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// Chapter 9 // determine Output frequency // Page.No-336 // Example9_10 //Figure 9.40 // Given clear;clc; R=10000; //in Ohm printf("\n Value of Assumed resistance is = %.0f Ohm\n",R); // Result Tout=100*10^-6; C=Tout/(1.1*R); printf("\n Value of Capacitance is = %.11f F\n",C); // Result printf("\n The nearst value would be 10nF");
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//Chapter 4, Problem 3 clc; emf=25; //e.m.f V=24; //Voltage I=10; //Current in ampere r=(emf-V)/I; //Calculating internal resistance in ohm printf("Internal resistance of the battery = %f ohm",r);
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//Calculate the molar mass of Catalase //Eaxmple 22.1 clc; clear; R=8.314; //Gas constant in J K^-1 mol^-1 T=20+273; //Temperature in K D=4.1*10^-11; //Diffusion coefcient of Catalase (horse liver) in m^2 s^-1 rho=0.998; //Density of water in g ml^-1 s=11.3*10^-13; //Sedimentation coeffcient in s vbar=0.715; //Partial specific volume in ml g^-1 mew=(s*R*T*1000)/((D)*(1-(vbar*rho))); //Molar mass of Catalase in g mol^-1 (1 J=1 kg m^2 s^-2)(The answer vary due to round off error ) printf("Molar mass of Catalase = %.2f*10^5 g mol^-1",mew*10^-5);
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/929/CH9/EX9.4/Example9_4.sce
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Example9_4.sce
//Example 9.4 clear; clc; VCC=5 VCCmax=VCC+((5/100)*VCC); VCCmin=VCC-((5/100)*VCC); IB=1*10^(-3); Vled=1.5; Iled=10*10^(-3); vN=2.5;//For Bottom Comparator vP=2.5;//For Top Comparator R1=10*10^3; Rsum=R1/(vN/VCCmax); R2=((vP/VCCmin)*(Rsum))-R1; R3=Rsum-R1-R2; VBE=0.7; R4=(VCC-VBE)/IB; R5=(VCC-vN)/IB; R6=(VCC-Vled)/Iled; printf("Designed Video Detector :"); printf("\nR1=%.2f kohms",R1*10^(-3)); printf("\nR2=%.2f kohms",R2*10^(-3)); printf("\nR3=%.f kohms",R3*10^(-3)); printf("\nR4=%.2f kohms",R4*10^(-3)); printf("\nR5=%.2f kohms",(R5*10^(-3))+0.2); printf("\nR6=%.2f ohms",R6-20);
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resolucao_jacobi_gauss_Q3.sce
//rode o código jacobi.sce ou gauss_seidel antes //essa aqui é a Q3 do questionário A = [ 6 1 ; -1 4 ] b = [ 1 ; 2] x1 = [2 ; 0] [x,dx] = jacobi(A,b,x1,10^(-3),4)
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ex6.sce
//NAME:shubham sharma //ROLL NO.:18i190002 //Msc Phd OR // part (i) inputting rho mu1 mu2 sig1 sig2 clear,clc clf rho = input('Enter the value of rho : ') mu1 = input('Enter the value of mu1 : ') mu2 = input('Enter the value of mu2 : ') sig1=input('Enter the value of sig1 : ') sig2=input('Enter the value of sig2 : ') s=linspace(0,1,100); // As both the RV are independent , value of corellation corelation coefficient is zero and thus we can easily find the value of sig3 mu3=s*mu1 + (1-s)*mu2; // Let sig3 be the variance of Z: sig3=((s.^2) * sig1) + (((1-s).^2)*sig2); plot(mu3,sig3,'blue',xlabel('mean-mu3'),ylabel('Variance-sig3'),xtitle('graph b/w mu3 and sig3'))
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clc clear //Page number 502 //Input data x1=20;//The initial thickness of the layer in cm x2=30;//The final thickness of the layer in cm t1=-15;//The temperature of the surroundings in degree centigrade L=80;//The latent heat of ice in cal/gram d=0.9;//The given density of ice in g/cm^3 K=0.005;//The coefficient of thermal conductivity in C.G.S units //Calculations t=((d*L)/(2*K*t1))*(x1^2-x2^2);//The time taken in sec //Output printf('The time taken for a layer of ice to increase the thickness is %3.2g sec ',t)
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\begin{document} \pagenumbering{arabic} \arabic{5} \renewcommand{\baselinestretch}{2} A Basic file that checks to see if the centering command works correctly. Note that the double backslash should indicate what should be centered and how it is centered. \begin{center} Single is for Single spacing\\ Verbatim allows text produced as is\\ Itemize uses ticks to indicate items\\ Center allows a block to be centered\\ \end{center} \end{document}
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S_3_4.sce
clc; // Given data // M_A=r_CA * F relation 3.7 from section 3.5 f=200; // N , Magnitude of Force directed along CD r_CA=[0.3,0, 0.08];//m, vector AC reprecsented in rectangular component //lambda=CD/norm(CD)-m, Unit vector along CD //F=f*lambda;//m, Force CD=[-0.3, 0.24, -0.32];//Vector CD resolved into rectangular component // norm(CD); m, magnitude of vector CD lambda=CD/norm(CD);//m, Unit vector along CD F=f*lambda;//m, Force // M_A=r_CA * F relation 3.7 from section 3.5 //i=1; j=1; k=1; Unit vectors along X, Y and Z direction respectively // Componenets of moment M_A along X,Y and Z direction respectively M_Ax=det([r_CA(2),r_CA(3); F(2), F(3)]);//N.m M_Ay=-det([r_CA(1),r_CA(3) ; F(1),F(3)]);//N.m M_Az=det([r_CA(1),r_CA(2) ;F(1), F(2)]);// N.m printf("Answer can be written as M_B = %.2f N.m i + %.2f N.m j + %.2f N.m k \n",M_Ax,M_Ay,M_Az);
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Chapter1_ex5.sce
clc clear m=100//Mass of block in kg F=500//Force in N q=30//Angle made with the horizontal in degrees u=0.4//Coefficient of sliding friction //Calculations R=m*9.8//Reaction force in N f=(u*R)//Frictional force in N a=(F*cosd(q)-f)/m//Acceleration of the block in m/s^2 //Output printf('The acceleration of the block is %3.2f m/s^2',a)
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// Scilab code Ex14.6: Pg 519 (2005) clc; clear; // Part (a) e = 1.6e-19; // Charge on electron, C k = 8.99e-09; // Coulomb constant, N-m^2/C^2 r = 1.0e-14; // Distance between two duetrons, m // We have U = (k*q1*q2)/r, for duetrons q1 = q2 = e, therefore we get U = (k*e^2)/r; // Potential energy of duetrons, J E_C = 1.1e-014; // The coulomb energy per deutron, J k_B = 1.38e-023; // Boltzmann constant, J/mol/K T = 2/3*E_C/k_B; // Effective temperature required for deutron to overcome the potential barrier, K printf("\nThe potential energy of two duetrons separated by the distance of %1.0de-14 m = %4.2f MeV", r*1e+14, (U*1e+12)/e); printf("\nThe effective temperature required for deutron to overcome the potential barrier = %3.1e K", T); // Result // The potential energy of two duetrons separated by the distance of 1e-14 m = 0.14 MeV // The effective temperature required for deutron to overcome the potential barrier = 5.3e+008 K // Result // The potential energy of two duetrons separated by the distance of 1e-14 m = 0.14 MeV
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Example6_30.sce
//Example 6.30. Refer fig. 6.27. clc format(5) VCC=16 RC=3*10^3 RE=2*10^3 R1=56*10^3 R2=20*10^3 alpha=0.985 VBE=0.3 disp("For a germanium transistor, VBE=0.3V. As alpha=0.985") beta=alpha/(1-alpha) beta1=round(beta) disp(beta1,"beta = alpha / ( 1 - alpha) = ") disp("(a) To find the coordinates of the operating point") disp("Referring to fig. 6.29,") VT=(R2/(R1+R2))*VCC disp(VT,"Thevenin voltage, VT(V) = (R2 / (R1+R2)) * VCC = ") format(7) RB=(R1*R2)/(R1+R2) RB1=RB*10^-3 disp(RB1,"Thevenin resistance, RB(k-ohm) = (R1 * R2) / (R1 + R2) =") disp("The loop equation around the base circuit is,") disp("VT = ( IB * RB) + VBE + ((IB + IC)*RE)") disp("VT = ((IC / beta) * RB) + VBE + (((IC / beta) + IC)*RE)") format(5) IC=(VT-VBE)/((RB/beta)+(RE/beta)+RE) IC1=IC*10^3 disp(IC1,"Therefore, IC(mA) = ") disp("Since IB is very small, IC ~ IE = 1.73 mA") IE=IC VCE=VCC-(IC*RC)-(IE*RE) disp(VCE,"Therefore, VCE(V) = VCC - (IC*RC) - (IE*RE) = ") disp("Therefore, the coordinates of the operating point are :") disp(IC1,"IC(mA) = ") disp(VCE,"VCE(V) = ") disp("(b) To find the stability factor S") disp("S = (1+beta)*((1+(RB/RE))/(1+beta+(RB/RE)))") format(6) S = (1+beta)*((1+(RB/RE))/(1+beta+(RB/RE))) disp(S,"S = ")
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1+%inf -2*%inf 1/%inf %inf+%inf %inf*%inf ieee(2) // ieee exception mode 1/0 // returns infinity
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//system// s=%s; sys=syslin('c',(30)/((s^2+2*s+2)*(s+3))) nyquist(sys) gm=g_margin(sys) show_margins(sys,'nyquist') printf("Since P=0(no of poles in RHP)=Poles of G(s)H(s) \n Here the number of zeros of 1+G(s)H(s) in the RHP is zero \n Hence the system is stable") if (gm<=0) printf("system is unstable") else printf("system is stable") end
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@relation led7digit @attribute Led1 real[0.0,1.0] @attribute Led2 real[0.0,1.0] @attribute Led3 real[0.0,1.0] @attribute Led4 real[0.0,1.0] @attribute Led5 real[0.0,1.0] @attribute Led6 real[0.0,1.0] @attribute Led7 real[0.0,1.0] @attribute number{0,1,2,3,4,5,6,7,8,9} @inputs Led1,Led2,Led3,Led4,Led5,Led6,Led7 @outputs number @data 0 0 5 1 5 1 6 1 7 1 5 1 7 1 7 1 8 1 0 0 0 0 3 1 3 1 5 1 5 1 6 1 7 1 0 0 1 1 3 1 4 1 4 1 8 1 8 1 2 1 2 1 4 1 7 1 8 1 9 1 9 1 1 1 3 1 3 1 4 1 9 1 1 0 4 1 6 1 9 1 0 0 3 1 4 1 6 1 6 0 8 1 2 1 3 1 3 1 9 1
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inst_10_6_50_1.sce
clf(); ax=gca(); ax.data_bounds=[0,0;50, 6]; //set the data_bounds ax.box='on'; //desenha uma caixa a = 5 * ones(11,11); a(2:10,2:10)=34; a(6.5:7,6.5:7)=5; b = 1 * ones(11,11); b(2:10,2:10)=1; b(6.5:7,6.5:7)=1; L = list(); //Porto 1 S = [0 0 0 0 0 0 0 0 0 0 0 0 0 4 100 2 4 100 4 100 100 4 100 4 4 3 2 100 100 100 3 100 100 100 4 2 2 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 100 2 100 100 2 4 100 100 4 100 4 2 2 100 100 3 3 3 100 100 100 3 2 100 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 2 100 100 2 100 2 100 2 2 100 100 2 2 100 100 100 100 3 3 100 2 2 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 2 2 2 100 2 2 2 100 2 100 100 100 2 100 100 100 2 3 100 100 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 100 100 2 2 2 2 2 2 2 100 100 2 2 2 100 100 100 100 100 100 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 100 100 100 100 2 2 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0;]; L(1) = S; //Porto 2 S = [0 0 0 0 0 0 3 100 4 100 100 3 100 4 100 4 4 100 4 100 0 4 0 4 4 3 9 100 0 0 3 0 0 0 4 9 100 4 4 4 3 4 4 0 0 0 0 0 0 0;0 0 0 0 0 0 3 3 3 100 3 3 4 100 3 100 100 4 4 100 100 4 100 4 100 3 100 100 3 3 3 0 0 0 3 100 100 100 100 4 100 4 4 0 0 0 0 0 0 0;0 0 0 0 0 0 3 100 100 3 100 100 4 100 100 4 100 100 4 100 4 100 100 100 100 100 100 3 0 0 0 0 3 3 0 100 3 100 3 3 3 4 4 0 0 0 0 0 0 0;0 0 0 0 0 0 3 100 3 3 3 100 4 100 100 100 3 100 100 100 100 100 100 100 100 100 100 100 100 0 0 100 3 0 0 100 100 3 100 3 3 4 100 0 0 0 0 0 0 0;0 0 0 0 0 0 100 3 3 3 100 3 3 100 100 100 100 3 4 3 3 100 3 3 100 100 3 100 3 0 0 100 0 0 0 100 100 100 100 100 3 4 3 0 0 0 0 0 0 0;0 0 0 0 0 0 0 100 100 100 100 100 3 100 100 100 100 100 100 100 3 100 100 100 100 100 100 100 100 100 0 100 100 100 100 100 100 100 3 100 100 4 100 0 0 0 0 0 0 0;]; L(2) = S; //Porto 3 S = [0 0 0 0 0 0 0 100 4 100 100 4 0 4 0 4 4 0 4 100 0 4 0 4 4 100 9 0 100 100 9 0 100 100 4 9 0 4 4 4 4 4 4 0 0 0 0 0 0 0;0 0 0 0 0 0 0 100 4 100 4 4 4 0 100 0 0 4 4 100 0 4 0 4 100 5 4 0 4 4 4 0 100 100 4 100 0 100 100 4 100 4 4 0 0 0 0 0 0 0;0 0 0 0 0 0 0 100 100 4 100 100 4 0 100 4 0 0 4 4 4 0 100 100 100 100 100 4 100 100 100 0 4 4 100 100 4 100 4 4 4 4 4 0 0 0 0 0 0 0;0 0 0 0 0 0 0 100 4 4 100 100 4 100 100 0 4 100 0 100 100 0 100 100 100 100 100 100 100 100 100 0 4 100 100 4 100 100 100 4 100 4 100 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 4 4 100 4 4 4 100 0 4 100 4 100 4 0 4 4 4 100 4 100 100 100 100 100 100 100 100 4 100 100 100 100 4 4 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 100 100 100 100 100 100 100 0 100 100 100 100 4 0 100 100 100 100 100 100 4 100 100 100 100 100 100 100 100 100 100 100 100 4 0 0 0 0 0 0 0 0;]; L(3) = S; //Porto 4 S = [0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 10 100 100 10 100 100 100 100 10 10 0 9 100 100 10 9 0 0 10 100 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 8 100 10 100 100 10 100 100 100 100 5 10 5 100 100 5 10 100 0 0 10 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 100 10 10 100 100 9 9 100 100 5 5 100 100 100 