors and the line outage distribution factors
clear;clc;
//this problem can be thought to be solved by using gauss-siedel method using Zbus(X matrix given in table 13.1),but then in this method we need total line charging admittances to ground at... |
bb42a676b229ba2ddf7fe64fc9ca6ce313ed79c5 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2144/CH2/EX2.16/exa_2_16.sce | 70c497d74025c79d957fd3bdf4fa1ab392319854 | [] | 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 | 229 | sce | exa_2_16.sce | // Example 2.16
clc;
clear;
close;
// Given data
U= 2800;// in kJ/kg
P= 20;// in bar
P= P*10^5;// in N/m^2
V= 0.23/1000;// in m^3
SP= U+P*V;// specific enthalpy in kJ/kg
disp(SP,"The specific enthalpy in kJ/kg is : ")
|
fad3c866b569c40f7ba43a9fddc91c0e84fab043 | 0638ccf4a1cb5242bee84d80c656709ff4eba73b | /Practice/Encoder.tst | 752ca01391b9fbcef9c3eae034062f12a5f91559 | [] | no_license | siyeol/Logic-and-Computer-Design | 3bc584200083d685258df89b898f5b0111c005de | 6970c81a9977f4d4e5b2bfd47d9ee464ac5a2d45 | refs/heads/master | 2023-06-21T21:35:22.794565 | 2021-07-14T16:12:58 | 2021-07-14T16:12:58 | 262,973,492 | 0 | 0 | null | 2020-05-12T10:19:02 | 2020-05-11T07:42:18 | Scilab | UTF-8 | Scilab | false | false | 196 | tst | Encoder.tst | // Modified by Minho Kim (9 Oct 2014)
load Encoder.hdl,
output-file Encoder.out,
compare-to Encoder.cmp,
output-list in%B2.2.2 out%B2.1.2;
set in %B01,
eval,
output;
set in %B10,
eval,
output;
|
8442fb4980228bd12cdfbf5529ba8e3453286874 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3845/CH20/EX20.5/Ex20_5.sce | 72b8e6f9b4eb19cb2b4979a09690fc407dfec975 | [] | 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 | 335 | sce | Ex20_5.sce | //Example 20.5
rho=5.6*10^-8;//Resistivity of tungsten (ohm.m)
L=4*10^-2;//Length (m)
R=0.350;//Resistance (ohm)
A=rho*L/R;//Cross-sectional area of filament (m^2)
D=2*sqrt(A/%pi);//Diameter (m)
printf('Filament diameter = %0.1e m',D)
//Openstax - College Physics
//Download for free at http://cnx.org/content/co... |
017a859f24e5c38bfaa68ad86935c3fe76e602d2 | 2399c938aebed8115aebc38432ebe25fef5229ec | /TP3/Partie3 TP/solvup.sci | ab267f46408d6a274e65e3144ff083cdd74afdd4 | [] | no_license | EtienneLav/LO22-Surete-de-fonctionnement | 78a4b91722d2f4ef26f8746a00e575ab54ef3e6d | 11d130b3ab22a9d132ddbe496e2dfa58689eb7d0 | refs/heads/master | 2021-01-20T19:13:35.090488 | 2016-06-07T13:50:40 | 2016-06-07T13:50:40 | 59,937,340 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 677 | sci | solvup.sci | function[x] = solvsup(U, b)
[n, m] = size(U); //n correspond à la taille du système
if n <> m then
error("La matrice n est pas carré");
end
if length(b) <> n then
error("Le second vecteur n a pas la même taille que la ")
end
x = zeros(n, 1); //On initialise les résultat... |
d0b5ba4b5f55f89e7a1e32c166017bad3e8de11e | 449d555969bfd7befe906877abab098c6e63a0e8 | /226/CH17/EX17.1/example1_sce.sce | fa2ef84d2890f77981d366b9a47167df6709ca0d | [] | 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 | 432 | sce | example1_sce.sce | //chapter 17
//example 17.1
//page 716
printf("\n")
printf("given")
rs=600;R1=12*10^3;Rl=100*10^3;C1=.013*10^-6;
disp("when Rl is not connected")
fc=1/(2*3.14*R1*C1)
disp(" when Rl is connected")
fc=1/(2*3.14*((R1*Rl)/(R1+Rl))*C1)
Attn=3//at fc attenuation is =3dB
falloffrate=6
disp("attenuation at 2fc")
A... |
7b32bdca56fcdb2b6fceca35ec22e291b781baf8 | 8217f7986187902617ad1bf89cb789618a90dd0a | /source/2.3/macros/util/logspace.sci | 1446580c42c7b212eae09c576045af5084b24876 | [
"MIT",
"LicenseRef-scancode-warranty-disclaimer",
"LicenseRef-scancode-public-domain"
] | 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 | 435 | sci | logspace.sci | function y=logspace(d1, d2, n)
// Logarithmically spaced vector.
// logspace(d1, d2) generates a row vector of n logarithmically
// equally spaced points between 10^d1 and 10^d2. If d2=%pi
// then the points are between 10^d1 and pi.
// logspace(d1, d2, n) generates n points.
[nargout,nargin]=argn(0);
if nargin == 2
... |
7541f08f44d064d453a1dbbf6bee818980767c1f | 449d555969bfd7befe906877abab098c6e63a0e8 | /1694/CH6/EX6.14/Ex6_14.sce | 82206904877804359cbd4e611485a780a586e0a6 | [] | 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 | Ex6_14.sce | clear;
clc;
printf("\nEx-6.14\n");
//page no.-190
//given
v=10^6;.......//avg velocity in m.s
rho=1.673*10^-8;..//resistivity in ohm m
n0=8.48*10^28;.........//no. of electrons per unit vol
e=1.6*10^-19;......//charge in C
m=9.11*10^-31;......//mass of e in kg
tau=m/(no*e^2*rho)........//mean collission tim... |
e4d492130c9f2732b5b2e732b417a967ad9eef32 | a8392820bef2e8fe1ff5fb93c9bdb6b782f6a970 | /Assignment 1/Code/CDF_sectoring.sce | 406258d0877721e9904c890daf94f0320e984da9 | [] | no_license | debarnab-mitra/Wireless-and-Mobile-communication | 0704c8bd7a6f752d13e263f1a2e8f67394a5a01a | 49d305f7f70ff1cec2d8b6394a66ca8e97da1b3e | refs/heads/master | 2020-04-02T20:48:34.115870 | 2018-10-26T05:06:27 | 2018-10-26T05:06:27 | 154,779,847 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 4,272 | sce | CDF_sectoring.sce | function [inside] = point_in_polygon(xpol, ypol, xpoint, ypoint)
//*****************************************************************************
// function: inside_poly - this function returns a Yes (1), No(0)
// depending on if a point is inside a polygon or not
//
// Inputs:
// xpol, ypol are the coordinat... |
83dde7d702d052ac3e23a9f321ab91e23cd5bac7 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2990/CH3/EX3.3/Ex3_3.sce | adf4e554147549b86c406fce42f2d147686fc1c2 | [] | 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 | 1,575 | sce | Ex3_3.sce |
clc; funcprot(0);
// Initialization of Variable
//alpha=A and beta=B and those are angles
AB=1525.456;//distance in m
BC=2176.945;//distance in m
CD=1697.435;//distance in m
AD=2401.435;//distance in m
