// Ex 62 Page 403 clc;clear;close; // Given R=150;//ohm Vrms=200;//V Rd1=65;//ohm Rd2=140;//ohm Vm=Vrms/sqrt(2);//V //v=Vm*sin(theta) Rf=R+Rd1;//ohm Rb=R+Rd2;//ohm //i_f=v/Rf;//A //i_b=v/Rb;//A Irms=1/2/%pi*(integrate('(sqrt(2)*sin(theta))**2','theta',0,%pi)+integrate('(sqrt(2)/3*sin(theta))**2','theta',%pi,2*%pi)) Iav=1/2/%pi*(integrate('sqrt(2)*sin(theta)','theta',0,%pi)+integrate('sqrt(2)/3*sin(theta)','theta',%pi,2*%pi)) printf("reading of ammeter 1= %.2f A",Irms) printf("\n reading of ammeter 2 = %.2f A",Iav) P=1/2*(Vrms**2/Rf+Vrms**2/Rb);//W printf("\n\n Power taken from the mains = %.1f W",P) Pc=Irms**2*R;//W Pd=P-Pc;//W printf("\n Power dissipated in rectifying device = %d W",Pd) //Answer wrong in the textbook.