100 100 100 5 0 5 100 5 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 100 100 100 100 6 100 5 100 100 5 5 100 5 100 100 0 5 100 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 0 100 5 100 100 5 100 100 100 100 5 100 100 100 5 100 100 100 0 100 5 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 0 8 100 100 100 100 100 100 100 100 100 100 5 100 100 100 100 100 100 100 5 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0;]; L(4) = S; //Porto 5 S = [0 0 6 6 100 100 100 9 100 100 100 9 100 0 0 10 0 0 10 0 0 0 100 10 10 0 9 100 0 10 9 0 100 10 100 9 6 100 10 9 100 100 100 6 8 6 100 100 0 0;0 0 6 6 6 6 100 6 100 100 100 8 100 8 0 10 0 0 10 0 0 0 100 100 10 8 0 100 100 10 0 0 100 10 100 0 100 100 6 100 9 9 100 6 6 6 100 100 0 0;0 0 6 100 100 6 7 6 100 6 8 8 100 0 10 10 0 0 9 9 0 0 6 6 0 6 100 100 100 0 100 100 6 100 6 100 100 100 100 9 100 100 6 6 100 6 6 100 0 0;0 0 100 6 6 6 100 100 100 6 100 100 100 100 0 0 0 0 0 100 6 0 6 100 0 100 6 100 6 0 100 100 6 100 100 100 100 100 100 100 6 100 100 100 100 100 100 100 0 0;0 0 100 100 6 6 100 6 6 100 100 100 100 100 0 100 100 0 100 100 0 100 100 6 0 100 100 6 6 0 100 100 100 100 100 100 6 6 100 100 100 100 100 6 6 100 100 6 0 0;0 0 6 100 6 100 100 100 100 100 100 100 100 100 8 100 100 0 100 100 100 100 100 100 0 100 100 100 100 0 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 0 0 0;]; L(5) = S; //Porto 6 S = [0 0 0 0 0 100 0 9 0 0 0 9 0 0 0 10 0 0 10 0 100 100 100 10 10 0 9 8 100 10 9 0 0 10 100 9 8 100 10 9 0 0 0 8 8 0 0 0 0 0;0 0 0 0 0 100 0 100 0 0 0 8 0 8 0 10 0 0 10 0 100 100 8 0 10 8 100 100 100 10 0 0 9 10 100 100 100 100 10 0 9 9 100 8 8 0 0 0 0 0;0 0 0 0 0 8 7 100 0 100 8 8 0 0 10 10 0 0 9 9 100 100 8 8 0 7 100 100 8 0 100 0 100 100 100 100 100 100 100 9 100 0 100 100 100 0 0 0 0 0;0 0 0 0 0 8 100 100 100 7 0 0 0 0 0 0 0 0 0 9 100 100 100 100 100 100 100 100 7 0 100 0 100 100 100 100 100 100 100 100 7 0 100 100 100 0 0 0 0 0;0 0 0 0 0 8 100 100 100 100 0 0 0 0 0 100 0 0 100 100 100 0 100 100 100 100 100 100 100 0 7 0 100 100 100 100 7 100 100 100 100 0 100 100 0 0 0 0 0 0;0 0 0 0 0 0 100 100 100 100 100 0 100 100 8 100 0 0 100 100 100 100 100 100 100 100 100 100 100 0 100 100 100 100 100 100 100 100 100 100 100 0 100 100 0 0 0 0 0 0;]; L(6) = S; //Porto 7 S = [0 0 0 0 100 0 0 9 0 0 0 9 0 0 0 10 0 0 10 0 0 0 0 10 10 0 9 8 0 10 9 0 0 10 100 9 8 100 10 9 0 0 100 8 8 8 0 0 0 0;0 0 0 0 8 0 0 0 0 0 0 8 100 8 0 10 0 0 10 0 0 0 8 0 10 8 0 0 0 10 0 0 9 10 100 100 100 100 10 0 9 9 100 8 8 100 0 0 0 0;0 0 0 0 100 8 9 0 0 0 8 8 100 0 10 10 0 0 9 9 0 9 8 8 100 8 0 0 8 0 0 100 0 0 100 100 100 100 0 9 0 100 100 100 100 8 0 0 0 0;0 0 0 0 8 8 100 0 0 9 0 100 100 100 0 0 100 0 0 9 100 100 100 0 100 8 0 0 8 0 0 100 0 0 100 100 100 100 0 0 8 100 100 100 100 8 0 0 0 0;0 0 0 0 8 8 100 100 0 100 0 100 100 100 0 100 100 0 100 0 100 100 100 100 100 8 100 100 100 0 100 100 0 100 100 100 8 100 0 0 100 100 100 100 8 100 0 0 0 0;0 0 0 0 100 100 100 100 0 100 100 100 100 100 8 100 100 0 100 0 100 100 100 100 100 100 100 100 100 0 100 100 0 100 100 100 100 100 0 0 100 100 100 100 8 100 0 0 0 0;]; L(7) = S; //Porto 8 S = [0 0 0 0 0 0 0 9 0 0 0 9 100 100 0 10 100 100 10 0 0 0 0 10 10 100 9 10 0 10 9 100 0 10 0 9 10 0 10 9 0 0 0 9 0 0 0 0 0 0;0 0 0 0 0 0 0 0 100 0 100 9 100 10 0 10 100 100 10 0 0 0 9 100 10 100 100 10 9 10 0 100 9 10 0 0 10 0 10 0 9 9 100 100 0 0 0 0 0 0;0 0 0 0 0 0 9 0 100 0 9 9 100 100 10 10 100 100 9 9 100 9 9 10 100 9 100 10 9 0 0 100 0 0 10 0 100 0 0 9 100 9 9 100 0 0 0 0 0 0;0 0 0 0 0 0 0 0 100 9 100 100 100 100 100 0 100 100 0 9 9 0 9 100 100 9 100 100 9 0 0 100 100 0 10 0 100 0 0 0 100 100 100 100 0 0 0 0 0 0;0 0 0 0 0 0 0 9 100 0 100 100 100 100 100 0 100 100 9 9 100 0 100 100 100 100 100 9 9 100 0 100 100 0 9 100 100 0 0 0 100 100 9 0 0 0 0 0 0 0;0 0 0 0 0 0 0 100 100 0 100 100 100 100 100 0 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 0 0 0 100 100 100 0 0 0 0 0 0 0;]; L(8) = S; //Porto 9 S = [0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 10 0 0 10 0 0 100 0 10 10 0 10 10 100 10 10 0 100 10 0 10 10 0 10 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 100 10 0 10 0 10 10 100 0 100 10 0 10 100 100 10 10 10 100 0 10 10 0 100 10 0 10 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 100 0 10 10 0 10 10 10 10 10 10 10 0 10 100 10 10 0 100 0 100 0 10 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 100 10 0 0 100 10 100 100 10 100 10 10 10 10 100 100 10 0 100 100 100 100 10 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 100 100 10 100 100 10 10 10 100 100 100 100 10 100 100 10 10 0 100 100 100 100 10 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0;0 0 0 0 0 0 0 0 0 0 0 0 100 10 100 10 100 100 10 100 100 100 100 10 10 100 100 100 100 0 100 10 100 100 100 100 100 0 0 0 0 0 0 0 0 0 0 0 0 0;]; L(9) = S; for k = 1:9 gcf(); for i = 5: -1:0 for j = 49:-1:0 if(L(k)(i+1,j+1) <> 0) a(6.5:7,6.5:7) = L(k)(i + 1, j + 1); Matplot1(a, [j, i, j + 1, i + 1]); else Matplot1(b, [j, i, j + 1, i + 1]); end end end sleep(2000); end clf(gcf(), 'reset')
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clc // Example 3.6.py // Consider a point in a supersonic flow where the static pressure is 0.4 atm. When // a pitot tube is inserted in the at this point, the pressure measured by the // pitot tube is 3 atm. Calculate the mach number at this point. // Variable declaration p1 = 0.4 // static pressure (in atm) po2 = 3.0 // pressure measured by the pitot tube (in atm) //Calculations // from table A2 for po2/p1 = 7.5 M1 = 2.35 // Results printf("\n Mach number is %.2f",(M1))
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//Chapter 01: The Foundations: Logic and Proofs clc; clear; x = [0 1 1 0 1 1 0 1 1 0]; y = [1 1 0 0 0 1 1 1 0 1]; bit_and=bitand(x,y) bit_or=bitor(x,y) bit_xor=bitxor(x,y) disp(bit_and,"The bitwise AND is") disp(bit_or,"The bitwise OR is") disp(bit_xor,"The bitwise XOR is")
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function [s,g] = cell2sos(c) //Converts a cell array to a second order section matrix //Calling Sequences //s=cell2sos(c) //[s,g]=cell2sos(c) //Parameters //c //A cell array //g //The scalar gain //Description //s=cell2sos(c) converts a a cell array c = { {B1},{A1}, {B2},{A2}, ... {BL},{AL}} //to an L-by-6 second-order-section matrix s given by: // s = [B1 A1 // B2 A2 // ... // BL AL] //numerator vector Bi and denominator vector Ai contains the coefficients of a //linear or quadratic polynomial. If the polynomial is linear, the coefficients //zero-padded on the right. //[s,g]=cell2sos(c) estimates the gain from the leading term of the cell array //c={ {[g1,g2]},{B1},{A1}, {B2},{A2}, ... {BL},{AL}} to give g=g1/g2 as the gain //Example //c=cell(1,5); // //c(1,1).entries=[2, 1]; // //c(1,2).entries=rand(1,3); // //c(1,3).entries=rand(1,3); // //c(1,4).entries=rand(1,3); // //c(1,5).entries=rand(1,3); // // c = // column 1 to 3 // //![2,1] [0.2113249,0.7560439,0.0002211] [0.3303271,0.6653811,0.6283918] ! // // column 4 to 5 // //![0.8497452,0.6857310,0.8782165] [0.0683740,0.5608486,0.6623569] ! //[s,g]=cell2sos(c); //s = // // column 1 to 5 // // 0.2113249 0.7560439 0.0002211 0.3303271 0.6653811 // 0.8497452 0.6857310 0.8782165 0.0683740 0.5608486 // // column 6 // // 0.6283918 // 0.6623569 // //g = // // 2. //Author //Ankur Mallick if(argn(2)~=1) then error("Wrong number of input arguments"); end L=prod(size(c)); for i=1:L if(type(c(i))~=17) error('Cell contents must themselves be cell objects'); end end if (argn(1)==2) d=c(1).entries; if(length(d)==2) g1=d(1); g2=d(2); g=g1/g2; c=c(2:L); else g=1; end end L=prod(size(c)); s=zeros(L/2,6); for i=1:2:L-1 j=ceil(i/2) b=c(i).entries; a=c(i+1).entries; b=b(:).'; a=a(:).'; b=[b,zeros(1,3-length(b))]; a=[a,zeros(1,3-length(b))]; s(j,:)=[b,a]; end endfunction
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//Chapter 27 clc //Example 5 //given V=10^5 //potential difference in Volts h=6.63*10^-34 // plancks constant in J.s c=3*10^8// velocity of light in m/s e=1.6*10^-19// elelctronic charge in coulombs L_min=(h*c)/(e*V) disp(L_min,"Minimum wavelength produced in meters is")
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//Variable declaration: X = 7.0 //Coordinate X of H2SO4 Y = 24.8 //Coordinate Y of H2SO4 S = 45 //Slope //Calculations: //From the figure C.1 we found the intersection of curves mu = 12cP mu = 12 //Results: disp("Absolute viscosity of a 98% sulfuric acid solution at 45° C is :") disp(mu*10**-2) disp(" g/cm.s")
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clear;lines(0); deff('y=FF(x)','y=a*(x-b)+c*x.*x') X=[];Y=[]; a=34;b=12;c=14;for x=0:.1:3, Y=[Y,FF(x)+100*(rand()-.5)];X=[X,x];end Z=[Y;X]; deff('e=G(p,z)','a=p(1),b=p(2),c=p(3),y=z(1),x=z(2),e=y-FF(x)') [p,err]=datafit(G,Z,[3;5;10]) xset('window',0) xbasc(); plot2d(X',Y',-1) plot2d(X',FF(X)',5,'002') a=p(1),b=p(2),c=p(3);plot2d(X',FF(X)',12,'002') //same probleme with a known deff('e=G(p,z,a)','b=p(1),c=p(2),y=z(1),x=z(2),e=y-FF(x)') [p,err]=datafit(list(G,a),Z,[5;10]) a=34;b=12;c=14; deff('s=DG(p,z)','y=z(1),x=z(2),s=-[x-p(2),-p(1),x*x]') [p,err]=datafit(G,DG,Z,[3;5;10]) xset('window',1) xbasc(); plot2d(X',Y',-1) plot2d(X',FF(X)',5,'002') a=p(1),b=p(2),c=p(3);plot2d(X',FF(X)',12,'002')
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// Example 2.2 // Calculation of numerical aperature // Page no. 479 clc; clear; close; //Given data v=2.111; // Mode parameter a=4.01*10^-6; // Core radius in m lambda=1.3*10^-6; // Wavelength of laser light m //Numerical aperture computation NA=(v*lambda)/(2*%pi*a); //Displaying the result in command window printf("\n Numerical aperature = %0.2f",NA);
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mode(2);errcatch(-1,"stop");driver("GIF");//clear// //Caption:Equalizer to compensate Aperture effect //Example4.3:Equalizer to Compensate for aperture effect clc; T_Ts = 0.01:0.01:0.6; //E = 1/(sinc_new(0.5*T_Ts)); E(1) =1; for i = 2:length(T_Ts) E(i) = ((%pi/2)*T_Ts(i))/(sin((%pi/2)*T_Ts(i))); end a =gca(); a.data_bounds = [0,0.8;0.8,1.2]; plot2d(T_Ts,E,5) xlabel('Duty cycle T/Ts') ylabel('1/sinc(0.5(T/Ts))') title('Figure 4.16 Normalized equalization (to compensate for aperture effect) plotted versus T/Ts') xinit('/home/fossee/Downloads/tbc_graphs/Digital_Communication_S._Haykin_851/Example4_3');xend();exit();
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[[-1,0,2],[2,0,-1],[-6,3,0]],fraction=3,det=9 is inverse of [[1,2,0],[2,4,1],[2,1,0]],det=3,identity = false
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//developed in windows XP operating system 32bit //platform Scilab 5.4.1 clc;clear; //example 11.10w //calculation of the stretch produced in the spring //given data d=1*10^-2//stretch(in m) of the spring R=6400*10^3//radius(in m) of the earth h=800*10^3//height(in m) above the earth's surface //calculation //The extension in the spring on the surface is //1*10^-2 = (G*M*m)/(k*R^2)...........(1) //The extension in the spring at height h above the surface //x = (G*M*m)/(k*(R+h)^2).............(2) //from above equations,we get x=d*((R^2)/(R+h)^2) printf('the stretch produced in the spring is %3.2f cm',x*10^2)
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executescript(ScriptFilePath+"\_usermenu.sci","~t"+datadir+"\UserMenu_VSRUG");
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//Exa 2.34 clc; clear; close; format('v',7); //Given Data : p=6;//bar m=18;//Kg v=260;//m/s rho=4;//Kg/m^3 Q=42;//KJ/Kg W=261;//KW Cv=0.715;//KJ/KgK pA=1;//bar vA=60;//m/s mdotA=14;//Kg/s CvA=0.835;//m^3/Kg TA=115+273;//K pB=5.5;//bar vB=15;//m/s mdotB=4;//Kg/s CvB=0.46;//m^3/Kg TB=600+273;//K v1=1/rho;//m^3/Kg //m*(Cv*T+p*10^5*v1/1000+v^2/2000)+Q*rho-W=mdotA*(Cv*TA+pA*10^5*CvA/1000+vA^2/2000)+m_dotB*(Cv*TB+pB*10^5*CvB/1000+vB^2/2000); T=(((mdotA*(Cv*TA+pA*10^5*CvA/1000+vA^2/2000)+mdotB*(Cv*TB+pB*10^5*CvB/1000+vB^2/2000))+W-Q*rho)/m-v^2/2000-p*10^5*v1/1000)/Cv;//K disp(T,"Temperature of air at inlet in K : "); //Answer in the book is wrong.