AC=3073.845;//distance in m
BD=2483.115;//distance in m
//calculation
A1=acos((CD**2+AC**2-AD**2)/(2*CD*AC... |
9af93cbf5a5968f9a9e83ee149ae1b184f2f1141 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2642/CH4/EX4.4/Ex4_4.sce | e185535738d0df6e7ded8ebcbb679d363606e626 | [] | 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 | 572 | sce | Ex4_4.sce | // FUNDAMENTALS OF ELECTICAL MACHINES
// M.A.SALAM
// NAROSA PUBLISHING HOUSE
// SECOND EDITION
// Chapter 4 : DIRECT CURRENT GENERATORS
// Example : 4.4
clc;clear; // clears the console and command history
// Given data
P = 4 // number of poles
Z = 40*10 // number of conductors
phi = 0.02... |
dc632a69bb0885e00a12019253b12db4f8fdfbe6 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2318/CH2/EX2.23/ex_2_23.sce | d3255c768b2007cdabf5e6fa35dc132a76a14128 | [] | 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 | ex_2_23.sce | //Example 2.23://shunt resistance
clc;
clear;
close;
format('v',9)
ra=1000;//armature resistance in ohms
i=10;//mA
ia=500;//micro amperes
rsh1=((ra)/((i/(ia*10^-3))-1));//in ohms
i1=75;//mA
rsh2=((ra)/((i1/(ia*10^-3))-1));//in ohms
i3=100;//mA
ia3=0.4*ia;//micro amperes
rsh3=((ra)/((i3/(ia3*10^-3))-1));//in ohms
disp(... |
de645f8f16a72fc10cf5dab082014aa77d90e791 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3802/CH3/EX3.21/Ex3_21.sce | 8197ec8fa84800c8b349f43f5ce2c22cd613f4c6 | [] | 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 | 907 | sce | Ex3_21.sce | //Book Name:Fundamentals of Electrical Engineering
//Author:Rajendra Prasad
//Publisher: PHI Learning Private Limited
//Edition:Third ,2014
//Ex3_21.sce
clc;
clear;
P1=7e3; //supplied power in watt
pf1=0.8; //lagging power factor
//below values are taken from the given circuit (fig.3.39)
Z1=complex(0.... |
4b134b2fc7476194b02572bb8ecd9c64eb0f3c87 | ac1f8441b0319b4a391cd5a959bd3bb7988edfa7 | /data/news2015/news2015/SplitsNEWS15/EnTa/enta.8.tst | 7d776a6bfd08af3d8c3e27c46dc6c2a625bee353 | [
"MIT"
] | permissive | SaeedNajafi/transliterator | 4d58b8604fa31f52ee2dce7845e002a18214fd5e | 523a087b777a5d6eec041165dabb43848f6222e6 | refs/heads/master | 2021-09-18T17:02:59.083727 | 2018-07-17T06:01:21 | 2018-07-17T06:01:21 | 129,796,130 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 61,926 | tst | enta.8.tst | a a c h a r y a n a n d a n a a ஆ ச ா ர ் ய ா ன ா ன ் த ன ா
a a d m i ஆ த ் ம ி
a a k a s h a ஆ க ா ஷ ா
a a l i n g a n ஆ ல ி ங ் க ன ்
a a m i n a h ஆ ம ி ன ா
a a m i r a h ஆ ம ி ர ா
a a n d h i a u r t o o f a n ஆ ந ் த ி அ வ ு ர ் த ூ ஃ ப ன ்
a a p k i p a r c h h a i y a n ஆ ப ் க ி ப ர ி ச ் ச ா ய ... |
0125a57485064f68d6d9e05d11d213215451bfff | 7f8a82b193633b744689e1f194923592e656b470 | /rltoolSci/macros/alteraCompensador.sci | d61fe058a23b3cb81646f3a1b975551e81e4db94 | [] | no_license | josuemoraisgh/rltoolSci | 3b5a5e8fc6a27b60bca3354af5222350cd8e8b3b | a76ad9fbfe988bb2674adfeb466847a32719474a | refs/heads/main | 2023-07-14T10:40:12.549424 | 2021-08-26T17:52:16 | 2021-08-26T17:52:16 | 385,216,740 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 385 | sci | alteraCompensador.sci | function alteraCompensador
global axes1 sys comp cnum cden cCk
cCk = get('eCk','String');
cnum = get('eCNum','String');
cden = get('eCDen','String');
if isempty(cnum) || cnum == ' ' then
cCk='k';
cnum='1';
cden='1';
else
if isempty(cden) || cden == ' ' then
... |
6f379014747e3519dc38fea598576b2245025880 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3456/CH13/EX13.1/Ex13_1.sce | 48295bdb9fc74ee96208193fb4868547a4ac317b | [] | 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 | Ex13_1.sce | //Example 13.1
//Engineering Creep
//Page No. 461
clc;clear;close;
sf=3; //no unit
per=1/1000; //in %
T(1)=1100; //in Fahrenheit
T(2)=1500; //in Fahrenheit
C(1)=30000; //from fig 13-17 in book
C(2)=4000; //from fig 13-17 in book
W... |
1117b65231d9e5ad83426ec2fce8586499315096 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3733/CH17/EX17.4/Ex17_4.sce | 5d487a4e781a5ef6848c4a3b32ac71bc94bb3ad6 | [] | 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 | 1,780 | sce | Ex17_4.sce | // Example 17_4
clc;funcprot(0);
//Given data
m_s=50000;// Steam condensed in kg/hr
T_s=40;// Temperature of steam in a condenser in °C
x=0.85;// Dryness of steam entering into condenser
m_a=150;// The air leakage in the condenser in kg/hr
T_c=35;// Temperature of the condensate in °C
T_suction=32;//Temperature... |
b6bc61773b999b21995a9faa282ef8b971e8bb89 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3137/CH17/EX17.32/Ex17_32.sce | f1f2ab3c2b201a973f0034d495aedb0a82e6b6b9 | [] | 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 | Ex17_32.sce | //Initilization of variables
m=10 //kg
d=1.2 //m
g=9.8 //m/s^2
//Calculations
//Initilial KE is zero
//Final KE is(without v^2 term in it)
KE2=(3/4)*10
//Work Done
U=m*g*d //N.m
//Velocity calculations
v=sqrt(U/KE2) //m/s
//Result
clc
printf('The velocity is %fm/s',v)
|
a99dbd55d40e475388f849d55025e5acd1c984ae | 179444df4794b94c49c986f053e06619265b3a1b | /caminhao.sce | 5b03565317558293f1638c041d2a2dc84a258b2e | [] | no_license | Rosane/caminhao | 9f685980b9dd9c567db37606ae493a950eaae19b | f1df8ccfd2a29ca0f8c3f2c25003c54664df9018 | refs/heads/master | 2021-01-18T06:58:32.928404 | 2012-05-05T21:30:02 | 2012-05-05T21:30:02 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 3,439 | sce | caminhao.sce | //Problema de estacionar um caminhao
//Livro: Neural Networks and Fuzzy Systems - A Dynamical Systems Approach
// to Machine Intelligence cap 9
// Bart Kosko
// Ed. Prentice Hall
// Exibir aviso para a exceção de ponto flutuante
ieee(1);
//usar pathconvert para compatibilidade? guardar em uma cons... |
cbb22e47a7ca130b00ec396254db23d15462de1d | 449d555969bfd7befe906877abab098c6e63a0e8 | /995/CH6/EX6.3/Ex6_3.sce | 5200f31993066b4a87e4516d679240c46fb061ec | [] | 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 | 145 | sce | Ex6_3.sce | //Ex:6.3
