1 files changed, 60 insertions, 0 deletions

diff --git a/Working_Examples/154/CH12/EX12.2/ch12_2.sce b/Working_Examples/154/CH12/EX12.2/ch12_2.sce
new file mode 100755
index 0000000..a5eb3dc
--- /dev/null
+++ b/Working_Examples/154/CH12/EX12.2/ch12_2.sce
@@ -0,0 +1,60 @@
+clc

+disp("Example 12.2")

+printf("\n")

+

+printf("Given")

+disp("The system ABC is DELTA connected")

+disp("Effective line voltage is 120V")

+disp("The three impedances are 5(45 deg)")

+Zmag=5;Zph=45;

+//Let maximum line voltage is Vmax

+Vmax=120*sqrt(2)

+//From fig 12.7(a)

+//VAB=Vmax(120 deg)

+//VBC=Vmax(0 deg)

+//VCA=Vmax(240 deg)

+

+//From figure 12.8

+IABmag=Vmax/Zmag

+IABph=120-Zph

+printf("IAB=%3.2f(%d deg)\n",IABmag,IABph);

+

+IBCmag=Vmax/Zmag

+IBCph=0-Zph

+printf("IBC=%3.2f(%d deg)\n",IBCmag,IBCph);

+

+ICAmag=Vmax/Zmag

+ICAph=240-Zph

+printf("ICA=%3.2f(%d deg)\n",ICAmag,ICAph);

+

+//Applying KCL equation 

+//IA=IAB+IAC

+//IB=IBC+IBA

+//IC=ICA+ICB

+

+x=IABmag*cos((IABph*%pi)/180);

+y=IABmag*sin((IABph*%pi)/180);

+z=complex(x,y)

+

+x1=ICAmag*cos((ICAph*%pi)/180);

+y1=ICAmag*sin((ICAph*%pi)/180);

+z1=complex(x1,y1)

+

+x2=IBCmag*cos((IBCph*%pi)/180);

+y2=IBCmag*sin((IBCph*%pi)/180);

+z2=complex(x2,y2)

+

+IA=z-z1;

+[RA,ThetaA]=polar(IA)

+

+IB=z2-z;

+[RB,ThetaB]=polar(IB)

+

+IC=z1-z2

+[RC,ThetaC]=polar(IC)

+

+disp("Therefore")

+

+printf("\nIA=%3.2f(%d deg)A\n",RA,ThetaA*(180/%pi));

+printf("\nIB=%3.2f(%d deg)A\n",RB,ThetaB*(180/%pi));

+printf("\nIC=%3.2f(%d deg)A\n",RC,ThetaC*(180/%pi));
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