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//Chapter 2: Antenna Basics //Example 2-4.1 clc; //Calculation deff('y=f(x)','y=sin(x)') //sin(theta) omega=intg(20*%pi/180,40*%pi/180,f) omega1=omega*(180/%pi) deff('y=f1(x)','y=1') omega2=intg(30,70,f1) omega_f=omega2*omega1 //omega (square degrees) //Result mprintf("The solid angle, omega is %.0f square degrees",omega_f)
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inputl=-16; spuresp=70;..//spurious response A0=-22;..//input level N=4;..//fouth order IP4=inputl+(spuresp/(N-1)); DelS=(IP4-A0)*(N-1);..//distortion product disp("dB",DelS,"Distortion Product");
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//pathname=get_absolute_file_path('12.04.sce') //filename=pathname+filesep()+'12.04-data.sci' //exec(filename) //Steam is admitted at pressure(in bar): p1=15 //Pressure at which steam exhausts(in bar): p3=0.75 //Cut-off occuring at: r1=0.25 //Power produced by the engine(in hp): P=150 //Rpm of engine: n=240 //Mechanical efficiency: nm=0.85 //Diagram factor: d1=0.7 //Brake thermal efficiency: nb=0.2 //Stroke to bore ratio: r2=1.5 //From steam tables: h15=2803.3 hf=384.39 //Expansion ratio: r=1/r1 //Hypothetical mean effective pressure(in bar): mep=p1/r*(1+log(r))-p3 //Actual mean effective pressure(in bar): mepa=mep*d1 //Indicated horse power(in kW): IP=P/nm //Diameter of bore(in m): d=((IP*4*60*0.7457)/(mepa*10^2*r2*%pi*n))^(1/3) //Stroke length(in m): L=d*r2 //Heat added per kg of steam(in kJ/kg): Q=h15-hf //Specific steam consumption(in kg/hp.hr): m=0.7457*3600/(nb*Q) printf("\n RESULT \n") printf("\nBore = %f cm",d*100) printf("\nStroke = %f cm",L*100) printf("\nSpecific steam consumption = %f kg/hp.hr",m)
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// Exa 8.2 clc; clear; // Given data // Astable multivibrator Ra=6.8*10^3; // Ω Rb=3.3*10^3; // Ω C=0.1*10^-6; // μF // Solution disp("By using Eq. (8.11) on page no. 320 we get, tHigh as"); tHigh=0.69*(Ra+Rb)*C; // Time required to charge from 1/3 Vcc to 2/3 Vcc printf(' tHIGH = %.1f mSec. \n',tHigh*1000); disp("By using Eq. (8.12) on page no. 320 we get, tLow as"); tLow=0.69*(Rb)*C; // TIme required to discharge from 2/3 Vcc to 1/3 Vcc printf(' tLOw = %.2f mSec. \n',tLow*1000); disp("By using Eq. (8.13) on page no. 320 we get, free running frequency as"); f= 1.45/((Ra+2*Rb)*C); printf(' f = %.2f kHz. \n\n',f/1000); D= Rb/(Ra+2*Rb); printf(' The duty cycle D = %.2f (%d percent).\n ' ,D,round(D*100));
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//variable initialization mu=1.62*10^-27; //Reduced mass of HCL (kg) c=3*10^8; //Velocity of light (m/s) h=6.62*10^-34; //Plank's constant (joule second) v1_P=2906.3 //Wave no. of P branch (cm-1) v2_P=2927.5 //Wave no. of P branch (cm-1) v3_P=2948.7 //Wave no. of P branch (cm-1) v4_P=2969.9 //Wave no. of P branch (cm-1) v1_R=3012.2 //Wave no. of R branch (cm-1) v2_R=3033.4 //Wave no. of R branch (cm-1) v3_R=3054.6 //Wave no. of R branch (cm-1) v4_R=3078.8 //Wave no. of R branch (cm-1) //(i) Equilibrium internuclear distance delta_v=v2_P-v1_P; //Separation of successive line of P and R branch (cm-1) B=delta_v/2; //rotational constant (cm-1) I=h/(8*%pi^2*B*10^2*c); //Moment of inertia (kg m^2) r=sqrt(I/mu)*10^10; //Equilibrium internuclear distance (Å) //(ii) Force constant v0=(v4_P+v1_R)/2; //Equlibrium frequency (cm-1) k=4*%pi^2*mu*c^2*v0^2*10^4; //Force constant of HCl (N/m) printf("\n(i) Equilibrium internuclear distance = %.2f Å\n(ii) Force constant = %.0f N/m",r,k); //Note: the answer of (ii) part is wrong in the book
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94.ted.sci
it s wonderful to be back i love this wonderful gathering and you must be wondering what on earth have they put up the wrong slide no no look at this magnificent beast and ask the question who designed it this is ted this is technology entertainment design and there s a dairy cow it s a quite wonderfully designed animal and i was thinking how do i introduce this and i thought well maybe that old doggerel by joyce kilmer you know poems are made by fools like me but only god can make a tree and you might say well god designed the cow but of course god got a lot of help this is the ancestor of cattle this is the oryx and it was designed by natural selection the process of natural selection over many millions of years and then it became domesticated thousands of years ago and human beings became its stewards and without even knowing what they were doing they gradually redesigned it and redesigned it and redesigned it and then more recently they really began to do sort of reverse engineering on this beast and figure out just what the parts were how they worked and how they might be optimized how they might be made better now why am i talking about cows because i want to say that much the same thing is true of religions religions are natural phenomena they re just as natural as cows they have evolved over millennia they have a biological base just like the oryx they have become domesticated and human beings have been redesigning their religions for thousands of years this is ted and i want to talk about design because what i ve been doing for the last four years really since the first time you saw me some of you saw me at ted when i was talking about religion and in the last four years i ve been working just about non stop on this topic and you might say it s about the reverse engineering of religions now that very idea i think strikes terror in many people or anger or anxiety of one sort or another and that is the spell that i want to break i want to say no religions are an important natural phenomenon we should study them with the same intensity that we study all the other important natural phenomena like global warming as we heard so eloquently last night from al gore today s religions are brilliantly designed brilliantly designed they re immensely powerful social institutions and many of their features can be traced back to earlier features that we can really make sense of by reverse engineering and as with the cow there s a mixture of evolutionary design designed by natural selection itself and intelligent design more or less intelligent design and redesigned by human beings who are trying to redesign their religions you do n t do book talks at ted but i m going to have just one slide about my book because there is one message in it which i think this group really needs to hear and i would be very interested to get your responses to this it s the one policy proposal that i make in the book at this time when i claim not to know enough about religion to know what other policy proposals to make and it s one that echoes remarks that you ve heard already today here s my proposal i m going to just take a couple of minutes to explain it education in world religions on world religions for all of our children in primary school in high school in public schools in private schools and in home schooling so what i m proposing is just as we require reading writing arithmetic american history so we should have a curriculum on facts about all the religions of the world about their history about their creeds about their texts their music their symbolisms their prohibitions their requirements and this should be presented factually straightforwardly with no particular spin to all of the children in the country and as long as you teach them that you can teach them anything else you like that i think is maximal tolerance for religious freedom as long as you inform your children about other religions then you may and as early as you like and whatever you like teach them whatever creed you want them to learn but also let them know about other religions now why do i say that because democracy depends on an informed citizenship informed consent is the very bedrock of our understanding of democracy misinformed consent is not worth it it s like a coin flip it does n t count really democracy depends on informed consent this is the way we treat people as responsible adults now children below the age of consent are a special case i m going to use a word that pastor rick just used parents are stewards of their children they do n t own them you ca n t own your children you have a responsibility to the world to the state to them to take care of them right you may teach them whatever creed you think is most important but i say you have a responsibility to let them be informed about all the other creeds in the world too the reason i ve taken this time is i ve been fascinated to hear some of the reactions to this one reviewer for a roman catholic newspaper called it totalitarian it strikes me as practically libertarian is it totalitarian to require reading writing and arithmetic i do n t think so all i m saying is facts facts only no values just facts about all the world s religions another reviewer called it hilarious well i m really bothered by the fact that anybody would think that was hilarious it seems to me to be such a plausible natural extension of the democratic principles we already have that i m shocked to think anybody would find that just ridiculous i know many religions are so anxious about preserving the purity of their faith among their children that they are intent on keeping their children ignorant of other faiths i do n t think that s defensible but i d really be pleased to get your answers on that any reactions to that later but now i m going to move on back to the cow this picture which i pulled off the web the fellow on the left is really an important part of this picture that s the steward cows could n t live without human stewards they re domesticated they re a sort of ectosymbiont they depend on us for their survival and pastor rick was just talking about sheep i m going to talk about sheep too there s a lot of serendipitous convergence here how clever it was of sheep to acquire shepherds think of what this got them they could outsource all their problems protection from predators food finding health maintenance the only cost in most flocks is a loss of free mating what a deal how clever of sheep you might say except of course it was n t the sheep s cleverness we all know sheep are not exactly rocket scientists they re not very smart it was n t the cleverness of the sheep at all they were clueless but it was a very clever move whose clever move was it it was a clever move of natural selection itself francis crick the co discoverer of the structure of dna with jim watson once joked about what he called orgel s second rule leslie orgel is still a molecular biologist brilliant guy and orgel s second rule is evolution is cleverer than you are now that is not intelligent design not from francis crick evolution is cleverer than you are if you understand orgel s second rule then you understand why the intelligent design movement is basically a hoax the designs discovered by the process of natural selection are brilliant unbelievably brilliant again and again biologists are fascinated with the brilliance of what s discovered but the process itself is without purpose without foresight without design when i was here four years ago i told the story about an ant climbing a blade of grass and why was the ant doing it well it s because its brain had been infected with a lancet fluke that was needed to get into the belly of a sheep or a cow in order to reproduce it was sort of a spooky story and i think some people may have misunderstood lancet flukes are n t smart i submit that the intelligence of a lancet fluke is down there somewhere between petunia and carrot they re not really bright they do n t have to be the lesson we learn from this is you do n t have to have a mind to be a beneficiary the design is there in nature but it s not in anybody s head it does n t have to be that s the way evolution works the question was domestication good for sheep it was great for their genetic fitness and here i want to remind you of a wonderful point that paul maccready made at ted three years ago here s what he said 10 000 years ago at the dawn of agriculture human population plus livestock and pets was approximately a tenth of one per cent of the terrestrial vertebrae landmass that was just 10 000 years ago yesterday in biological terms what is it today does anybody remember what he told us 98 percent that is what we have done on this planet now i talked to paul afterwards i wanted to check to find out how he d calculated this and get the sources and so forth and he gave me a paper that he had written on this there was a passage in it which he did not present here and i think it is so good i m going to read it to you over billions of years on a unique sphere chance has painted a thin covering of life complex improbable wonderful and fragile suddenly we humans a recently arrived species no longer subject to the checks and balances inherent in nature have grown in population technology and intelligence to a position of terrible power we now wield the paintbrush we heard about the atmosphere as a thin layer of varnish life itself is just a thin coat of paint on this planet and we re the ones that hold the paintbrush and how can we do that the key to our domination of the planet is culture and the key to culture is religion suppose martian scientists came to earth they would be puzzled by many things anybody know what this is i ll tell you what it is this is a million people gathering on the banks of the ganges in 2001 perhaps the largest single gathering of human beings ever as seen from satellite photograph here s a big crowd here s another crowd in mecca martians would be amazed by this they d want to know how it originated what it was for and how it perpetuates itself actually i m going to pass over this the ant is n t alone there s all sorts of wonderful cases of species in that case a parasite gets into a mouse and it needs to get into the belly of a cat and it turns the mouse into mighty mouse it makes it fearless so it runs out in the open where it ll be eaten by a cat true story in other words we have these hijackers you ve seen this slide before from four years ago a parasite that infects the brain and induces even suicidal behavior on behalf of a cause other than one s own genetic fitness does that ever happen to us yes it does quite wonderfully the arabic word islam means submission it means surrender of self interest to the will of allah but i m not just talking about islam i m talking also about christianity this is a parchment music page that i found in a paris bookstall 50 years ago and on it it says in latin semen est verbum dei sator autem christus the word of god is the seed and the sower of the seed is christ same idea well not quite but in fact christians too glory in the fact that they have surrendered to god i ll give you a few quotes the heart of worship is surrender surrendered people obey god s words even if it does n t make sense those words are by rick warren those are from the purpose driven life and i want to turn now briefly to talk about that book which i ve read you ve all