clc;
clear;
close;
f=50;
L=10;
X_l=2*%pi*f*L;
X_c=3.18;
V_rip=1*(X_c/sqrt(X_l^2+X_c^2));
printf("Ripple voltage = %f V",V_rip); |
6f902069216f233bf018f08f9e917f422d17bf49 | a62e0da056102916ac0fe63d8475e3c4114f86b1 | /set13/s_Introductory_Methods_Of_Numerical_Analysis_S._S._Sastry_1673.zip/Introductory_Methods_Of_Numerical_Analysis_S._S._Sastry_1673/CH6/EX6.19/6_19.sce | 0927b27817ca041c8b80f5a5c990a5990a4c612e | [] | 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 | 268 | sce | 6_19.sce | errcatch(-1,"stop");mode(2);//gauss' formula
//example 6.19
//page 242
;;
u=[-0.86113 -0.33998 0.33998 0.86113];
W=[0.34785 0.65214 0.65214 0.34785];
I=0;
for i=1:4
I=I+(u(i)+1)*W(i);
end
I=I/4;
printf(' the value of integrand is : %0.5f',I);
exit();
|
609f8ddf08cfe39070c4349bfb2b3f0e8be13f8d | 449d555969bfd7befe906877abab098c6e63a0e8 | /1682/CH2/EX2.4/Exa2_4.sce | b18c693f71bd4e25665305b0ad75b9f943c45271 | [] | 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 | 719 | sce | Exa2_4.sce | //Exa2.4
clc;
clear;
close;
//given data for original design
Tanks=4;//units
TankDia=5.2;//in meter
TankRad=TankDia/2;//in meters
TankHeight=7;//in meters
HeightDiaRatio=TankHeight/TankDia;//unitless
VolPerTank=(22/7)*TankRad^2*TankHeight;//in m^3
//given data for new design
disp("Cost of old design = 111% ... |
a71e9d9a3e237247a3e12ad136d1b7ddc82eb510 | 449d555969bfd7befe906877abab098c6e63a0e8 | /23/CH2/EX2.9/Example_2_9.sce | 6766cf7222e32a999f7ba7585477bc806628866b | [] | 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 | 1,563 | sce | Example_2_9.sce | clear;
clc;
//Example 2.9
//Caption : Program To Find Work,Heat,del U and del H
//Given values
//Initial
P1=1;//Pressure=1bar
T1=298.15;//Temp=298.15K(25`C)
V1=0.02479;//Molar Volume=0.02479m^3/mol
//Final
P2=5;//Pressure=5bar
Cv=20.78;//J/mol/K
Cp=29.10;//J/mol/K
//to Find del_U,del_H by two process... |
c0e05409ece5e6f8c6d302ea99296dd58715c10a | 449d555969bfd7befe906877abab098c6e63a0e8 | /1895/CH4/EX4.1/EXAMPLE4_1.SCE | 8fa419a4850151657a719d0efba4361cd32775e6 | [] | 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 | 1,032 | sce | EXAMPLE4_1.SCE | //ANALOG AND DIGITAL COMMUNICATION
//BY Dr.SANJAY SHARMA
//CHAPTER 4
//Radio Receiver
clear all;
clc;
printf("EXAMPLE 4.1(PAGENO 150)");
//given data
Q = 100//quality factor
f_i = 455*10^3//intermediate frequency
//calculations
//first case
f_s = 1000*10^3//incoming frequecy of first case
f_si = f_s + ... |
d7fa9527b5d18226e5eec1a7a4daad90a76e0dd4 | 449d555969bfd7befe906877abab098c6e63a0e8 | /896/CH19/EX19.8/8.sce | de5fe869652b645ec71366a0095678641aefedbe | [] | 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 | 367 | sce | 8.sce | clc
//Example 19.8
//Calculate the width of jet and entrainment ratio
Vo=40//ft/s
Do=1//ft
x=10//ft
K=6.2//dimentionless
V_centerline=Vo*K*(Do/x)//ft/s
alpha=20//degrees
Dx=Do*(1+(x/Do)*sin(alpha*%pi/180))//ft
printf("The jet diameter is %f ft\n",Dx);
//Let entrainment ratio be r
r=0.62*(x/Do)^0.5//dimentio... |
26eb5d33da6bea0b053369fc68125af86e5a6dd0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2594/CH2/EX2.28/Ex2_28.sce | d5a323c9ef8e781e24a1ce59489250fba1f924f7 | [] | 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 | 1,162 | sce | Ex2_28.sce | clc
Nv1=1.04*10^19
disp("Nv = "+string(Nv1)+" cm^-3")//initializing the value of valence band concentration at 300K.
Ef_Ev=0.3
disp("Ef_Ev = "+string(Ef_Ev)+" eV")//initializing the value of boron acceptor ionization energy.
T1=300
disp("T = "+string(T1)+"K")//initializing the value of temperature 1.
T2=500
dis... |
8ae8fe039dda001825f728dcac0190d1d802a824 | 449d555969bfd7befe906877abab098c6e63a0e8 | /2534/CH5/EX5.3/Ex5_3.sce | ee303ebfa5d2bec3d74918d95a15fa6e646c2f9e | [] | 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 | 408 | sce | Ex5_3.sce | //Ex5_3
clc
Vm = 12
RL = 1.5*10^3
Im = Vm/RL
Irms = Im/(2^.5)
Idc = (2*Im/%pi)
r =(((Irms/Idc)^2)-1)^.5
disp("Vm = "+string(Vm)+"V")//peak voltage to full rectifier
disp("Im = Vm/RL = "+string(Im)+"A")//peak current
disp("Irms = Im/(2^0.5) = "+string(Irms)+"A")//rms current
disp("Idc = (2*Im/pi) = "+string(I... |
a33c5e0aefc4c2b6ad0a7431d5c5d0cdc48599f2 | 8217f7986187902617ad1bf89cb789618a90dd0a | /source/2.1/macros/elem/sinh.sci | b5532d33565ddf78cbc05c7336c192217daa4514 | [
"LicenseRef-scancode-public-domain",
"LicenseRef-scancode-warranty-disclaimer",
"MIT"
] | 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 | 192 | sci | sinh.sci | function [t]=sinh(x)
//Syntax : <t>=sinh(x)
//
//hyperbolic sine
//!
if type(x)<>1 then error(53),end
[m,n]=size(x)
t=exp(x)
if m<>n then t=(t-ones(m,n)./t)/2
else t=(t-1/t)/2
end
|
6970702a67ebdf77717a64fe1ef6d2ba7c3aa3f9 | 449d555969bfd7befe906877abab098c6e63a0e8 | /199/CH4/EX4.7/Example_4_7.sce | 561ef737e4ea8281b275f52a4eb25a79f5fe9801 | [] | 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 | 762 | sce | Example_4_7.sce | // Chapter4
// Page.No-132, Figure.No-4.22(a)
// Example_4_7
// Total Output offset voltage
// Given
clear;clc;
R1=1*10^3;Rf=10*10^3;
Vio=7.5*10^-3; // Max input offset voltage
Iio=50*10^-9; // Max input offset current
Ib=250*10^-9; // Max input bias current
// For figure 4.22(a)
VooT=(1+Rf/R1)*Vio+(Rf*Ib); ... |
b5279d3f7e51372493663557d0fb6e46068d02c0 | 449f0d9106e35fc361bdb53d55d9563796f0d2c3 | /week1/scilab2.sce | d4fcd6f9bcddbb6746aa31c3c9f295c62fec48f0 | [] | no_license | aleksey-sinos/OpenEdu | 72eefffcc4ddbb45345a9bee61e534f9bf540390 | 6c3b4943a669b9398ad75e0fae44937cc6b04dc0 | refs/heads/master | 2020-06-30T13:29:27.839046 | 2019-12-04T07:47:12 | 2019-12-04T07:47:12 | 74,368,213 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 959 | sce | scilab2.sce | ///////////////////////////////////////////////////////////////////////////////
//// Неделя 1.2
//// Случайные величины и методы их описания.
///////////////////////////////////////////////////////////////////////////////
clear; deff('[numd] = roundd(num,n)','numd = round(num *10^n) / 10^n');
rand("seed",getdate("s"));... |
3bc04f99efb8ae5f06b2867e508ac998d857bf44 | a45d77dc05adac79daea8c89f06bf7ef36743e35 | /Exercise_16.sce | 961a5c1aa413409ae7a7937cf68efccc673869fb | [] | no_license | Gotcha17/CompFin_Sheet5 | 209b95c8caff6dc4c77747a6ade7deecd4d71208 | b6386dca57f405b300d19d7fa8492d0ea2d3644d | refs/heads/master | 2021-01-02T23:01:02.260884 | 2017-08-15T22:21:51 | 2017-08-15T22:21:51 | 99,440,585 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 1,276 | sce | Exercise_16.sce | clc; clear; //clears the console and all previously stored variables
function V_t = BS_Price_DownOut_Call (r, sigma, S_t, T, K, H, t)
//using matlab function to calculate prob. of a std. norm.
function p = Phi(x)
p = cdfnor("PQ", x, zeros(x), ones(x));
endfunction
//defining all used formuals in... |
91ac0bf13be02452171277cc2d09e8f4fefa1d1b | 449d555969bfd7befe906877abab098c6e63a0e8 | /1427/CH5/EX5.3/5_3.sce | acabd28cbbc2a7e3cac4775ded8db00747be2529 | [] | 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 | 523 | sce | 5_3.sce | //ques-5.3
//Finding specific and equivalent conductance of acid
clc
R1=225;//resistance of KCl (in ohms)
k1=0.00141;//specific conductance of KCl (in mho/cm)
R2=80;//resistance of acid solution (in ohms)
N=0.02;//normality of acid
c=k1*R1;//cell constant (in /cm)
k2=c/R2;//specific conductance of acid solution... |
1335f6a5540044253528576b34650b49066f6211 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1775/CH5/EX5.8/Chapter5_Example8.sce | bd8f6502be7a77437d9e322234c6880752eb8616 | [] | 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 | sce | Chapter5_Example8.sce | //Chapter-5, Illustration 8, Page 257
//Title: Air Compressors
//=============================================================================
clc
clear
//INPUT DATA
Ve=30;//Volume of air entering compressor per hour in m^3
P1=1;//Presure of air entering compressor in bar
N=450;//Speed in rpm
P2=6.5;//Pressu... |
1a2ed1de9b04aa17ec4b3a3ec73acfd66274b90e | 449d555969bfd7befe906877abab098c6e63a0e8 | /3428/CH11/EX5.11.1/Ex5_11_1.sce | c184520c55277ea6f56ec498789120586f6f6638 | [] | 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 | 616 | sce | Ex5_11_1.sce | //Section-5,Example-1,Page no.-D.123
//To calculate the quantum yield of the reaction
E=34.36
lm=253.7*10^-9 //Wavelength in nm
h=6.626*10^-34
c=3*10^8
el_qu=(h*c)/lm //Elememtary quantum corresponding to the given wavelength
N_qu=E/el_qu //Number of quant... |
d4819229bab3c810f70a442c070eed19d2c5ca46 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1499/CH3/EX3.17/q17.sce | 22fded51c779e4ee6fd337d5a7d79f226e436652 | [] | 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 | 98 | sce | q17.sce | s=%s;
syms k;
num=k*(s+1)*(s+3);
den=s*(s+2)*(s+4);
t=syslin('c',num/den);
clf;
evans(t)
|
650a67b205e45653a7b857ccb772a70b4c3acfda | aaac23e7fa85785f43bf1d8037708ee77ef640ef | /src/test_numeric_1_d.tst | c68aaa17b348d7ed2356b50375abc40751d15e4f | [
"OML",
"MIT",
"BSD-3-Clause",
"Zlib"
] | permissive | anto0ine/ciyam | ee2b057a9cd11008ae0d477dac111c0a8d2f60b3 | 7127d528c37584e7d562732274fa2ed6025daeaa | refs/heads/master | 2020-12-07T13:43:24.528962 | 2014-11-20T07:22:08 | 2014-11-20T07:22:08 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 3,116 | tst | test_numeric_1_d.tst |
> e
2.71828182845904524
> pi
3.14159265358979324
> set 12345
12345
> div 0.12345
100000
> div 0
error: attempt to divide numeric by zero
> mul 0.12345
12345
> mul 0.12345
1523.99025
> mul -12345
-18813659.63625
> div -0.12345
152399025
> div 12345
12345
> set 111111111111111111
111111111111111111
> add 1111... |
b3a615565d2401fcc28f31be63c78fc8d9120aa5 | a62e0da056102916ac0fe63d8475e3c4114f86b1 | /set4/s_Digital_Communications_S._Sharma_1631.zip/Digital_Communications_S._Sharma_1631/CH10/EX10.17/Ex10_17.sce | 7164ea4db7c63775e2b738b0cd25a583f36cf971 | [] | 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 | 392 | sce | Ex10_17.sce | errcatch(-1,"stop");mode(2);//Caption: code vectors
//Example 10.17
//page no 498
//Determine all possible code vectors
;
;
m3=1;
m2=0;
m1=1;
m0=0;
//M=Message Matrix
//G=Generator Matrix
G=[1 0 1 1 0 0 0;0 1 0 1 1 0 0;0 0 1 0 1 1 0;0 0 0 1 0 1 1];
M=[m3 m2 m1 m0;];
X=M*G;
for i=1:7;
if X(i)>1
... |
8031636ff9457532002a84ef4879ca67c97e179d | fcd4bce0080771389b4a69338ed6443153942183 | /cores/n64/mupen64plus-rsp-paraLLEl/lightning/check/fib.tst | 0835323c3d4b5881a839dc74bc79427ccc47731c | [
"GPL-2.0-only",
"MIT",
"LGPL-2.1-only",
"MPL-1.1",
"LicenseRef-scancode-mame",
"GPL-1.0-or-later",
"Zlib",
"LGPL-2.1-or-later",
"MPL-2.0",
"CC-PDDC",
"LicenseRef-scancode-public-domain",
"LicenseRef-scancode-proprietary-license",
"LicenseRef-scancode-brian-gladman-3-clause",
"BSD-3-Clause"... | permissive | wulfebw/retro | d4fcf9229b257b3c495f54b1aeb3ea36004ae4aa | dad4b509e99e729e39a2f27e9ee4120e3b607f58 | refs/heads/master | 2022-10-23T07:17:55.320585 | 2020-06-12T01:38:06 | 2020-06-12T01:38:06 | 260,832,205 | 8 | 1 | MIT | 2020-06-12T01:38:08 | 2020-05-03T05:06:17 | C | UTF-8 | Scilab | false | false | 820 | tst | fib.tst | .data 32
format:
.c "nfibs(%d) = %d\n"
.code
jmpi main
name nfibs
nfibs:
prolog
arg $in
getarg %r0 $in // R0 = n
beqi ref %r0 0
movr %r1 %r0
movi %r0 1
blei_u ref %r1 2
subi %r2 %r1 2
movr %r1 %r0
loop:
subi %r2 %r2 1 // decr. counter
movr %v0 %r0 // V0 = R0
addr %r0 %r0 %r1 // R0 = R0 + R1
movr %r1... |
fde059f025f6883003da859328f92731cd5e092a | 127061b879bebda7ce03f6910c80d0702ad1a713 | /bin/PIL_lsort.sci | f66f17fed25e1a5daa692fe2974001110870a2ab | [] | 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 | 1,417 | sci | PIL_lsort.sci | // **** Purpose ****
// lexicographic row/column sort of a input matrix based on the
// assigned row/column sequence.