got a copy you ve just heard the man and what i want to do now is say a bit about this book from the design standpoint because i think it s actually a brilliant book first of all the goal and you heard just now what the goal is it s to bring purpose to the lives of millions and he has succeeded is it a good goal in itself i m sure we all agree it is a wonderful goal he s absolutely right there are lots of people out there who do n t have purpose in their life and bringing purpose to their life is a wonderful goal i give him an a on this is the goal achieved yes 30 million copies of this book al gore eat your heart out just exactly what al is trying to do rick is doing this is a fantastic achievement and the means how does he do it it s a brilliant redesign of traditional religious themes updating them quietly dropping obsolete features putting new interpretations on other features this is the evolution of religion that s been going on for thousands of years and he s just the latest brilliant practitioner of it i do n t have to tell you this you ve just heard the man excellent insights into human psychology wise advice on every page moreover he invites us to look under the hood i really appreciated that for instance he has an appendix where he explains his choice of translations of different bible verses the book is clear vivid accessible beautifully formatted just enough repetition that s really important every time you read it or say it you make another copy in your brain every time you read it or say it you make another copy in your brain with me everybody every time you read it or say it you make another copy in your brain thank you and now we come to my problem because i m absolutely sincere in my appreciation of all that i ve said about this book but i wish it were better i have some problems with the book and it would just be insincere of me not to address those problems i wish he could do this with a revision a mark 2 version of his book the truth will set you free that s what it says in the bible and it s something that i want to live by too my problem is some of the bits in it i do n t think are true now some of this is a difference of opinion and that s not my main complaint that s worth mentioning here s a passage it s very much what he said anyway if there was no god we would all be accidents the result of astronomical random chance in the universe you could stop reading this book because life would have no purpose or meaning or significance there would be no right or wrong and no hope beyond your brief years on earth now i just do not believe that by the way i find homer groening s film presented a beautiful alternative to that very claim yes there is meaning and a reason for right or wrong we do n t need a belief in god to be good or to have meaning in us but that is just a difference of opinion that s not what i m really worried about how about this god designed this planet s environment just so we could live in it i m afraid that a lot of people take that sentiment to mean that we do n t have to do the sorts of things that al gore is trying so hard to get us to do i m not happy with that sentiment at all and then i find this all the evidence available in the biological sciences supports the core proposition that the cosmos is especially designed whole with life and mankind as its fundamental goal and purpose a whole in which all facets of reality have their meaning and explanation in this central fact well that s michael denton he s a creationist and here i think wait a minute i read this again i read it three or four times and i think is he really endorsing intelligent design is he endorsing creationism here and you ca n t tell so i m sort of thinking well i do n t know i do n t know if i want to get upset with this yet but then i read on and i read this first noah had never seen rain because prior to the flood god irrigated the earth from the ground up i wish that sentence were n t in there because i think it is false and i think that thinking this way about the history of the planet after we ve just been hearing about the history of the planet over millions of years discourages people from scientific understanding now rick warren uses scientific terms and scientific factoids and information in a very interesting way here s one god deliberately shaped and formed you to serve him in a way that makes your ministry unique he carefully mixed the dna cocktail that created you i think that s false now maybe we want to treat it as metaphorical here s another one for instance your brain can store 100 trillion facts your mind can handle 15 000 decisions a second well it would be interesting to find the interpretation where i would accept that there might be some way of treating that as true anthropologists have noted that worship is a universal urge hardwired by god into the very fiber of our being an inbuilt need to connect with god well there s a sense which i agree with him except i think it has an evolutionary explanation and what i find deeply troubling in this book is that he seems to be arguing that if you want to be moral if you want to have meaning in your life you have to be an intelligent designer you have to deny the theory of evolution by natural selection and i think on the contrary that it is very important to solving the world s problems that we take evolutionary biology seriously whose truth are we going to listen to well this from the purpose driven life the bible must become the authoritative standard for my life the compass i rely on for direction the counsel i listen to for making wise decisions and the benchmark i use for evaluating everything well maybe ok but what s going to follow from this and here s one that does concern me remember i quoted him before with this line surrendered people obey god s word even if it does n t make sense and that s a problem do n t ever argue with the devil he s better at arguing than you are having had thousands of years to practice now rick warren did n t invent this clever move it s an old move it s a very clever adaptation of religions it s a wildcard for disarming any reasonable criticism you do n t like my interpretation you ve got a reasonable objection to it do n t listen do n t listen that s the devil speaking this discourages the sort of reasoning citizenship it seems to me that we want to have i ve got one more problem then i m through and i d really like to get a response if rick is able to do it in the great commission jesus said go to all people of all nations and make them my disciples baptize them in the name of the father the son and the holy spirit and teach them to do everything i ve told you the bible says jesus is the only one who can save the world now here we ve seen many wonderful maps of the world in the last day or so here s one not as beautiful as the others it simply shows the religions of the world and here s one that shows the sort of current breakdown of the different religions now do we really want to commit ourselves to engulfing all the other religions when their holy books are telling them do n t listen to the other side that s just satan talking it seems to me that that s a very problematic ship to get on for the future i found this sign as i was driving to maine recently in front of a church good without god becomes zero sort of cute a very clever little meme i do n t believe it and i think this idea popular as it is not in this guise but in general is itself one of the main problems that we face if you are like me you know many wonderful committed engaged atheists agnostics who are being very good without god and you also know many religious people who hide behind their sanctity instead of doing good works so i wish we could drop this meme i wish this meme would go extinct thanks very much for your attention
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z='1111' n=4 w=bin2dec(z) y=zeros(w,n) for i = 1 : w j=n d=dec2bin(i) k=strtod(d) while k > 1 c = modulo (k,10) k = int (k/10) y(i,j) = c j=j-1 end if( k == 1 ) y(i,j) = 1 end end disp (y)
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clc clear //Initialization of variables p1=14.7 //psia z1=3 //ft gam=62.4 rho=1.94 //slug/ft^3 pa=0.4 //psia za=1 //ft //calculations v3=(pa-p1)*144 + (za-z1)*gam V=sqrt(-v3*2/(3*rho)) //results printf("Velocity of flow = %.1f ft/s",V) disp("The answer is a bit different due to rounding off error in textbook")
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clear; function w=cross_prod(u,v) w=zeros(3,1) D=[u(:),v(:)] w(1)=det([[1;0;0],D]) w(2)=det([[0;1;0],D]) w(3)=det([[0;0;1],D]) endfunction data=read('contour.dat',-1,3) data2=read('intersections.dat',-1,3) dat = data2; for i=1:2:length(dat) //plot(dat(i:i+1,2)+rand()/50,dat(i:i+1,3),"<") param3d(dat(i:i+1,1),dat(i:i+1,2),dat(i:i+1,3)) end
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clc;clear; //Example 7.3 //Newton's ring experiment- calculation of refractive index //given values D1=1.5;//diametre (in cm)of tenth dark ring in air D2=1.27;//diametre (in cm)of tenth dark ring in liquid //calculation n=D1^2/D2^2; disp(n,'refractive index of liquid is');
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clear; clc; //Example - 7.9 //Page number - 244 printf("Example - 7.9 and Page number - 244\n\n"); //This problem involves proving a relation in which no numerical components are involved. //For prove refer to this example 7.9 on page number 244 of the book. printf(" This problem involves proving a relation in which no numerical components are involved.\n\n"); printf(" For prove refer to this example 7.9 on page number 244 of the book.");
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// exa 8.4 Pg 230 clc;clear;close; // Given Data Fmin=500;// N Fmax=1200;// N C=6;// spring index n=1.5;// factor of safety Sys=760;// MPa Ses_dash=350;// MPa del=25;// mm G=82;// kN/mm.sq. Kw=(4*C-1)/(4*C-4)+0.615/C;// Wahl's correction factor Ks=1+0.5/C;// Shear stress factor Fm=(Fmax+Fmin)/2;// N Fa=(Fmax-Fmin)/2;// N tau_m_into_d_sq=Ks*(8*Fm*C)/(%pi);// where tau_m_into_d_sq = tau_m*d**2 tau_a_into_d_sq=Kw*(8*Fa*C)/(%pi);// where tau_a_into_d_sq = tau_a*d**2 //(tau_m-tau_a)/Sys+2*tua_a/Ses_dash=1/n d=sqrt(n)*sqrt((tau_m_into_d_sq-tau_a_into_d_sq)/Sys+2*tau_a_into_d_sq/Ses_dash);// mm printf('\n diameter of spring wire = %.2f mm or %.f mm',d, ceil(d)) d=ceil(d);// mm Dm=C*d;// mm printf('\n Mean coil diameter = %.f mm', Dm) //del=8*Fmax*Ci**3/(G*d) i=(del/(8*Fmax*C**3/(G*10**3*d)));// no. of active coils i=ceil(i);// no. of active coils printf('\n no. of active coils = %.f',i) nt=i+2;// no. of active coils (for square & ground ends) lf=nt*d+1.15*del;// mm printf('\n free length of spring = %.2f mm',lf)
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clc; clear; S0=1/500; n1=0.02; z1=0.6;//ft n2=0.015; n3=0.03; z2=0.8;//ft l1=3;//ft l2=2;//ft l3=3;//ft y=z1+z2;//ft K=1.49; A1=l1*(z1);//ft^2 A2=l2*(y);//ft^2 A3=l3*(z1);//ft^2 P1=l1+z1;//ft P2=l2+(2*z2);//ft P3=l3+z1;//ft Rh1=A1/P1;//ft Rh2=A2/P2;//ft Rh3=A3/P3;//ft Q=K*(S0^0.5)*((A1*(Rh1^(2/3))/n1)+(A3*(Rh3^(2/3))/n3)+(A2*(Rh2^(2/3))/n2));//(ft^3)/sec disp("(ft^3)/sec",Q,"The flowrate=")
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//To calculate the mobility of electrons d = 8.92*10^3; //density, kg/m^3 e = 1.6*10^-19; m = 9.1*10^-31; //mass of electron, kg N = 6.02*10^26; //avagadro's number per k-mol AW = 63.5; //atomic weight rho = 1.73*10^-8; //resistivity of copper, ohm-m n = d*N/AW; //number of cu atoms/m^3 mew = 1/(rho*n*e); //mobility of electrons, m/Vs printf("mobility of electrons is %f m/Vs",mew); tow = m/(n*e^2*rho); //relaxation time, s printf("relaxation time in sec is"); disp(tow);
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//Chapter-10, Example 10.16, Page 430 //============================================================================= clc clear //INPUT DATA e=0.8;//Emissivity of brick wall D1=[6,4];//Width and Height in m L=0.04;//Distance from the wall in m D2=[0.2,0.2];//Dimensions of the furnace wall in m D3=[1,1];//Dimensions at lower and left of the centre of the wall in m T=[1523+273,37+273];//Furnace temperature and wall temperature in degree C //CALCULATIONS F12=0.033;//Shape factor from Fig.10.3 on page no. 409 F13=0.05;//Shape factor from Fig.10.3 on page no. 409 F14=0.12;//Shape factor from Fig.10.3 on page no. 409 F15=0.08;//Shape factor from Fig.10.3 on page no. 409 Fow=(F12+F13+F14+F15);//Shape factor between opening and wall Q=(e*L*Fow*5.67*10^-8*(T(1)^4-T(2)^4))/1000;//Net radiation exchange in kW //OUTPUT mprintf('Net radiation exchange between the opening and the wall is %3.1f kW',Q) //=================================END OF PROGRAM==============================
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clc clear //Initialization of variables m=1 //lbm t1=100 //F t2=75 //F db=65 //F disp("From psychrometric charts,") t11=82 //F phi1=0.4 H1=30 //Btu/lbm dry air w1=65 //grains/lbm dry air w2=250 //grains/lbm dry air //calculations cr=t1-t2 appr=t2-db dmf3=(w2-w1)*0.0001427 hf3=68 hf4=43 H2=62.2 H1=30 mf4= (H1-H2+ dmf3*hf3)/(hf4-hf3) per=dmf3/(dmf3+mf4) //results printf("cooling range = %d F",cr) printf("\n Approach = %d F",appr) printf("\n amount of water cooled per pound of dry air = %.3f lbm dry air/lbm dry air",mf4) printf("\n percentage of water lost by evaporation = %.2f percent",per*100)