// **** Variables ****
// [A_in]: complex, NxM
// <= numerical matrix 1
// [r_c_type]: 1x1, string, 'r' / 'c'
// <= 'r': row, 'c': column
// [data_seq]: 1xN / 1xM, int
// <= the sequence of the sor... |
b845dd6b229c9e9dce2cfa879f1c4b96bd192f52 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3841/CH7/EX7.8/Ex7_8.sce | 368d41ddedf5147f4fac3fd9e6d0a1f00401941d | [] | 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 | 174 | sce | Ex7_8.sce | clear
//find the brake thermal efficency
//given
f=0.44
q=19500
//for each bhp output is 2544
hi=f*q
bth=(2544./hi)*100.
printf("\n \n brake thermal efficency %.2f bhp",bth)
|
67e28ce41920cfcb9bd35af0b9302612b35c2fc0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /181/CH7/EX7.59/example7_59.sce | 564599556eba94d6190a38f707e00aad092b3e8c | [] | 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 | 805 | sce | example7_59.sce | // Design a source follower
// Basic Electronics
// By Debashis De
// First Edition, 2010
// Dorling Kindersley Pvt. Ltd. India
// Example 7-59 in page 361
clear; clc; close;
// Given data
Vds=14; // Drain-source voltage in V
Idq=3*10^-3; // Drain-source current in mA
Vdd=20; // Drain voltage in V
gm=2*1... |
552082ce94e51c775368531ed89768b64699e599 | e02aa9695b075784e5d6aba93cab02d1864f1039 | /Méthodes_numériques/projet/script_scilab/q9.sce | 05bece94dfeaae758bf9fb3f1a3cddaa965c86d9 | [] | no_license | michelprojets/Ensimag1 | 1a4cf84203f0e63a71ece278bf364d32d2219825 | b9ed4a050c7c548781a9e26d99747e8883c5c1f5 | refs/heads/master | 2021-09-13T15:47:16.632446 | 2018-05-01T18:17:26 | 2018-05-01T18:17:26 | 103,514,194 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 2,487 | sce | q9.sce | //Début Q9
T = 60
h1 = 1/10
h2 = 1/100
h3 = 1/1000
n = 21
m1 = 1
m2 = 0.5
X_0 = zeros(n,1)
function[S_M] = secondmembre(Y)
S_M = zeros(n,1)
S_M(1) = -max(Y(1) - Y(2), 0)**(1.5)
for i= 2 : (n-1)
S_M(i) = max(Y(i-1) - Y(i),0)**(1.5) - max(Y(i) - Y(i+1),0)**(1.5)
end
S_M(n) = max(Y(n-1)... |
9f48b257a9b18db9d260355bc50bab96635fdfcc | 4ba406c1422fd1f3462feb6c2f378b17ea9175c2 | /src/algorithms/dump/NPlanets.tst | acd3a992a987afbaaf8ad85c51803d439ad82181 | [] | no_license | dwjohnston/geoplanets-model | 236670178c456a0537ee31cfb3ab931ea46c7edf | 06ff2b0ec83272f56ffe02b9ee38f1e169b41a51 | refs/heads/master | 2021-07-12T23:00:17.411355 | 2018-09-02T08:08:22 | 2018-09-02T08:08:22 | 144,376,835 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 3,903 | tst | NPlanets.tst | import Planet from "../algoComponents/Planet";
import LfoPlanet from "../algoComponents/LfoPlanet";
import Linker from "../algoComponents/Linker";
import Parameter from "../Parameter";
import ParameterContainer from "../ParameterContainer";
import {ClearAll, Color, Position} from 'blacksheep-react-canvas';
import Alg... |
f2c678f0275e3ad2fd12adff0cfe36a5391ce197 | 8217f7986187902617ad1bf89cb789618a90dd0a | /browsable_source/2.1/Unix/scilab-2.1/macros/percent/%lsscp.sci | cdea2ad85aa7a2d1dba7813e5f057de7bd6f8a28 | [
"MIT",
"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 | 247 | sci | %lsscp.sci | function [s]=%lsscp(s1,d2)
//s=%lsscp(s1,d2)
// u=[u1;u2] y=y1+d2*u1
// s=[s1,d2]
//!
// origine s. steer inria 1992
//
[a1,b1,c1,d1,x1,dom1]=s1(2:7)
[n1,m1]=size(b1);[p2,m2]=size(d2);
s=list('lss',a1,[b1 0*ones(n1,m2)],c1,[d1 d2],x1,dom1)
|
a7c4a1652e503949200dc3185c7de4bbe019d656 | 8217f7986187902617ad1bf89cb789618a90dd0a | /source/2.2/macros/tdcs/comric.sci | b7dbeda7bd9a42ce9b733825ceb275637e5bdcd4 | [
"MIT",
"LicenseRef-scancode-warranty-disclaimer",
"LicenseRef-scancode-public-domain"
] | 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 | 371 | sci | comric.sci | function []=comric(q1,q2,r)
//[]=comric(q1,q2,r)
// pi est la solution de l'equation de riccati stationnaire
// f'*pi+pi*f+ q*eye(2)-pi*g*(1/r)*g'*pi=0
// pour calculer le gain r^-1*g'*pi de la commande.
// ici, q et r sont des matrices de ponderation d'une fonction
// cout quadratique.
//!
[pi]=ricc(f,(1/r)*g*g',[q1,0... |
589952d4c12dfa1e8a6ce411ca3bb52926d22484 | 089894a36ef33cb3d0f697541716c9b6cd8dcc43 | /NLP_Project/test/blog/ngram/5.6_13.tst | 29d02138010677490dbf4216ac39e23de35c3a51 | [] | 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 | 723,645 | tst | 5.6_13.tst | 6 212:1 851:1 876:2 893:1 976:1 1233:1 1461:1 1525:1 1527:1 1631:1 1712:1 1950:1 2168:1 2194:1 2202:1 2218:1 2221:1 2534:1 2592:1 2595:1 2605:1 2763:1 2797:1 3269:1 3313:1 3366:1 3568:2 3622:2 3656:1 3751:1 3778:1 3817:1 3983:1 4102:1 4105:1 4138:1 4346:1 4778:1 5178:1 5327:1 5407:1 5471:1 5487:1 5608:1 5696:1 5834:1 5... |
ba33d496d0577e884f077458e2ab13cc499ef4e7 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1085/CH2/EX2.13/ex2_13.sce | 06d35c8f32ca9a821c2943b2e5262fcda5d6bc14 | [] | 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 | ex2_13.sce | //Exam:2.13
clc;
clear;
close;
At_w=63.54;//atomic weight of copper
N=6.023*10^23;//avogadro's number
W_a=At_w/N;//weight of one atom(in gm)
W_p=W_a/63;//weight of one proton(in gm)
disp(W_a,'weight of one atom(in gm)=');
disp(W_p,'weight of one proton(in gm)='); |
7ce36641094fbb45fdff7349e506e4ea9c45e038 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1931/CH9/EX9.2/2.sce | d9fdc03a0deb51ace6668759cd8ccc61ba3e4a60 | [] | 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 | 277 | sce | 2.sce | clc
clear
//INPUT DATA
X=0.01*1.6*10^-19//difference between energy and fermi energy in J
T=200//temperature in k
KB=1.38*10^-23//Boltzmann's Constant in J/K
//CALCULATION
f=1/(1+exp(X/(KB*T)))//The fermi function
//OUTPUT
printf('The fermi function is %3.5f',f)
|
4f74f3bc86c4fc1f84c14f338b1e4256f8021aee | 449d555969bfd7befe906877abab098c6e63a0e8 | /2345/CH2/EX2.16/Ex2_16.sce | b0a5b54842a1fcad736890c482d842bc5ac2779e | [] | no_license | FOSSEE/Scilab-TBC-Uploads | 948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1 | 7bc77cb1ed33745c720952c92b3b2747c5cbf2df | refs/heads/master | 2020-04-09T02:43:26.499817 | 2018-02-03T05:31:52 | 2018-02-03T05:31:52 | 37,975,407 | 3 | 12 | null | null | null | null | UTF-8 | Scilab | false | false | 368 | sce | Ex2_16.sce | //Finding resistance
//Example 2.16(pg. 28)
clc
clear
a=15//cross section area in cm^2
l=100000//length in cm
p0=7.6*(10^-6)//specific resistance at 0 degree C in ohm-cm
k0=0.005//temp coefficient at 0 degree C
t=50//temp in degree C
p50=p0*[1+(t*k0)]//resistivity at 50 degree C
R50=p50*(l/a)
printf('Thus re... |
4e43e179a7a30db2e6cdd25bb879bb040e6f8ce0 | 203811c2233e8539e9c88a0c988b651914c07c97 | /130040019_assignment1/130040019/code/q3.sce | 419763f7f7b8c13f8ab9909ef88b9a3afdce7eec | [] | no_license | kalpeshpatil/SpeechProcessingAssignments | eeef26f925e137f045cfef996b1bcf59a1be3902 | f80137d2c55a249244a79b5aed13b9ddeb20a80b | refs/heads/master | 2021-01-10T23:31:37.828701 | 2017-03-09T08:58:18 | 2017-03-09T08:58:18 | 70,431,248 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 2,396 | sce | q3.sce | clear all
//Function to calculate filter response using difference equation
function [y]= time_response (x,num,den,n_samples)
y = zeros(n_samples,1)
//numerator is constant (all pole filter)
y(1) = num(1)*x(1)
//response by taking coefficients for denominator
for ii =2:n_samples
... |
83478562e2eb27207e559bc3beacaaec1890d153 | 01697f0dc71290a6b6e233849a73d19a883845f1 | /sem01/lab03/q05.sce | 9ed2c18d87969c0f04dbd88d05d122a16b8a3638 | [] | 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 | 129 | sce | q05.sce | //trace catenary
clc;
clear;
x=[-2:0.01:2];
a=3;
y=a*cosh(x/a);
plot2d(x,y);
xlabel("X-Axis")
ylabel("Y-Axis")
title("Catenary")
|
e66f1fd93eb76532334e6f2ab09e13116b7c295f | 449d555969bfd7befe906877abab098c6e63a0e8 | /1367/CH16/EX16.4/16_4.sce | 6688971c0d588a4526c4032d24b7816224fa4dee | [] | 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 | 498 | sce | 16_4.sce | //Find electron and current density
//Ex:16.4
clc;
clear;
close;
p=11.4*10^3;//in kg/m^3
aw=207.2;//in kg/kg-mol
v=1200;//in m/s
na=60.23*10^26;//avagadro's no
e=1.6*10^-19;//charge in C
m=9.1*10^-31;//mass of electron in kg
mo=4*3.14*10^-7;//in H/m
ne=2*p*na/aw;//in per m^3
disp(ne,"Electron density (in p... |
0b13ec9ba0dd9ee8fb27fa7f1a56be9bfcbccea9 | 449d555969bfd7befe906877abab098c6e63a0e8 | /3802/CH3/EX3.17/Ex3_17.sce | 0503c4695b67427a6323fe440fc07a35d541b324 | [] | 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 | 539 | sce | Ex3_17.sce | //Book Name:Fundamentals of Electrical Engineering
//Author:Rajendra Prasad
//Publisher: PHI Learning Private Limited
//Edition:Third ,2014
//Ex3_17.sce
clc;
clear;
//Below values are taken from the given circuit (fig.3.29)
Z1=complex(5,-5);
Z2=complex(5,-5);
Z3=complex(10,10);
V=complex(100,0);
I=V/(... |
96381f8c96595fd7d3db7e2e8c903854f4afbee0 | e8dbcf469ba8a31d6926ba791ebc5dcccd50282b | /Scripts/DML/Consultas/Test/get_interest.tst | 03e3189f89290a00a607dd424a82e1fd2bf77eb3 | [] | no_license | bryanjimenezchacon/bryanjimenezchacon.github.io | 5f2a0f1dbfbc584a65dece48f98b1c13d755512f | 7062d1860934808265c05491007c83f69da1112a | refs/heads/master | 2021-01-23T17:20:11.542585 | 2015-10-10T05:52:52 | 2015-10-10T05:52:52 | 41,244,377 | 2 | 0 | null | 2015-08-26T15:46:04 | 2015-08-23T09:52:06 | JavaScript | UTF-8 | Scilab | false | false | 170 | tst | get_interest.tst | PL/SQL Developer Test script 3.0
4
begin
-- Call the function
:result := get_interes(pinteres_id => :pinteres_id);
end;
2
result
1
Manualidades
5
pinteres_id
1
1
4
0
|
b9abf09127c2b1ca4adc698a12306eb1cf783df4 | b67defe3c1cae63dd1a79578f840d069568034e6 | /scilab/main_mul2.sci | cab978e06e03c67cab9091abc647343c456f601e | [] | no_license | wmacevoy/luck | bf5d93ce00e8136634d715057a97706d3aa804b3 | 47e5c8eb1782a1b4f3f5b9e7583290d9a842532e | refs/heads/master | 2023-05-03T14:46:51.353817 | 2023-04-25T03:13:44 | 2023-04-25T03:13:44 | 33,452,250 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 608 | sci | main_mul2.sci | clear();
exec("mulsamp.sci",2);
exec("mulprobln.sci",2);
exec("mulluck.sci",2);
exec("numlucksetup.sci",2);
exec("numluck.sci",2);
// get sample set
nsamps=10000;
ntrials=100;
p=[0.1;0.2;0.3;0.4];
x=mulsamp(nsamps,ntrials,p);
problns=mulprobln(x,p);
// setup for luck estimates
setup=numlucksetup(problns);
// estima... |
a9257a65ff1914d625a2bb00efe193900946da86 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1319/CH12/EX12.16/i_16.sce | 8afc3ba3cf7d127f85dff3de72944c84aec75b62 | [] | 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 | 586 | sce | i_16.sce | // To determine current through each resistor in series and parallel combinational circuit
clc;
clear;
R=10;
R1=20;
R2=30;
// R is the resistance in series with the parallel combination of R1 and R2.