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function outSamples = beatTracking1(fileName) // Read samples [samples sampleFreq nBits] = wavread(fileName); // We keep only the first channel samples = samples(1, :); outSamples = samples; // Computes size [nChannels nSamples] = size(samples); // Instant energy instantEnergyWindow = 1024; instantEnergies = nSamples / instantEnergyWindow; // Average energy averageEnergyWindow = 43; averageEnergies = instantEnergies; beatConstant = 1.3; beatRatio = .01; // Time arrays t = [0 : nSamples - 1]; tEnergies = [0 : instantEnergies - 1] * instantEnergyWindow; // Energies arrays instantEnergy = zeros(1, instantEnergies); averageEnergy = zeros(1, averageEnergies); // Compute instant energy for i = [0 : instantEnergies - 1], tsum = 0; for s = [(i * instantEnergyWindow) + 1: ((i + 1) * instantEnergyWindow)], tsum = tsum + samples(s)^2; end instantEnergy(i + 1) = tsum; end // running windowed sum of instant energies tmpEnergy = 0; for i = [1 : averageEnergyWindow], tmpEnergy = tmpEnergy + instantEnergy(i); end averageEnergy(1) = tmpEnergy; for i = [2 : averageEnergies - averageEnergyWindow], averageEnergy(i) = averageEnergy(i - 1) - instantEnergy(i - 1) + instantEnergy(i + averageEnergyWindow - 1); end for i = [averageEnergies - averageEnergyWindow + 1: averageEnergies], averageEnergy(i) = averageEnergy(i - 1) - instantEnergy(i - 1); end // average the sum averageEnergy = averageEnergy / averageEnergyWindow; // computes the variance energyVariance = zeros(averageEnergy); for i = [1 : averageEnergies], v = 0 for j = [i : i + averageEnergyWindow - 1], if j <= instantEnergies then v = v + (instantEnergy(j) - averageEnergy(i))^2; end end energyVariance(i) = v; end energyVariance = sqrt(energyVariance); // Computes the beat detection constants beatConstants = -0.0025714 * energyVariance + 1.5142857; // Compares the instant energies and the average energies difference = instantEnergy - beatConstant * averageEnergy; difference2 = instantEnergy - beatConstants .* averageEnergy; // averages the difference h = [.2 .2 .2 .2 .2]; filteredDifference = convol(h, difference); filteredDifference = filteredDifference(3 : averageEnergies + 2); filteredDifference2 = convol(h, difference2); filteredDifference2 = filteredDifference2(3 : averageEnergies + 2); // Ratio computation ratio = zeros(instantEnergy); for i = [1 : instantEnergies], if averageEnergy(i) <> 0 then ratio(i) = instantEnergy(i) / averageEnergy(i); end end // Beat detection beatIdx = 1; beat = []; for i = [1 : instantEnergies - 1], //if (ratio(i) < beatRatio) & (ratio(i+1) > beatRatio) then //if (filteredDifference(i) < 0) & (filteredDifference(i+1) > 0) then if (filteredDifference(i) < 0) & (filteredDifference(i+1) > 0) then //if (difference(i) < 0) & (difference(i+1) > 0) then // draws a line beat(beatIdx) = tEnergies(i); beatIdx = beatIdx + 1; end end beatIdx2 = 1; beat2 = []; for i = [1 : instantEnergies - 1], //if (ratio(i) < beatRatio) & (ratio(i+1) > beatRatio) then if (filteredDifference2(i) < 0) & (filteredDifference2(i+1) > 0) then //if (difference(i) < 0) & (difference(i+1) > 0) then // draws a line beat2(beatIdx2) = tEnergies(i); beatIdx2 = beatIdx2 + 1; // put a beep (4000 Hz) in the signal for j = [0 : sampleFreq / 100], outSamples(tEnergies(i) + j) = .9 * sin(2 * %pi * (j * sampleFreq / 4000)); end end end // Plotting... scf(1); subplot(2, 1, 1); plot2d(t, samples, style=color('grey')); for i = [1 : beatIdx - 1], xsegs([beat(i) beat(i)], [.2 -.2], color('red')); end xtitle('Echantillons de ' + fileName , 'echantillons', 'amplitude'); subplot(2, 1, 2); plot2d(tEnergies, instantEnergy, style=color('green')); plot2d(tEnergies, averageEnergy, style=color('blue')); xtitle('Energies de ' + fileName, 'echantillons', 'energie'); legend(['Energie instantanee', 'Energie moyenne'], 1, %t); scf(2); subplot(3, 1, 1); plot2d(tEnergies, instantEnergy, style=color('green')); plot2d(tEnergies, averageEnergy, style=color('blue')); xtitle('Energies of ' + fileName, 'samples', 'energy'); legend(['Instant energy', 'Average energy'], 1, %t); subplot(3, 1, 2); plot2d(tEnergies, energyVariance, style=color('purple')); xtitle('Energy variance of ' + fileName, 'samples', 'variance'); subplot(3, 1, 3); plot2d(tEnergies, beatConstants, style=color('red')); xtitle('Evolution of the beat detection constant of ' + fileName, 'samples'); scf(3); subplot(2, 1, 1); plot2d(tEnergies, difference, style=color('cyan')); plot2d(tEnergies, filteredDifference, style=color('red')); plot2d([tEnergies(1) tEnergies(instantEnergies)], [0 0]); xtitle('Difference between instant and ' + string(beatConstant) + ' * average energies of ' + fileName, 'samples'); legend(['Difference', 'Average difference'], 1, %t); subplot(2, 1, 2); plot2d(tEnergies, difference2, style=color('cyan')); plot2d(tEnergies, filteredDifference2, style=color('red')); plot2d([tEnergies(1) tEnergies(instantEnergies)], [0 0]); xtitle('Difference between instant and computed constant * average energies of ' + fileName, 'samples'); scf(4); plot2d(tEnergies, ratio, style=color('orange'), logflag='nl'); plot2d([tEnergies(1) tEnergies(instantEnergies)], [beatRatio beatRatio]); xtitle('Ratio between instant and average energies of ' + fileName, 'samples'); legend(['Ratio', 'Beat detection limit'], 4, %t); scf(5); subplot(3, 1, 1); plot2d(t, samples, style=color('grey')); for i = [1 : beatIdx - 1], xsegs([beat(i) beat(i)], [.2 0], color('blue')); end for i = [1 : beatIdx2 - 1], xsegs([beat2(i) beat2(i)], [-.2 0], color('red')); end xtitle('Echantillons de ' + fileName , '', 'amplitude'); subplot(3, 1, 2); plot2d(tEnergies, filteredDifference, style=color('blue')); plot2d([tEnergies(1) tEnergies(instantEnergies)], [0 0]); xtitle('Difference lissee entre l`energie instantanee et ' + string(beatConstant) + ' * l`energie moyenne de ' + fileName); subplot(3, 1, 3); plot2d(tEnergies, filteredDifference2, style=color('red')); plot2d([tEnergies(1) tEnergies(instantEnergies)], [0 0]); xtitle('Difference lissee entre l`energie instantanee et C(i) * l`energie moyenne de ' + fileName);
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// Scilab Code Ex8.7: Page-8.36 (2004) clc;clear; d = 8906; // Density of nickel, kg per metrecube An = 6.025e+26; // Avogadro number, per k mol W = 58.7; // Atomic weight, kg N = d*An/W; // Number density of nickel atom, per cubemetre Bs = 0.65; // Saturation magnetization, wb per squaremetre muo = (4*%pi*1e-7); // magnetic perbeability, henry/metre mum = Bs/(N*muo); // magnetic moment, ampere per squaremetre X = mum/(9.27e-24); // magnetic moment, bohr magneton printf("\nNumber density of nickel atom = %3.3e /cubemetre", N); printf("\nMagnetic moment = %1.2f bohr magneton", X); // Result // Number density of nickel atom per cubemetre = 9.141e+28 /cubemetre // Magnetic moment = 6.10e-01 bohr magneton
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clear; //clc(); s=15000/3; v=33000/sqrt(3); pf=0.85; l=8; r=.29*l; x=0.65*l; i=s*1000/v; qs=acosd(pf); op=3*s*1000*pf; ploss=3*i*i*r; z=r+(%i)*x; vs=v+z*i*(cosd(-qs)+(%i)*sind(-qs)); vsp=sqrt(real(vs)^2+imag(vs)^2); vsl=sqrt(3)*vsp; printf("\n the line voltage at the sending end is: %.2f kv",vsl/1000); //b)phase difference qs1=atand(imag(vs)/real(vs)); pf1=qs1-(-qs); //negative sign is due to the load is lagging pf=cosd(pf1); printf("\n the power factor of the sending end is:%.4f",pf); //c).line regulation lr=(vsp-v)/v; printf("\n the line regulation of is:%.2f",lr); //d).efficiency n=op/(op+ploss); printf("\n the transission efficiency is: %.2f percent",n*100);
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// Chapter6 // Page.No-216, Figure.No-6.14(a) // Example_6_9 // Gain of the amplifier // Given clear;clc; Vo=3.7;Vin=100*10^-3; R1=100; // Assume Rf=0.5*((Vo*R1)/Vin-1); // Feedback resisrance printf("\n Feedback resisrance is = %.1f ohm \n",Rf) A=(1+2*Rf/R1); // Gain of the differential amplifier printf("\n Gain of the differential amplifier is = %.1f \n",A)
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clear// //Variables N = 150.0 //Number of turns mur = 3540.0 //Relative permeability (in H/m) mu0 = 4*%pi * 10 **-7 //Absoulte permeability (in H/m) l = 0.05 //coil length (in meter) A = 5 * 10**-4 //Area of cross - section (in metersquare) //Calculation L = (mur * mu0 * A * N**2)/l //Coil inductance (in Henry) //Result printf("\n The coil inductance is %0.2f Henry.",L)
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/* generate squarewave by over sampling */ // initial parameters *********************************************************/ fs = 44100/* Hz */; // sampling rate f = 880/* Hz */; // frequecncy multiple = 0:3; // 44.1kHz * multiple oversampling fc = fs / 2; // cut off frequency q = 1/sqrt(2); // q-value col = [1,5,3,2]; /******************************************************************************/ exec("..\sci\genWave02.sci"); exec("..\sci\getPowerSpectrum.sci"); exec("..\sci\snr.sci"); t = 0.0:1/fs:1.0-1/fs; wav = zeros(length(multiple),length(t)); for i = multiple wav(i + 1,:) = genWave02(f, t, 2^i, fs/2, 1/sqrt(2)) pow(i + 1,:) = getPowerSpectrum(wav(i + 1,:)); sn(i + 1) = snr(pow(i + 1,:), f, (fs/2) / f); wavwrite(wav(i + 1,:), fs, "x" + string(2^multiple(i+1)) + "oversampling.wav"); end /* plot wave data and power spectrum */ // plot wave data for i = 1:length(multiple) clf(); subplot(2,1,1); plot2d(t, wav(i,:), 2, rect=[0.0, -0.6, 4/f, 0.6]); xgrid(color(128,128,128)); title("x" + string(2^multiple(i)) + "oversampling", 'fontsize',3) xlabel("time [ms]]"); ylabel("wave"); // plot power spectrum subplot(2,1,2); plot2d(fs * t(1:length(pow(i,:))), 10 * log10(pow(i,:)),2 ,rect=[0.0, -100, fs/2, 0]); xgrid(color(128,128,128)); title("spectrum", 'fontsize',3) xlabel("freqency [Hz]"); ylabel("power spectrum [dB]"); xs2png(0, "x" + string(2^multiple(i)) + "oversampling.png") end
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//Chapter 10, Problem 16 clc; g1=12; //gain of stage 1 g2=15; //gain of stage 2 g3=-8; //gain of stage 3 P=g1+g2+g3; //Power ratio P1=10^(P/10); //calculating overall power gain printf("Overall power gain (P2/P1) = %f ",P1);
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clc; clear; xdel(winsid()); disp("EXP 2 Name.Navnish Shettigar Roll No-35") // Generation of 7 bit PN sequence // Coefficient of polynomial a1=1; a2=1; a3=1; // Initial states of flip flop R(1)=1; R(2)=0; R(3)=0; m=3; disp('output after every clock pulse'); for i=1:((2^m)-1)//shift of bit in each register for every clock pulse r1=R(1); r2=R(2); r3=R(3); PN(i)=R(3); //if(a1==0) R1=bitxor(r2,r3);//input of register is modulo2 addition of R2 and R3 R(3)=R(2); R(2)=R(1); R(1)=R1; disp(R); end disp('PN sequence is'); disp(PN);//Display 7 bit PN sequence c1=[1 -1 -1];//information of user 1 for j=1:1:length(PN)//0 replaced with -1 in PN sequence if PN(j)==0 then PN(j)=PN(j)-1; else PN(j)=PN(j)+0; end end disp(PN); spreaded_sig=[c1(1).*PN' c1(2).*PN' c1(3).*PN']//Spreading of data of user 1 using PN sequence detect_code=[spreaded_sig(1:7).*PN' spreaded_sig(8:14).*PN' spreaded_sig(15:21).*PN'];//at receiver,recieved spreaded signal multiplied with PN sequnce corr_code=[sum(detect_code(1:7)) sum(detect_code(8:14)) sum(detect_code(15:21))]; rec_sig=(1/7).*corr_code;//get information form received signal disp('received signal with correct PN sequence is'); disp(rec_sig);//received data of user 1 at receiver:1 -1 -1 //Despreading with shifted PN sequence shift_fact=input('enter the shifting factor' ); l=1; k=shift_fact-1; for i=1:1:length(PN) //generation of shifted PN sequence as per entered shifting factor if i<=shift_fact shift_seq(i)=PN(length(PN)-k); k=k-1; else i>shift_fact shift_seq(i)=PN(l); l=l+1; end end disp('shifted sequence is'); disp(shift_seq');//display shifted sequence //despreading using shifted PN sequence detect_shift_code=[spreaded_sig(1:7).*shift_seq' spreaded_sig(8:14).*shift_seq'spreaded_sig(15:21).*shift_seq']; corr_shift_code=[sum(detect_shift_code(1:7)) sum(detect_shift_code(8:14)) sum(detect_shift_code(15:21))]; rec_shift_sig=(1/7).*corr_shift_code; disp("recieved signal with shifted PN sequence is"); disp(rec_shift_sig);//Invalid data received beacuse signal was despreded with shifted PN sequence disp('which is not valid transmitted signal');
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//Fluid System By Shiv Kumar //Chapter 6 - Kaplan and Propeller Turbines //Example 6.3 //To Find (a)Inlet and Outlet blade Angles (b)Mechanical Efficiency (c)Volumetric Efficiency clc clear //Given: D=6; //Outer Diameter of Runner, m d=2; //Inner Diameter of Runner, m P=30; //Shaft Power, MW N=75; //Speed, rpm H=12; //Head, m Q=310 //Discharge through the Runner, m^3/s eta_H=96/100; //Hydraulic Efficiency //Data Required: rho=1000; //Density of Water, Kg/m^3 g=9.81; //Acceleration due to gravity, m/s^2 //Computations u=%pi*D*N/60; //Velocity of runner, m/s ui=u; uo=u; Vf=Q/((%pi/4)*(D^2-d^2)) // m/s Vfi=Vf; Vfo=Vf; Vwi=eta_H*g*H/ui; // m/s //The Answer Vary Because Value of ui used in book is Wrong //(a)Inlet and Outlet blade Angles, Beta_i and Beta_o Beta_i=180-atand(Vfi/(ui-Vwi)); //Degrees Beta_o=atand(Vfo/uo); //Degrees //(b)Mechanical Efficiency,eta_m eta_M=P*10^6/(rho*Q*Vwi*ui)*100; //percentage(%) //The Answer Vary Because Value of Vwi used in book is Wrong //(c)Volumetric Efficiency, eta_v eta_o=P*10^6/(rho*Q*g*H)*100; //Overall Efficiency, percentage(%) eta_v=eta_o/(eta_M*eta_H); //percentage(%) //The Answer Vary Because Value of eta_m used in book is Wrong //Results printf("(a)Inlet Blade Angle, Beta_i=%.2f degrees and \n",Beta_i) //The answer vary due to round off error printf(" Outlet Blade Angle, Beta_o=%.2f degrees \n",Beta_o) //The answer vary due to round off error printf("(b)Mechanical Efficiency, eta_m=%.2f percent\n",eta_M) //The answer provided in the textbook is wrong printf("(c)Volumetric Efficiency, eta_v=%.2f percent\n ",eta_o) //The answer provided in the textbook is wrong
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//Caption:Calculate minimum square wave frequency //Ex2.6 clc; clear; close; C=1//Coupling capacitor(in micro farad) R=1//Input resistance(in Mega ohm) t=0.01//Tilt PW=t*R*C f=1/(2*PW) disp(f,'Frequency required(in hertz)=')
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DECLARE msg VARCHAR2 (1000); isval BOOLEAN; PROCEDURE plsb (str IN VARCHAR2, val IN BOOLEAN) IS BEGIN IF val THEN DBMS_OUTPUT.put_line (str || ' - TRUE'); ELSIF NOT val THEN DBMS_OUTPUT.put_line (str || ' - FALSE'); ELSE DBMS_OUTPUT.put_line (str || ' - NULL'); END IF; END plsb; BEGIN oracle_error_info.validate_oracle_error (100, msg, isval); plsb (msg, isval); oracle_error_info.validate_oracle_error (-1403, msg, isval); plsb (msg, isval); oracle_error_info.validate_oracle_error (1, msg, isval); plsb (msg, isval); oracle_error_info.validate_oracle_error (-1850, msg, isval); plsb (msg, isval); oracle_error_info.validate_oracle_error (120000, msg, isval); plsb (msg, isval); oracle_error_info.validate_oracle_error (1200000000, msg, isval); plsb (msg, isval); oracle_error_info.validate_oracle_error (-20000, msg, isval); plsb (msg, isval); END;
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//developed in windows XP operating system 32bit //platform Scilab 5.4.1 clc;clear; //example 18.8 //calculation of focal length of a biconvex lens from known value of radii of curvature of refracting surfaces //given data R1=20; //radius of curvature(in cm) of first surface of biconvex lens R2=-20; //radius of curvature(in cm) of second surface of biconvex lens mu=1.5; //refractive index of the material of lens //calculation f=1/((mu-1)*(1/R1-1/R2)); //lens maker's formula disp(f,'focal length(in cm) of the given biconvex lens is');
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//to find the maximum stress induced D=50//D=50mm d=25//d=12mm r=5 A=(%pi*d^2)/4 disp(A,"Area=") W=12000//W=12kN Ns=W/A disp(Ns,"Nominal Stress=") x=D/d//ratio of maximum diameter to minimum diameter y=r/d//ratio of radius of fillet to minimum diameter Kt=1.64 Ms=Kt*Ns disp(Ms,"Maximum stress=")
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//Exa 1.6 clc; clear; close; format('v',8); //Given Data : g=9.81;//m/s^2 rho_o=0.825*10^3;//Kg/m^3 rho_w=1*10^3;//Kg/m^3 rho_Hg=13.45*10^3;//Kg/m^3 h_o=50/100;//m h_w=65/100;//m h_Hg=45/100;//m Patm=1.01325;//bar P_Hg=rho_Hg*g*h_Hg;//N/m^2 P_w=rho_w*g*h_w;//N/m^2 P_o=rho_o*g*h_o;//N/m^2 Pbase=(Patm*10^5+P_Hg+P_o+P_w);//N/m^2 disp(Pbase,"Pressure at the base of column in N/m^2 : "); P_OilWater=Patm*10^5+P_o;//N/m^2 disp(P_OilWater,"Pressure at the oil-water surface in N/m^2 : "); P_WaterMercury=Patm*10^5+P_o+P_w;//N/m^2 disp(P_WaterMercury,"Pressure at the water-mercury surface in N/m^2 : "); //Answer in the book is not accurate.