V=100;
Reff=(R1*R2)/(R1+R2);
Rt=R+Reff;
I=V/Rt;
V1=I*R; // Voltage drop across 10 ohm resisto... |
ae0795e2f2e310c7f4e424a8bd6fad2d44dd9e16 | 573df9bfca39973c9bf2fa36f6e5af2643d7771e | /scilab/exercícios/tp1_ex1.sce | fe6590adb1937330c028d9944f42721237649351 | [] | no_license | DCC-CN/152cn | ef92c691edabe211b1a552dbb963f9fd9ceec94a | 4fe0b02f961f37935a1335b5eac22d81400fa609 | refs/heads/master | 2016-08-13T01:34:17.966430 | 2015-04-07T07:31:58 | 2015-04-07T07:31:58 | 44,502,526 | 1 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 499 | sce | tp1_ex1.sce | mode(5)
clear
clc
deff("y = f(x)", "y = 4*x^3 + 3*x^2 + x + 1")
deff("y = F(x)", "y = x^4 + x^3 + (x^2)/2 + x")
a = 0
b = 4
exato = F(b) - F(a)
p = 5
m = p - 1
dx = (b - a)/m
x = a:dx:b
y = feval(x, f);
i = dx*((y(1)+y($))/2 + sum(y(2:$-1)))
erro = abs(exato - i)
// Verificação da igualdade com o inttrap
i2 = inttrap... |
69e7ee7f755b6405958ec7ecc4982fe1198cfd1c | a62e0da056102916ac0fe63d8475e3c4114f86b1 | /set6/s_Electrical_Power_Systems_C._L._Wadhwa_1055.zip/Electrical_Power_Systems_C._L._Wadhwa_1055/CH6/EX6.4/ch6_4.sce | 683237340c308f7e7ee592b5b3ad45f63180517c | [] | 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 | 192 | sce | ch6_4.sce | errcatch(-1,"stop");mode(2);//To determine the voltage for which corona will commence on the line
;
r=.5;
V=21*r*log(100/.5);
mprintf("critical disruptive voltage=%.1f kV",V);
exit();
|
282607414d289ccd10587b66567e35562c8f63fc | 449d555969bfd7befe906877abab098c6e63a0e8 | /2159/CH11/EX11.3/113.sce | d929a2e07ccb910bb49b0957772a27bb822b4c54 | [] | 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 | 197 | sce | 113.sce | // problem 11.3
H=340
P=4410*1000
N=500/60
Cv=0.97
no=0.86
w=9810
g=9.81
Q=P/(w*H*no)
V1=Cv*(sqrt(2*g*H))
u=0.45*V1
D=u/(3.142*N)
a=Q/V1
disp(a,D,"mean diameter in m,jet area in m2")
|
4c0e64cb2b9fe173fd22f8e383cd4959114f5db0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /632/CH4/EX4.13/example4_13.sce | 6275cfd3a9b0ef8caecaf355d217dbf07f00f693 | [] | 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 | 1,246 | sce | example4_13.sce | //clc()
//4HCl + O2 = 2Cl2 + 2H2O
n = 1;//mol ( Basis 1 mol of HCl )
NO2 = n / 4;
NO2supp = 1.5 * NO2;
Nair = NO2supp * 100 / 21;
V = 100;//m^3
Vair = V * Nair / n;
disp("m^3",Vair,"(a)Volume of air admitted = ")
P1 = 80;//% ( HCl converted)
Ncon = n * P1 /100;
N2 = Ncon/4;// oxygen required
NH2O = Ncon / 2... |
05252c070f5c9b4b3ac1b4905533196062d41a70 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1962/CH1/EX1.10/example1_10.sce | ca8985701f9e66c6d5149e48be5e26fa5ba0c64e | [] | 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 | 189 | sce | example1_10.sce |
//example 1.10
//page 29
clc; funcprot(0);
//initialisation of variable
d=0.01;//diameter
sigma=0.073;//from table
delP=4*sigma/d;
disp(delP,"excess pressure in (N/m^2)");
clear
|
c50cd676cfe36527c649137a976a48478f53e90f | 449d555969bfd7befe906877abab098c6e63a0e8 | /623/CH20/EX4.3.12/U4_C3_12.sce | 175b7fc7e296f63d451be8b3bf89f4f085cb5530 | [] | 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 | 432 | sce | U4_C3_12.sce | //variable initialization
E1=14904 //mean position of the level (cm-1)
E2=28583 //convergence limit of sharp series (cm-1)
//calculation
I=(E1+E2)/8065; ... |
bd8702f1a3a1a5c3d2ba55224706a366e5b63b04 | 449d555969bfd7befe906877abab098c6e63a0e8 | /839/CH2/EX2.1/Example_2_1.sce | 8df33f66c7e619e6e788b12f651abd250b726d4d | [] | 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 | 307 | sce | Example_2_1.sce | //clear//
clear;
clc;
//Example 2.1
rho_A = 13590;
rho_B = 1260;
Pa = 14000;
gc = 1;//[ft-lb/lbf-s^2]
//Using Eq.(2.5); Zb = 250 mmHg
Pb = -(250/1000)*(9.80665/1)*13590;
//Using Eq.(2.10)
Rm = (14000+33318)/(9.80665*(13590-1260))
disp('mm',Rm,'The reading in the mamometer is (Rm) =')
|
e581c781fedcd7ef1332bb4a101f0b8e2bb9436e | 449d555969bfd7befe906877abab098c6e63a0e8 | /1802/CH2/EX2.12/Exa2_12.sce | 079a148226b8203875a3ea9bfbc897e3b7797874 | [] | 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 | 973 | sce | Exa2_12.sce | //Exa 2.12
clc;
clear;
close;
//Given Data :
format('v',8);
//Vcon=V;//in volt
//pf=cosfi;//unitless
//Rcon=R;//in ohm
//Part (i) : single phase system
disp("Single phase system :");
P1=5*10^6;//in watt
//I1=P1/(V*cosfi);//in Ampere
disp("Line current,I1="+string(P1)+"/V*cosfi");
//W1=2*I1^2*R;//in Wats(L... |
134e9574c8cdaec198812535b6cc227497d28592 | b8b6499ad21575c5c7c4491b773bdc5d001c839e | /TP1/exo5.sce | f8022cdc64731a15017193b0cc659684fcd851e5 | [] | no_license | m4ssi/Calcul_Numerique | c15a99e536ba37314dd9a22650edcdfbc63e9a2b | e5ed9bcd2338d66ade355e2b4f88276b842e7ccc | refs/heads/master | 2023-01-20T00:56:18.263021 | 2020-12-03T01:52:33 | 2020-12-03T01:52:33 | 318,042,789 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 913 | sce | exo5.sce | // Calcul de Ax = b
// Calcul de b a partir d'un vecteur x exact (xex)
// Calcul d'un vecteur x à partir de b et de A
// Calcul des erreurs avant et arières lié au x calculé et au b calculé
// \param n taille de la matrice
// \param f format d'afichage des nombres (1 ou 0)
function test_gausskij3b ()
rand ( "see... |