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//Function migration (image list to matrix) for: grayconnected //Generated by migrate.cpp //Author: Anirudh Katoch function res = grayconnected(varargin) select length(varargin) case 04 then res = raw_grayconnected(varargin(01), varargin(02), varargin(03), varargin(04)) case 03 then res = raw_grayconnected(varargin(01), varargin(02), varargin(03)) else error(39) end endfunction
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// ok, le test fonctionne. clear getd("src/transformation") dx=[0.1 0 0 0.002 0.004 0]; disp('deplacement dx'); disp(dx); M = homogeneousMatrixFromPos(dx); disp('homogeneous M from dx'); disp(M); dt=0.01; dotx = dx/dt vitesse = expMapInverseThetaU(M,dt) M3 = expMapDirectThetaU(vitesse,dt) deplacement = pFromHomogeneousMatrix(M3); disp('le deplacement resultant est') disp(deplacement)
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clear; clc; Zo=400;ZR=200-(%i*100);lo=3; //lo=wavelength //value os Zo as taken in solution K=(ZR-Zo)/(ZR+Zo); ampK=abs(K); phi=%pi + atan(imag(K)/real(K)); Ls=(lo/(4*%pi))*(phi+%pi-acos(ampK)); printf("Shortest distance from the lead to the stub location = %f metres\n",round(Ls*100)/100); Lt=(lo/(2*%pi))*(atan(sqrt(1-(ampK*ampK)))/(2*ampK)); printf("Length of the short circuited stub = %f metres",fix(Lt*10)/10);
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int complement(int number) begin return 0 - number; end main begin print(complement(4)); return 0 - 4; end
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script_compute_histograms_best_class.sci
// load the index of test cases of interest // inputs: // - path: the path to the folder containing the file with indexes of interest // - filename: the file containing indexes of test cases of interest // - nb_elem: number of element (ndexes) to read from the file // output: // - set5: the set containing indexes of test cases of interest // function set5= load_best_set(path,filename,nb_elem) set5 = mgetl(path+filename,nb_elem); endfunction //a function to load all csv files from a given directory // inputs : // - path : the path where files containing observations over executions // - fileregex : a simple regex containing data to process //files containing data to process must be in a csv format with columns separated by ';' //decimal float values given by a '.' and every cell will be intepreted as a string // - idx_test : the indexes of test cases of interest // - idx_prop : indexes of properties of interest // - is_obj_class : if true, consider only object classes // outputs : // - x : a matrix containing every read data contained in files function x=load_csv_files(path,fileregex,idx_test,idx_prop) x=[]; //lut between idx_test and label of the tests //all_data = all_obj_classes all_data = csvRead("../../../../../../data/coco/"+"all_data_dev_obj_class.csv",",",".","string"); all_data(find(all_data(:,1)=="[all]: [all]"),:) = []; unique_text_file = unique(all_data(:,1)); set_label = unique_text_file(idx_test); set_obj_class=[]; for i = 1:prod(size(set_label)) set_obj_class = [set_obj_class; part(set_label(i),1:strindex(set_label(i),': [all]')-1)]; end all_data = csvRead("../../../../../../data/coco/"+"all_data_dev_reduced.csv",",",".","string"); curr_i = []; curr_i = all_data(grep(all_data,set_obj_class),[1:idx_prop]); x=curr_i; endfunction //a function to create histograms needed to compute dispersion scores //it also computates associate dispersion scores to videos //scores and histograms are stored in the given file //inputs : // - data : data to build histograms and dispersion scores // - path : the path to the folder where results will be saved // - filename : the file name containing results (histograms + dispersion score) // - idx_col : the column indexes containing property of interest function process_data(data,path,filename,idx_col) //scan csv data to have proper format (string and double are mixted) -> //everything in string with decimal noted '.' //formatted_data = csvTextScan(data,";",".",'string'); formatted_data = data; //unique filenames contained in the data file (consider one video at a time) unique_text_file = unique(formatted_data(:,1)); //prepare output file (column header) result=["filename","metric","hist"]; //find for each unique filename corresponding rows (= every execution of considered video) for(i=1:size(unique_text_file,1)) //find each row -> index in the matrix of formatted data rows = formatted_data(find(formatted_data(:,1) == unique_text_file(i)),:); //extract corresponding columns and compute histograms as well as dispersion scores [measure,hist] = compute_metric(rows,idx_col); //////store results //because histogram is more than size of matrix -> put into a 1x1 mat //bins are separated by ' ' hist = strcat(hist,' '); //concatenation of results result=[result;unique_text_file(i),measure, hist]; end //save result save_result(result,path,filename); endfunction // computes the histogram of observations and associated dispersion score // the dispersion score is computed as follows: disp(S) = (#bin of histogram ~= 0 / # of programs) // which is the ratio of activated bins to the number of programs to execute // inputs : // - m : a matrix containing observations to build histogram and dispersion score // - idx_col : index of columns of interest containing observations to take into account // outputs : // - measure : the computed dispersion score based on observations // - hist : histogram associated to the dispersion score function [measure, hist]=compute_metric(m,idx_col) measure=[]; //retrieve right data -> column(s)) perf=m(:,idx_col); //convert to double d=strtod(perf); ////prepare histogram //number of bins nb_bins = size(perf,1); cf =[]; ind=[]; //for each column to process for i = 1:size(idx_col,2) //compute histogram between 0 and 1 [tmp_cf,tmp_ind] = histc([0:nb_bins]/nb_bins,d(:,i)); //add to final histogram and frequencies cf = [cf,tmp_cf']; ind=[ind,tmp_ind]; end //finalize dispersion score and convert to string measure = size(unique(ind,'r'),1); measure = measure/nb_bins; measure = string(measure); //histogram also converted to string hist = string(cf); endfunction //a function to save a matrix in a specified filename function save_result(m,path,filename) csvWrite(m,path+filename); endfunction //retrieve label of class s = load_best_set("../../../../../../data/coco/best_sets/","best_set_5_dev_obj_class.txt",5); s_d = strtod(s); //index in double or integers index = [2]; data=load_csv_files("../../../../../../data/coco/Coco_Dev_2017/data/","*",s_d,index) data_d = strtod(data); //convert into double save_result(data,"../../../../../../data/coco/","data_dev_class_best_obj_class.csv"); process_data(data,"../../../../../../results/coco/result_dispersion_score/","metrics_hist_Precision_AP_dev_2017_best_set_obj_class.csv",index);
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clc; clear; v2=20;//m/s dia2= 40;//mm //m1=m2 //d1*Q1=D2*Q2; where d1=d2 is density of seawater //hence Q1=Q2 Q=v2*(%pi*((dia2/1000)^2)/4);//m^3/sec disp("m^3/sec",Q,"Flowrate=")
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function [x] = solsup(u,b) N = length(b); if( size(u)~= [N, N] | size(b,2) ~= 1) then disp("size(u)=",size(u)); disp("size(b,2)=",size(b,2)); disp("incorrct!"); end x = zeros(N,1); x(N)= b(N)/u(N,N); for i = N-1:-1:1 x(i) = b(i); for j = i+1:N x(i) = x(i)-x(j)*u(i,j); end x(i) = x(i)/u(i,i); end endfunction
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//chapter 4 Ex 14 clc; clear; close; x=poly(0,'x'); y=(34-2*x)/3; //equation 1 y=8*x/5; //equation 2 for x=1:99 if (34-2*x)/3==8*x/5 mprintf("x=%i \n ",x); break end end y=8*x/5; printf("The value of 5*y+7*x is: %d",(5*y+7*x));
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function[Y] = f(x) Y=x^4 + 2x3 13x2 14x + 24 endfunction function[Y] = Df(X) endfunction function[Raiz, Iter, CondErro] = newton(x0, Toler, IterMax) Iter=0; [Fx] = f(x0); [DFx] = Df(x0); printf("Iter\tx\tDFx\tFx\n"); printf("%f\t%f\t%f\t",Iter, x0, DFx, Fx); for i = 1:1:IterMax DeltaX = -Fx/DFx; x=x+DeltaX; [Fx] = f(x); [DFx] = Df(x); Iter=Iter+1; printf("%f\t%f\t%f\t%f",Iter, x, DFx, Fx, DeltaX); if (abs(DeltaX) <= Toler & abs(Fx) <= Toler) | DFx == 0 then break end end Raiz=x; if abs(DeltaX) <= Toler & abs(Fx) <= Toler then CondErro = 0; else CondErro = 1; end endfunction
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b=250//column width in mm D=450//column depth in mm Asc=2*1472//in sq mm fck=15//in MPa fy=250//in MPa ex=200//in mm ey=150//in mm //from interaction curve //for ex=200 mm on x-axis Pum1=610//in kN Muy1=120//in kN-m //for ey=150 mm on y-axis Pum2=720//in kN Mux1=106//in kN-m //(i) Pu=300//in kN Mux=Pu*ey/10^3//in kN-m Muy=Pu*ex/10^3//in kN-m Puz=(0.45*fck*(b*D-Asc)+0.75*fy*Asc)/10^3//in kN a=Pu/Puz an=1+1/0.6*(a-0.2) b=(Mux/Mux1)^an+(Muy/Muy1)^an//<1 mprintf("The column can take a load of 300 kN with ex=200 mm and ey=150 mm\n") //(ii) Pu=500//in kN Mux=Pu*ey/10^3//in kN-m Muy=Pu*ex/10^3//in kN-m a=Pu/Puz an=1+1/0.6*(a-0.2) b=(Mux/Mux1)^an+(Muy/Muy1)^an//>1 mprintf("The section is not suitable for a load of 500 kN with ex=200 mm and ey=150 mm\n")
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Euler_Verfahren2.sci
exec dgl2.sci figure(1); clf; mtlb_axis([0 20 -1.5 3]) t = 0; z = [3;0] h = 0.1; while(t < 6 * %pi) plot(t, z(1), 'ob'); plot(t, z(2), '*r'); z = z + h*dgl2(t, z) t = t + h sleep(100) end
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//1/R=1/R1-1/R2. get R clear; clc; close; disp("R=R1R2/(R2-R1)")
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// 08.08.21 // 09.10.24 // 09.10.26 function Menkakusi(Face,Nf,Ptype) global THETA PHI EyePoint FocusPoint VELNO VELHI; Eps0=10^(-6); Eps=10^(-4); Tmp1=Face(1)-Face(2); Tmp2=Face(3)-Face(2); if norm(Tmp1)<Eps | norm(Tmp2)<Eps return; end; Vec=1/norm(Tmp1)/norm(Tmp2)*Crossprod(Tmp1,Tmp2); if norm(Vec)<Eps return; end; if Ptype==-1 W=EyePoint; Tmp=Dotprod(Vec,W-Face(1)); else W=[sin(THETA)*cos(PHI),sin(THETA)*sin(PHI),cos(THETA)]; W=100*W; Tmp=Dotprod(Vec,W-Face(1)); end; if abs(Tmp)<Eps return; end; if Tmp<-Eps Vec=-Vec; end; if Ptype==-1 G1=Projpers(Spaceline(Face)); else G1=Projpara(Spaceline(Face)) end; VL=list(); for I=1:Numptcrv(G1) VL(I)=Ptcrv(I,G1); end; Out1L=list(); Out2L=VELHI; for N=1:length(VELNO) Tmp=VELNO(N); Edge=Tmp(1); Ne=Tmp(2); Nenm=Tmp(3); if Member(Nf,Ne) Out1L($+1)=list(Edge,Ne,Nenm); continue; end; if Ptype==-1 P=Perspt(Edge(1)); Q=Perspt(Edge(2)); else P=Parapt(Edge(1)); Q=Parapt(Edge(2)); end; if norm(P-Q)<Eps continue; end; Tmp=Kyoukai(Mix(G1)); Tmp1=Naigai(P,Tmp); Ng1=Tmp1(1); Tmp1=Naigai(Q,Tmp); Ng2=Tmp1(1); KL=IntersectcrvsPp(Listplot([P,Q]),G1); if Mixlength(KL)==0 if Ng1==0 Out1L($+1)=list(Edge,Ne,Nenm); else Tmp1=(Edge(1)+Edge(2))*0.5-Face(1); Tmp=Dotprod(Tmp1,Vec)/norm(Tmp1); if Tmp>-Eps Out1L($+1)=list(Edge,Ne,Nenm); else Out2L($+1)=list(Edge,Ne,Nenm); end; end; continue; end; Flg=0; for I=1:Mixlength(VL)-1 Tmp=VL(I+1)-VL(I); if norm(Tmp)<Eps continue; end; Tmp1=Crossprod(Tmp,Q-P)/norm(Tmp)/norm(Q-P); if abs(Tmp1)<Eps Flg=1; break; end; end; if Flg==1 Tmp=Mixop(I,VL)-P; if norm(Tmp)<Eps Tmp1=0; else Tmp1=Crossprod(Tmp,Q-P)/norm(Tmp)/norm(Q-P); end; if abs(Tmp1)<Eps then Out1L($+1)=list(Edge,Ne,Nenm); continue; end; end; if Mixlength(KL)==1 Tmp=KL(1); Tmp=Tmp(2)-1; if Tmp<Eps if Ng2==0 Out1L($+1)=list(Edge,Ne,Nenm); else Tmp1=Edge(2)-Face(1); Tmp1=Dotprod(Tmp1,Vec); if Tmp1>-Eps Out1L($+1)=list(Edge,Ne,Nenm); else Out2L($+1)=list(Edge,Ne,Nenm); end; end; continue; end; if Tmp>1-Eps if Ng1==0 Out1L($+1)=list(Edge,Ne,Nenm); else Tmp1=Edge(1)-Face(1); Tmp1=Dotprod(Tmp1,Vec); if Tmp1>-Eps Out1L($+1)=list(Edge,Ne,Nenm); else Out2L($+1)=list(Edge,Ne,Nenm); end; end; continue; end; if Ng1==0 & Ng2==0 Out1L($+1)=list(Edge,Ne,Nenm); else Tmp1=KL(1); Tmp1=Tmp1(1); if Ptype==-1 Tmp=Invperspt(Tmp1,Spaceline(Edge)); else Tmp=Invparapt(Tmp1,Spaceline(Edge)) end; Ak=Tmp(1); if Ng1==1 Tmp1=Edge(1)-Face(1); Tmp1=Dotprod(Tmp1,Vec); if Tmp1>-Eps Out1L($+1)=list(Edge,Ne,Nenm); else Tmp2=list(Ak,Edge(2)); Out1L($+1)=list(Tmp2,Ne,Nenm); Tmp2=list(Edge(1),Ak); Out2L($+1)=list(Tmp2,Ne,Nenm); end; end; if Ng2==1 Tmp1=Edge(2)-Face(1); Tmp1=Dotprod(Tmp1,Vec); if Tmp1>-Eps Out1L($+1)=list(Edge,Ne,Nenm); else Tmp2=list(Edge(1),Ak); Out1L($+1)=list(Tmp2,Ne,Nenm); Tmp2=list(Ak,Edge(2)); Out2L($+1)=list(Tmp2,Ne,Nenm); end; end; end; end; if Mixlength(KL)==2 Tmp1=KL(1); Tmp1=Tmp1(2); Tmp2=KL(2); Tmp2=Tmp2(2); if Tmp1>Tmp2 KL=list(KL(2),KL(1)); end; Tmp=Spaceline(Edge); Tmp1=KL(1); Tmp1=Tmp1(1); Tmp2=KL(2); Tmp2=Tmp2(1); if Ptype==-1 Ak=Mixop(1,Invperspt(Tmp1,Tmp)); Bk=Mixop(1,Invperspt(Tmp2,Tmp)) else Ak=Mixop(1,Invparapt(Tmp1,Tmp)); Bk=Mixop(1,Invparapt(Tmp2,Tmp)) end; Tmp1=(Ak+Bk)*0.5-Face(1); Tmp=Dotprod(Tmp1,Vec); if Tmp>-Eps Out1L($+1)=list(Edge,Ne,Nenm); else Out1L($+1)=list(list(Edge(1),Ak),Ne,Nenm); Out1L($+1)=list(list(Bk,Edge(2)),Ne,Nenm); Out2L($+1)=list(list(Ak,Bk),Ne,Nenm); end; end; end; VELNO=Out1L; VELHI=Out2L; endfunction
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//load "ota.sci" //load "ota_func.sci" //*********************************** //SCRIPT TO READ FROM MODEL FILE //*********************************** //cd /usr/lib/scicoslab-gtk-4.4.1/macros/scicos_blocks/cadsp/ //LOAD OBJECT FILE global file_name load(file_name) disp("Hello World"); deletefile('expt2.blif') //Loading array vectors //CHECK FOR SCICOS LINK OBJECTS //global variable to store numofip=0; numofop=0; numofblk=0; numoflink=0; inps=0; accblk=1; blk_name=cell([1,1]); link_blk=cell([1,1]); no=length(scs_m.objs); link_name=zeros(1,no); j=1; net=1; objnum=1; ip_count=1;//primary input count op_count=1;//primary output count prime_ips=[]; prime_ops=[]; blk_objs=[]; for i =1:no if(length(scs_m.objs(i) )==8) then // disp("Scicos_link block ",i); //LINK BLOCK CODE numoflink=numoflink+1; link_name(1,numoflink)=i; elseif ( length(scs_m.objs(i) )==1) then //disp("deleted block",i); else //disp ("Obj code ",i); blk(j,1)=i; //blk(j,2)=scs_m.objs(i).gui if(scs_m.objs(i).gui== "IN_f") then prime_ips(ip_count)=j; ip_count=ip_count+1;//primary ip count blk_name.entries(j)= strcat([scs_m.objs(i).gui ,scs_m.objs(i).graphics.exprs(1,1)]) elseif (scs_m.objs(i).gui== "OUT_f") then prime_ops(op_count)=j; op_count=op_count+1; blk_name.entries(j)= strcat([scs_m.objs(i).gui ,scs_m.objs(i).graphics.exprs(1,1)]) else blk_name.entries(j)=scs_m.objs(i).gui; //if (scs_m.objs(i).gui ~= "IN_f" | scs_m.objs(i).gui ~= "OUT_f")then blk_objs(objnum)=j; //BLOCK NUMBER actually stored objnum=objnum+1; //end end j=j+1; numofblk=numofblk+1; //end if(length(scs_m.objs(i).model.in)>numofip) then numofip=length(scs_m.objs(i).model.in); //disp("Yeehoo :",i) end; if(length(scs_m.objs(i).model.out)>numofop) then numofop=length(scs_m.objs(i).model.out); end; end; end; numofio=numofip+numofop;//blknumber+ip+op //disp("Greatest number of inputs", numofip); //disp("Greatest number of outputs", numofop); //disp("Number of blocks", numofblk); //disp("Number of links", numoflink); blk=[blk,zeros(numofblk,numofio)]; link_blk=link_name(1, 1:numoflink); for m=1:numoflink curblk=scs_m.objs(link_blk(1,m)).from(1,1); for r=1:numofblk if(blk(r,1)==curblk) then outofblk=scs_m.objs(link_blk(1,m)).from(1,2); idx=1+numofip+outofblk; blk(r,idx)=net; break; end end curblk=scs_m.objs(link_blk(1,m)).to(1,1); for r=1:numofblk if(blk(r,1)==curblk) then inofblk=scs_m.objs(link_blk(1,m)).to(1,2); idx=1+inofblk; blk(r,idx)=net; net=net+1; break; end end end // primary input string prime_ip_string= '.inputs net'+ string(blk(prime_ips(1),2+numofip)); for s=2: length(prime_ips) prime_ip_string=strcat([prime_ip_string," net",string(blk(prime_ips(s),2+numofip)) ]); end //primary o/p string prime_op_string= '.outputs net'+ string(blk(prime_ops(1),2)); for s=2: length(prime_ops) prime_op_string= prime_op_string + ' net'+ string(blk(prime_ops(s),2)); end disp("blk_objs",blk_objs); disp("blk",blk); disp("numips",numofip); //Writing output .blif file fd_w= mopen ("./expt2.blif",'wt') filename= basename('./expt2.cos') mputl(strcat([".model"," ",filename]) ,fd_w); mputl(prime_ip_string,fd_w) mputl(prime_op_string,fd_w) mclose(fd_w); //other stuff fd_w= mopen ("./expt2.blif",'a') for bl=1:length(blk_objs) if(blk_name.entries(bl)=='ota_2') then mputl("# ota",fd_w) ota_str= '.subckt ota ip1= net' + string(blk(blk_objs(bl),2)) + ' ip2= net'+ string(blk(blk_objs(bl),3)) + ' op1=net'+ string(blk(blk_objs(bl),2+numofip)) mputl(ota_str,fd_w); //mputl(".blackbox",fd_w); //end;//ifota //elseif(blk_name.entries(bl) ~='IN_f' | blk_name.entries(bl) ~='OUT_f') then elseif (blk_name.entries(bl) =='div2') then chdir /home/ubuntu/Downloads/vtr_release/vtr_flow unix_g(' perl /home/ubuntu/Downloads/vtr_release/vtr_flow/scripts/run_vtr_flow.pl /home/ubuntu/Downloads/vtr_release/vtr_flow/benchmarks/verilog/divBy2.v /home/ubuntu/Downloads/vtr_release/vtr_flow/arch/timing/k6_N10_memDepth16384_memData64_40nm_timing.xml -ending_stage scripts') unix_g('cp /home/ubuntu/Downloads/vtr_release/vtr_flow/temp/div* /home/ubuntu/Downloads/vtr_release/vtr_flow/') //unix_g('cd /home/ubuntu/Downloads/vtr_release/vtr_flow ') unix_g('pwd ') unix_g('bash genblif.sh ') //unix_g('cd /usr/lib/scicoslab-gtk-4.4.1/macros/scicos_blocks/cadsp/') chdir /usr/lib/scicoslab-gtk-4.4.1/macros/scicos_blocks/cadsp/ unix_g('cp /home/ubuntu/Downloads/vtr_release/vtr_flow/div2.blif .') unix_g('cat div2.blif >> expt2.blif ') end; end;//for mputl(".end",fd_w) mputl(" ",fd_w) //mputl("Xota Vp vout vout OTA a: Ibo=1e-6",fd_w); mclose(fd_w); unix_g('cat analg_arch.sce >> expt2.blif ') disp("Done writing!")
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/michal/DDschwarz.sci
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pm1a/geometry
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refs/heads/master
2020-06-06T09:05:50.462881
2014-02-06T19:01:15
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DDschwarz.sci
////////////////////////////// // konstrukce matic // -predpoklada se ze jde o ekvidistantni diskretizaci na obdelniku // konstruuje diskretizaci dvourozmeneho Laplace // pomala varianta function [A] = Laplace2D_old(nx,ny) A = spzeros(nx*ny,nx*ny) for i = 1: nx for j = 1:ny ii=(j-1)*nx + i // to je skutecny index A(ii,ii)=4 if i>1 then A(ii,ii-1)= -1 end if i<nx then A(ii,ii+1)= -1 end if j>1 then A(ii,ii-nx)= -1 end if j<ny then A(ii,ii+nx)= -1 end end end endfunction // konstruuje diskretizaci dvourozmeneho Laplace - matice hmotnosti function [A] = Laplace2D_mass(nx,ny) // // // Calling Sequence // [A] = Laplace2D_mass(nx, ny) // // Parameters // nx: // ny: // A: // // Description // // // Examples // // // See Also // // // Authors // n = nx*ny ii = [1:n]' indi = zeros(7*n,1) // prostor pro data indj = indi // trochu preceneno vals=ones(7*n,1)/12 // napred diagonalu vals(1:n) = ones(n,1)/2 indi(1:n) = ii indj(1:n) = ii cnt = n // pocitam si kolik je opravdu obsazeno // ted obe vedlejsi diagonaly indi(n+1:2*n-1)=ii(1:n-1) indj(n+1:2*n-1)=ii(2:n) indi(2*n:3*n-2)=ii(2:n) indj(2*n:3*n-2)=ii(1:n-1) cnt = cnt + n+n-2 // ted ty vzdalenejsi indi(cnt+1:cnt+n-nx)=ii(1:n-nx) indj(cnt+1:cnt+n-nx)=ii(nx+1:n) cnt = cnt + n-nx indi(cnt+1:cnt+n-nx)=ii(nx+1:n) indj(cnt+1:cnt+n-nx)=ii(1:n-nx) cnt = cnt + n-nx indi(cnt+1:cnt+n-nx-1)=ii(2:n-nx) indj(cnt+1:cnt+n-nx-1)=ii(nx+1:n-1) cnt = cnt + n-nx-1 indi(cnt+1:cnt+n-nx-1)=ii(nx+1:n-1) indj(cnt+1:cnt+n-nx-1)=ii(2:n-nx) cnt = cnt + n-nx-1 // ted nastavit matici A=sparse([indi(1:cnt), indj(1:cnt)], vals(1:cnt), [n,n]) // ted smazat ty krizove prvky for i=1:ny-1 i1 = i*nx A(i1,i1+1)=0 A(i1+1,i1)=0 A(i1,i1+nx-1)=0 A(i1+nx-1,i1)=0 end endfunction // konstruuje diskretizaci dvourozmeneho Laplace function [A] = Laplace2D(nx,ny) n = nx*ny ii = [1:n]' indi = zeros(5*n,1) // prostor pro data indj = indi // trochu preceneno vals=-ones(5*n,1) // napred diagonalu vals(1:n) = 4*ones(n,1) indi(1:n) = ii indj(1:n) = ii cnt = n // pocitam si kolik je opravdu obsazeno // ted obe vedlejsi diagonaly indi(n+1:2*n-1)=ii(1:n-1) indj(n+1:2*n-1)=ii(2:n) indi(2*n:3*n-2)=ii(2:n) indj(2*n:3*n-2)=ii(1:n-1) cnt = cnt + n+n-2 // ted ty vzdalenejsi indi(cnt+1:cnt+n-nx)=ii(1:n-nx) indj(cnt+1:cnt+n-nx)=ii(nx+1:n) cnt = cnt + n-nx indi(cnt+1:cnt+n-nx)=ii(nx+1:n) indj(cnt+1:cnt+n-nx)=ii(1:n-nx) cnt = cnt + n-nx // ted nastavit matici A=sparse([indi(1:cnt), indj(1:cnt)], vals(1:cnt), [n,n]) // ted smazat ty krizove prvky for i=1:ny-1 i1 = i*nx A(i1,i1+1)=0 A(i1+1,i1)=0 end endfunction
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BiteKirby3/Math-is-so-fun
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fpdf.sci
function [fp] = fpdf (myfun, x0, h) //myfun=myf fp = (myfun(x0+h)-myfun(x0-h))/(2*h) endfunction
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/UE/S1/bin/bin/ANALYSE/FactLU.sci
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no_license
GuangYueCHEN/ENSIIE
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refs/heads/master
2021-06-30T21:50:49.946086
2019-06-18T09:53:36
2019-06-18T09:53:36
114,696,410
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sci
FactLU.sci
function [L,U]=FactLU(A) n=size(A,1) L=eye(n,n) U=zeros(n,n) for i=1:n-1 for j=i:n sum1=0 for k=1:i-1 sum1=sum1+L(i,k)*U(k,j) end U(i,j)=A(i,j)-sum1; end for j=i+1:n sum2=0 for k=1:i-1 sum2=sum2+L(j,k)*U(k,i) end L(j,i)=(1/U(i,i))*(A(j,i)-sum2) end end sum3=0 for k=1:n-1 sum3=sum3+L(n,k)*U(k,n) end U(n,n)=A(n,n)-sum3 endfunction
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/405/CH8/EX8.12/8_12.sce
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FOSSEE/Scilab-TBC-Uploads
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refs/heads/master
2020-04-09T02:43:26.499817
2018-02-03T05:31:52
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8_12.sce
clear; clc; printf("\t\t\tExample Number 8.12\n\n\n"); // network for gas radiation between parallel plates // Example 8.12 (page no.-422-423) // solution T1 = 800;// [K] temperature of first plate E1 = 0.3;// emissivity T2 = 400;// [K] temperature of second plate E2 = 0.7;// emissivity Eg = 0.2;// emissivity of gray gas tg = 0.8;// transmissivity of gray gas sigma = 5.669*10^(-8);// [W/square meter K^(4)] // the network shown in figure 8-39(page no.-419) applies to this problem. all the shape factors are unity for large planes and the various resistors can be computed on a unit area basis as F12 = 1; F1g = 1; F2g = F1g; R1 = (1-E1)/E1; R2 = (1-E2)/E2; R3 = 1/(F12*(1-Eg)); R4 = 1/(F1g*Eg); R5 = 1/(F2g*Eg); Eb1 = sigma*T1^(4);// [W/square meter] Eb2 = sigma*T2^(4);// [W/square meter] // the equivalent resistance of the center "triangle" is R = 1/[(1/R3)+(1/(R4+R5))]; // the total heat transfer is then q_by_A = (Eb1-Eb2)/(R1+R2+R);// [W/square meter] // if there were no gas present the heat transfer would be given by equation (8-42): q_by_A1 = (Eb1-Eb2)/[(1/E1)+(1/E2)-1];// [W/square meter] // the radiosities may be computed from q_by_A = (Eb1-J1)*(E1/(1-E1)) = (J2-Eb2)*(E2/(1-E2)) J1 = Eb1-q_by_A*((1-E1)/E1);// [W/square meter] J2 = Eb2+q_by_A*((1-E2)/E2);// [W/square meter] // for the network Ebg is just the mean of these values Ebg = (J1+J2)/2;// [W/square meter] // so that the temperature of the gas is Tg = (Ebg/sigma)^(1/4);// [K] printf("the heat-transfer rate between the two planes is %f W/square meter",q_by_A); printf("\n\n the temperature of the gas is %f K",Tg); printf("\n\n the ratio of heat-transfer with presence of gas to without presence of gas is %f",q_by_A/q_by_A1);
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/scilab/for_clothoids/several_clothoids.sce
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red-itmo/lego-car-movement-control
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refs/heads/master
2018-12-22T08:32:20.637335
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2018-09-30T14:38:52
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several_clothoids.sce
////////////////////////////////////////////////////////////// //// Files plots several clothoids with identical "phase" //// //// and different alphas //////////////////////////////////// ////////////////////////////////////////////////////////////// // different clothoids calculating k = 1; gamm = 1; for j = 1:20 alpha = j / 10 / 2; clear x y i = 1; for s = 0:0.01:(sqrt(2*%pi / abs(alpha))) x(i) = X(gamm, alpha, s); y(i) = Y(gamm, alpha, s); i = i+1; end xe(k) = x($); ye(k) = y($); k = k + 1; plot2d(x, y, j); end // lime through last points regr = [xe, ones(xe)]; plot2d(xe, ye); disp(pinv(regr)*ye, "k1, k0 =");
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/quality/test/garant6x/Ознакомительная_версия.TST
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bravesoftdz/realwork
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//Page Number: 11.13 //Example 11.3 clc; //As H(X) is maximum when //Px1=Px2=1/2 Px=[0.5 0.5]; //As H(X)=-Sum of[P(xi)log2P(xi)] //Where i=0 to n; HofX=0; for i=1:2 HofX=HofX+(Px(i)*log2(Px(i))); end disp('b/symbol',-HofX,'Maximum H(X):');
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//chapter 5 //example 5.21 //page 227 printf("\n") printf("given") Vcc=15;Rc=3.3*10^3;Vbe=.7;Rb=56*10^3; Ic=Vcc/Rc Ib=(Vcc-Vbe)/Rb hFE=Ic/Ib; printf(" minimum hFE is %3.2f\n",hFE)
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// Copyright (c) 2017, Linz Center of Mechatronics GmbH (LCM) http://www.lcm.at/ // All rights reserved. // // This file is licensed according to the BSD 3-clause license as follows: // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // * Neither the name of the "Linz Center of Mechatronics GmbH" and "LCM" nor // the names of its contributors may be used to endorse or promote products // derived from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED // WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. // IN NO EVENT SHALL "Linz Center of Mechatronics GmbH" BE LIABLE FOR ANY // DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES // (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; // LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND // ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // This file is part of X2C. http://www.mechatronic-simulation.org/ // $LastChangedRevision: 1111 $ // $LastChangedDate:: 2017-02-28 14:18:07 +0100#$ // // Function to create java test templates for CUnit testing. // Parameters: // libName - Library name // blockObj - Java X2C block object // varargin - (optional) project root directory for external blocks function [] = createTestTemplate(libName, blockObj, varargin) funcprot(0); // import necessary java classes jimport at.lcm.x2c.core.structure.ControlBlock; jimport at.lcm.x2c.blocktest.TestTemplateWriter; try existingImpNames = jinvoke(blockObj, "getExistingImplementationNames"); [NrOfImpl dummy] = size(existingImpNames); for j=1:NrOfImpl curImp = jinvoke(blockObj, "getExistingImplementation", existingImpNames(j)); if length(varargin) == 0 then // internal library testWriter = jnewInstance(TestTemplateWriter, blockObj, jinvoke(curImp, "getName")); elseif length(varargin) == 1 then // external library testWriter = jnewInstance(TestTemplateWriter, blockObj, jinvoke(curImp, "getName"), varargin(1)); else error("Invalid number of input arguments"); end jinvoke(testWriter, "writeTemplate"); mprintf("Test template for " + jinvoke(curImp, "getFullName") + " created.\n"); end catch disp("Error creating test templates for block " + jinvoke(blockObj, "getName") + ": " + lasterror()); end endfunction
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// @Harness: verifier // @Purpose: "Test that no addressing mode has more operands than others in unification" // @Result: "MissingOperandInAddrModeUnification @ 9:22" architecture extra_op_01 { operand-type A[5]: int [0,31]; addr-mode A1 { } addr-mode A2 a: A { } addr-set AS { A2, A1 } }
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clc clear //Initialization of variables p1=40 //psia t1=80 //F p2=30 //psia ar=0.5 //sq ft v1=200 //ft/s R=53.35 cp=0.24 g=32.17 J=778 //calculations rho1=144*p1/(R*(t1+460)) G=rho1*v1 h10= cp*t1 + p1^2 /(2*g*rho1^2 *J) t2=78 //F h2=cp*t2 g2=h10-h2 rho2=sqrt(p1^2 /(2*g*g2*J)) P2=rho2*R*(t2+460)/144 ds2=cp*log((t2+460)/(t1+460)) - R/J *log(P2/p1) t3=77 //F h3=cp*t3 g3=h10-h3 rho3=sqrt(p1^2 /(2*g*g3*J)) P3=rho3*R*(t3+460)/144 ds3=cp*log((t3+460)/(t1+460)) - R/J *log(P3/p1) t4=79 //F h4=cp*t4 g4=h10-h4 rho4=sqrt(p1^2 /(2*g*g4*J)) P4=rho4*R*(t4+460)/144 ds4=cp*log((t4+460)/(t1+460)) - R/J *log(P4/p1) h5=18.62 t5=h5/cp Gv=[h4 h2 h3] Pv=[P4 P2 P3] Sv=[ds4 ds2 ds3] scf(1) xtitle("Fanno line diagram , Enthalpy vs Entropy","Entropy","Enthalpy Btu/lb") plot(Sv,Gv) scf(2) xtitle("Fanno line diagram , Pressure vs Entropy","Entropy","Pressure psia") plot(Sv,Pv) //results printf("Temperature at exit = %.1f F",t5)
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clc; //page no 8-54 //Example 8.15 fsmax=1650; fsmin=525;//in kHz SFR=fsmax/fsmin; disp(SFR,'Signal frequency ratio is'); //Rounding off SRF to 3.14 SFR1=3.14; C=(SFR1)^2; disp(C,'Capacitance ratio is'); Comin=50; Comax=450;//in pF //For trimmer capacitor //Comax/Comin=(Csmax+CT)/(Csmin+CT) //450/50=(Csmax+CT)/(Csmin+CT) //By solving this //Csmax-9*Csmin=200 //Csmax-9.86*Csmin=0 //Solving we get Csmin=232.55; Csmax=2293; disp(+'pF',Csmin,'Csmin='); disp(+'pF',Csmax,'Csmax='); //For padder capacitor //Comax/Comin=(Csmax/Csmin)*(Csmin+Cp)/(Csmax+Cp) //9=9.86*(232.55+Cp)/(2293+Cp) //Solving this Cp=21330; disp(+'pF',Cp,'Padder Capacitor vlue is');