819f100d3c1904514a15aab0d77aa75c253073e0 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1592/CH2/EX2.16/Example_2_16.sce | c57c1b999a825d2c884f570988052b95ee7ae23d | [] | 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 | 204 | sce | Example_2_16.sce | //Scilab Code for Example 2.16 of Signals and systems by
//P.Ramakrishna Rao
clear;
clc;
syms t y;
s=%s;
y=laplace(2*exp(-2*t)+3*exp(-3*t),t,s);
disp(y,"X(s)=");
y=(2/(s+2))+(3/(s+3));
plzr(y);
|
1d3ea8f8514db312a0c4b44d77b63537283703b1 | 8217f7986187902617ad1bf89cb789618a90dd0a | /source/2.5/macros/mtlb/mtlb_ones.sci | 1eea60c2164fc3508680496c7a527954f29ef5db | [
"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 | 109 | sci | mtlb_ones.sci | function r=mtlb_ones(a)
// Copyright INRIA
if size(a)==[1 1] then
r=ones(a,a)
else
r=ones(a(1),a(2))
end
|
cd6533b05ee98118a7ebf1ba76c6914aff553c3a | 449d555969bfd7befe906877abab098c6e63a0e8 | /2660/CH5/EX5.25/Ex5_25.sce | d29c90d351ab271ed8f141b97634e90c29e62dda | [] | 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 | 613 | sce | Ex5_25.sce | clc
C = 1000 // cost of fixture
Co = 700 // cost of old fixture
Cs = 250 // scrap value
a = 10 //saving per piece in paisa
a = a/100
b = 30 // overhead applied on direct labour saved
b = b/100
I = 8 // interest rate
I = I/100
M = 3 // allowance for maintenance
M = M/100
T = 12 // allowance for tax
T = T/10... |
e11532609d02f559ba81344af4f1e861a1b25b04 | 449d555969bfd7befe906877abab098c6e63a0e8 | /1892/CH1/EX1.4/Example1_4.sce | 512815d02f146ee91f70e969a8433a0e18c5a0c7 | [] | 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 | 643 | sce | Example1_4.sce | // Example 1.4
clear; clc; close;
format('v',6);
// Given data
P=4;//No. of poles
f=50;//in Hz
K=1/2;//rotor to stator turns
N=1455;//in rpm
E1_line=415;//in volt
//Calculations
Ns=120*f/P;//in rpm
S=(Ns-N)/Ns;//Slip
fr=S*f;//induced emf frequency in Hz
disp(fr,"(i) Frequency of rotor emf in runnin... |
34aeb200481424a859bc54eacc0fd91b4ee954b0 | b4bbf9b2a475b5cf299b30bf5e0c621e32f6c832 | /test/solver/tie2.tst | 2f5a8514ff2cecad0c6f271d7aabac780e0eea3a | [] | no_license | apetresc/castro | 1ec1ac1307542487aa1be14c335170f7a1347bf2 | 843165af7c946188a2dd772384cd2d579723c99d | refs/heads/master | 2022-02-20T14:28:41.962893 | 2019-10-07T08:41:59 | 2019-10-07T08:41:59 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 215 | tst | tie2.tst | hguicoords
boardsize 5
playgame h6 i9 e9 a5 a1 e1 g7 h5 f3 g5 i6 i5 e4 e5 g8 f5 b5 d4 d8 d3 e2 f9 b3 b4 a4 c1 d1 a3 c4 c5 d5 d6 e6 a2 b2 e7 c7 b1 d2 c2 e8 f8 h7 g4 i8 h8 f2 g9 e3 h9 f6 g3 c6 h4 d7 f4 b6 i7 g6 c3 f7
|
0f30ae05b8a4009840c3cf8831e88c2d6e3300d0 | abdfb2db73e5240261372a514baa0c1a7bed7467 | /cudd-3.0.0/nanotrav/s641.tst | 66af3935b5c38789cea2b102422bd581bddcea36 | [] | no_license | steefbrown/ece6740 | 21001ca156e24e23b71d6b719f11010ba4ce2a40 | cefe8dd498c7849546ece98fbd4d70b844f2bd5c | refs/heads/master | 2021-01-01T05:23:01.008122 | 2016-05-09T19:16:56 | 2016-05-09T19:16:56 | 57,227,414 | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 5,084 | tst | s641.tst | # Nanotrav Version #0.12, Release date 2003/12/31
# nanotrav/nanotrav -p 1 -trav -autodyn -automethod group -drop -clauses -density -decomp -zdd ./nanotrav/s641.blif
# CUDD Version 3.0.0
**************READING IN NETWORK***************
Number of inputs: 1
**************GENERATING NETWORK BDD***************
Prin... |
d4a11fd60fe409721490bbf6d738020ad394b47e | 18bf68cdf766092ccdcba8d231e8140063833a5a | /Upsampling.sce | c0eaa1a475336edeb224efd75b71899dc35c1147 | [] | no_license | goodengineer/Scilab-Exercises | b51cc9a4c938f0289a32875d2d21eb9061d0e68e | 3c268211fe48e7e4d0002e44757ea8b50cda10f9 | refs/heads/master | 2022-12-24T23:30:12.875423 | 2020-10-05T06:27:20 | 2020-10-05T06:27:20 | null | 0 | 0 | null | null | null | null | UTF-8 | Scilab | false | false | 607 | sce | Upsampling.sce | // Namit Shah , AU1841067
// Programming Assignment
// Signals & Systems , Semester 3
// Question 3 --> Up Sampling
clear;
clc;
function y = upSampling(x,L)
y = [];
len = length(x);
for i = 1:L.*len
if modulo(i-1,L)==0
y($+1) = x(((i-1)./L)+1);
else
y($+1) = 0;
... |
95dbed74dd4f7cfd24a7763b0a2fbdf0cf22c018 | 8217f7986187902617ad1bf89cb789618a90dd0a | /source/2.2/macros/percent/%pilss.sci | 0e9632c8cad1823f909b4d15ec6b3f82c52ee944 | [
"MIT",
"LicenseRef-scancode-warranty-disclaimer",
"LicenseRef-scancode-public-domain"
] | 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 | 612 | sci | %pilss.sci | function s2=%pilss(i,j,s1,s2)
//%pilss(i,j,s1,s2) calcule l'insertion d'un transfert polynomial
// dans un systeme dynamique decrit par une representation d'etat
//Cette macro correspond a l'operation s2(i,j)=s1
//!
// origine s. steer inria 1992
//
if type(i)==10 then // sl('D')
[lhs,rhs]=argn(0)
if rhs<>3 then... |
69852a2d5f5840db63a3b06a785800c6ed862b3d | 449d555969bfd7befe906877abab098c6e63a0e8 | /1061/CH2/EX2.13/Ex2_13.sce | a9b128a86aba5d9d3b47988ae3117f4507028adc | [] | 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 | 273 | sce | Ex2_13.sce | //Ex:2.13
clc;
clear;
close;
n_m=0.204;// numerical aperture
dl=0.01;// index difference
n1=n_m/(sqrt(2*dl));// core refractive index
n2=n1*(1-dl);// cladding refractive index
printf("core refractive index = %f",n1);
printf("\n cladding refractive index = %f",n2); |
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