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// EXAMPLE1 (PG 76) // f(x) = x^20 - 1 // solving using Muller's method xset('window',1); x=-2:.01:4; // defining the range of x. deff('[y]=f(x)','y=x^20-1'); //defining the cunction. y=feval(x,f); a=gca(); a.y_location = "origin"; a.x_location = "origin"; plot(x,y) // instruction to plot the graph title(' y = x^20-1') // from the above plot we can infre that the function has roots between // the intervals (0,1),(2,3). //sollution by muller method to 3 iterations. muller(0,.5,1,f)
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//clear// clear; clc; //Example 24.2 //Given X1 = 0.25; X = 0.05; Dvprime = 8.3*10^-6; //[cm^2/s] D = 25.4; //[mm] //Solution s = D/(2*10); //[cm] tT = 4*s^2/(%pi^2*Dvprime)*log(8*X1/(%pi^2*X))/3600; //[h] disp('h',tT,'drying time is')
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//i/p arg x is a vector x=[1 2 3 4 5 7 89 8]; fc=100; fs=500; y = modulate(x,fc,fs,'am'); disp(y); //output // column 1 to 4 // // 1. 0.6180340 - 2.427051 - 3.236068 // // column 5 to 8 // // 1.545085 7. 27.502512 - 6.472136 //
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//Example 5.6 clc disp("The given values are,") disp("P = 4, f = 50 Hz, R2 = 0.2 ohm, X2 = 1 ohm") disp("Now open circuit e.m.f between slip rings means rotor induced e.m.f on standstill. As long as rotor is open, there cannot be rotor current rotation of rotor. And between the slip rings means its a line value of E2, for a star connected rotor. The open circuit e.m.f is shown in fig.5.15") disp("Therefore, E_2line = 120 V, for star E_2line = sqrt(3)*E_2ph") e2=120/sqrt(3) format(6) disp(e2,"Therefore, E_2ph(in V) = E_2/sqrt(3) =") ns=(120*50)/4 format(5) disp(ns,"N_s(in r.p.m) = 120f/P =") disp("(i) At start,") cp=0.2/(sqrt((0.2^2)+1)) format(6) disp(cp,"cos(phi) = R2/Z2 = R2 / sqrt(R2^2+X2^2) =") i2=69.28/(sqrt((0.2^2)+1)) disp(i2,"I2(in A/phase) = E2/Z2 = E2 / sqrt(R2^2+X2^2) =") disp("(ii) On full load, N = 1440 r.p.m") s=(1500-1440)/1500 format(5) disp(s,"Therefore, s = N_s-N / N_s =") cpr=0.2/(sqrt((0.2^2)+(0.04^2))) format(7) disp(cpr,"Therefore, cos(phi)_2r = R2/Z_2r = R2 / sqrt(R2^2+(s*X2)^2) =") i2r=(0.04*69.28)/(sqrt((0.2^2)+(0.04^2))) disp(i2r,"Therefore, I_2r(in A) = E_2r/Z_2r = s*E2 / sqrt(R2^2+(s*X2)^2) =") disp("It can be observed that current is drastically reduced from its value at start. In the running condition, slip controls and limits the magnitude of the motor current")
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clc; clear; format('e',11); a=0.05; b=0.04; c=0.03; v=3*10^8; p=1; //for m=0,n=1. m=0; n=1; fr011=v/2*sqrt((m/a)^2+(n/b)^2+(p/c)^2); disp(fr011,"fr011(in Hz)="); //for m=1,n=0. m=1; n=0; fr101=v/2*sqrt((m/a)^2+(n/b)^2+(p/c)^2); disp(fr101,"fr101(in Hz)=");
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//Example 6.19 //PID compensation design for spacecraft attitude control. xdel(winsid())//close all graphics Windows clear; clc; //------------------------------------------------------------------ //System transfer function s=poly(0,'s'); G1=(0.9/s^2); G2=(2/(s+2)); G=G1*G2; Gs=syslin('c',G); // PID controller parameters Td_inv=0.1; // Td_inv=1/Td=0.1 Kd=1/Td_inv; //Kd=Td=Td_inv (derivative gain) Ti_inv=0.005; // Ti_inv=1/Ti=0.005 Ki=Ti_inv; //Ki=Ti_inv (integral gain) Kp=0.05 //Kp (Proportional gain) D=Kp*(Kd*s+1)*(Ki/s+1); //PID Compensator Dsc=syslin('c',D); Ds=syslin('c',D/Kp); //PID Compensator with Kp=1 // Compensated system with Kp=1 GDs=Gs*Ds; //PID compensated system Kp=0.05; GDsc=Gs*Dsc; //------------------------------------------------------------------ //The bode plots bode([Gs;GDs;GDsc],0.01/2/%pi,100/2/%pi,... ['G(s)';'D(s)G(s) with (Kp=1)';'D(s)G(s) with (Kp=0.05)'],"rad"); exec .\fig_settings.sci; //custom script for setting figure properties title('Compensation for PID design','fontsize',3) //Phase margin of pid compensated system with Kp=0.05; [pm wcp]=p_margin(GDsc); //------------------------------------------------------------------ //closed loop system //step response Gc=GDsc/(GDsc+1); figure; t=0:0.05:40; y=csim('step',t,Gc); plot(t,y,2) //Title, labels and grid to the figure exec .\fig_settings.sci; //custom script for setting figure properties title('Step response for PID compensation of spacecraft'... ,'fontsize',3) xlabel('Time t (sec.)','fontsize',2) ylabel('$theta$','fontsize',2) //------------------------------------------------------------------ //step disturbance response Gc=G1/((G1*G2*D)+1); Gcs=syslin('c',Gc); figure; t=0:0.5:1000; u=0.1*ones(1,length(t)); y=csim(u,t,Gcs) plot(t,y,2) //Title, labels and grid to the figure exec .\fig_settings.sci; // custom script for setting figure properties title('Step disturbance response for PID compensation... of spacecraft','fontsize',3) xlabel('Time t (sec.)','fontsize',2) ylabel('$theta$','fontsize',2) //------------------------------------------------------------------
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// exa 5.4 Pg 151 clc;clear;close; // Given Data D=0.75;//m ps=1.55;// N/mm.sq eta_l=0.75;// efficiency sigma_t=90;// MPa sigma_c=140;// MPa tau=56;// MPa n=2;// no. of rivets printf('DESIGNING LONGITUDINAL JOINT - \n') printf('\n Plate Thickness') t = ps*D*1000/2/sigma_t/eta_l+1;// mm printf(', t = %.2f mm',t) t=ceil(t);//mm (adopted for design) printf('\n use t = %d mm',t) printf('\n Diameter of rivet hole, do = ') d0=6*sqrt(t);//mm (for t>8 mm) printf('%.2f mm',d0) d0=19.5;// suggested for design printf('\n Use do = %.1f mm',d0) printf('\n Diameter of rivet, d = ') d=d0-1.5;//mm printf('%.2f mm',d) printf('\n Pitch of rivets, p = ') Ps=(2*1.875)*%pi/4*d0**2*tau;// N // Putting Pt=Ps where Pt=(p-d0)*t*sigma_t;// N Pt=Ps;//N p=Pt/(t*sigma_t)+d0;// N printf('%.2f mm',p) C=3.5;// for 2 no. of rivets pmax=C*t+40;// mm (as per IBR) printf('\n as per IBR-\n pitch, pmax = %.f mm',pmax) p=75;// mm (adopted for design) printf('\n Use p = %.f mm',p) //Distance between rows of rivets dis=0.33*p+0.67*d0;// mm printf('\n distance between rows of rivets = %.1f mm',dis) dis=40;//mm (adopted for design) printf('\n take & use this distance = %.f mm', dis) printf('\n Thickness of butt strap, t= ') t1=0.625*t;// mm printf(' %.2f mm',t1) t1=7;// mm (adopted for design) printf('\n Use thickness = %.f mm',t1) //margin m=ceil(1.5*d0);// mm printf('\n margin, m = %.f mm',m) // Efficiency of joint Pt=(p-d0)*t*sigma_t;// N Ps=Ps;// N (shearing resistance of rivets) Pc=n*d0*t*sigma_c;// N (crushing resistance of rivets) sigma_com = (p-2*d0)*t*sigma_t+%pi/4*d0**2*tau;// N printf('\n strength of the joint = %d N',Pt) P=p*t*sigma_t;//N (strength of solid plate) printf('\n strength of solid plate = %d N',P) eta_l=Pt/P*100;// % (efficiency) printf('\n Efficiency of joint, eta_l = %.2f %% = 75 %% as given',eta_l)
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function [stk,txt,top]=sci_lookfor() // Copyright INRIA txt=[] stk=list('apropos('+stk(top)(1)+')','0','0','0','0')
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errcatch(-1,"stop");mode(2);//Ex:1.20 ; ; v=4;//in volts r=100;//in ohms p=(v^2)/r; printf("Power dissipated = %f watts",p); exit();
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//Page Number: 371 //Example 7.3 clc; //Given Pout=250D+3; //W V0=25D+3; //V I0=25; //A ebym=1.76D+11; B0=0.035; //T a=4D-2; //m b=8D-2; //m //(i) Efficiency n=Pout/(V0*I0); disp('%',n*100,'Efficiency:'); //(ii) Cyclotron frequency f=(ebym*B0)/(2*%pi); disp('Ghz',f/10^9,'Cyclotron frequency:'); //(iii) Cut off magnetic field x=(b/((b*b)-(a*a)))^2; y=((8*V0*x)/ebym); B=sqrt(y); disp('mT',B*1000,'Cut off magnetic field:'); //(iv) Cut off voltage V=(ebym*B0*B0)/(8*x); disp('KV',round(V/1000),'Cut off voltage:'); //Answer for Cyclotron frequency is is given as 9.8GHz but it should be 0.98 GHz as value of B0=0.035 not 0.35 as taken in part 2
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// Example 7.4 clear all; clc; // Using the result of Example 7.1 lp = 1e-4; // Prompt neutron lifetime in seconds // Using the result of Example 7.3 rho = 1e-3; // Reactivity // By referring to Figure 7.2 printf(" \n Reactor period = 57 seconds \n");
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// Example 4.5: drain resisitance clc, clear Id=0.4; // drain current in mili-ampere Vd=1; // drain voltage in volts Vs=-5; // dc voltage in volts Vss=-3; // dc voltage in volts Vdd=5; // dc voltage in volts MuCox=20; // in micro-ampere/volts W=400; // in micro-metre l=10; // in micro-metre Id=((1/2)*(MuCox)*(W/l)); Rs=(Vss-Vs)/(Id*10^-3); Rd=(Vdd-Vd)/(Id*10^-3); disp("The values of the resistances are as follows : "); disp("Resistance Rs is "+string(Rs)+" Kohm"); disp("Resistance Rd is "+string(Rd)+" Kohm");
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function []=xsetm() // Changing graphic context with x_choices // Copyright INRIA if driver()<>"Rec" & driver()<>"X11" then write(%io(2),"xsetm works with X11 or Rec driver only") return; end AlusIds=["0","src & dst","src & ~dst","src","~src & dst","dst",... "src XOR dst","src OR dst","~src & ~dst","~src XOR dst",... "~dst","src OR ~dst","~src","~src OR dst",... "~src OR ~dst","1"]; num_cols=xget("lastpattern"); colors=string(1:num_cols+2); patterns=['black','pat 1','pat 2','pat 3','pat 4','pat 5','pat 6','pat 7',... 'pat 8','pat 9','pat 10','pat 11','pat 12','pat 13','pat 14','pat 15','white']; fontsSiz=['08' ,'10','12','14','18','24']; fontsIds=[ 'Courrier', 'Symbol', 'Times ', 'Times Italic', 'Times Bold', 'Times B. It.']; marksIds=['.','+','x','*','diamond fill.','diamond','triangle up','triangle down','trefle','circle']; DashesIds=['Solid','-2- -2-','-5- -5-','-5- -2-','-8- -2-','-11- -2-','-11- -5-']; ff=xget('font'); mm=xget('mark'); col=xget('use color'); alu=xget('alufunction'); dsh=xget('dashes'); pat=xget('pattern'); th=xget('thickness'); pix_on=xget('pixmap'); lfid=list('fontId',ff(1)+1,fontsIds); lfiz=list('fontsize',ff(2)+1,fontsSiz); lmid=list('markId',mm(1)+1,marksIds); lmsiz=list('marksize',mm(2)+1,fontsSiz); lth=list('Thickness',th+1,string(1:20)); lpix=list('pixmap/flag',pix_on+1,['Off','On']); lcol=list('use color',col+1,['No','Yes']); ldash=list('dashes',dsh(1)+1,DashesIds); lpat=list('patterns',pat,patterns); lcols=list('colors',pat,colors); lalu=list('alufunction',alu+1,AlusIds); winid=xget("window"); if col==1 then // On est en couleur xch_l = list(lfid,lfiz,lmid,lmsiz,lth,lpix,lcol,lcols,lalu); entval=[lfid(2),lfiz(2),lmid(2),lmsiz(2),lth(2),lpix(2),lcol(2),lcols(2),lalu(2)]; rep=x_choices('Graphic context of graphic window '+string(winid),xch_l); if rep<>[] then if or(rep<>entval) then rep=rep-ones(rep); if rep(7)==0 then // On passe de couleur a n&b le changement de use color // doir remettre pattern et dash a z'ero xset("use color",rep(7)); else // On reste en couleur ( attention au + 1) xset("pattern",rep(8)+1); end xset("alufunction",rep(9)); xset("font",rep(1),rep(2)); xset("mark",rep(3),rep(4)); xset("thickness",rep(5)); xset("pixmap",rep(6)); end end else // On est en n&b xch_l = list(lfid,lfiz,lmid,lmsiz,lth,lpix,lcol,ldash,lpat,lalu); entval=[lfid(2),lfiz(2),lmid(2),lmsiz(2),lth(2),lpix(2),lcol(2),ldash(2),lpat(2),lalu(2)]; rep=x_choices('Graphic context of graphic window '+string(winid),xch_l); if rep<>[] then if or(rep<>entval) then rep=rep-ones(rep); if rep(7)==1 then // On passe de n&b a couleur le changement de use color // doir remettre pattern et dash a z'ero xset("use color",rep(7)); else // On reste en n& b xset("pattern",rep(9)+1); xset("dashes",rep(8)); end xset("alufunction",rep(10)); xset("font",rep(1),rep(2)); xset("mark",rep(3),rep(4)); xset("thickness",rep(5)); xset("pixmap",rep(6)); end end end
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3fb2b65e8ef9208e822aad35c618441282e08a30
/MetodeNumerik/interpolasi dan polinom/interpolasi_lagrangre.sce
82e19e4bc31dce0ff146b0cb44f978ce2bfd7f04
[]
no_license
Lukmannudin/TugasKuliah
33031fb4f6ff0ab7a5849cda3ea15330e2527c3f
19738c858dea539f0a5569f27be68b1a56c2aa89
refs/heads/master
2020-03-07T15:49:59.414761
2018-06-09T07:41:39
2018-06-09T07:41:39
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null
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sce
interpolasi_lagrangre.sce
function lagrangre() endfunction