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+clc;

+// 1 and 2 subscripts are used for transformer 1 and transformer 2

+// P and S are used for primary and secondary winding

+E=230; // Rated primary voltage of both transformer 

+disp('case 1'); 

+R=0; // load conneted across secondary of transformer 1

+// R=0 means winding is short circuited, therefore voltage across S1 is zero, therefore whole voltage is applied across s2 therefore

+printf('Reading of voltmeter for R=%f is %f v\n',R,E);

+disp('case 2');

+R=115; // load conneted across secondary of transformer 1

+// A resistance of 115 ohm should cause a current of 1 A because voltage across P1 is 115 v but this means that P1 and P2 carrying 1A current . According to this voltage across P2 is magnetizing impedance of transformer 2 times magnetizing current. But magnetizing impedance is very large, due to this voltage across P2 rises much above 115 v and voltage across P1 falls, due to which magnetizing    current through S1 decreases.

+disp('Voltmeter reading is much more than 115 v but less than 230 v. Let it be Vb');

+disp('case 3');

+R=1000; //  load conneted across secondary of transformer 1

+// For R=1000 ohm , current in P1 and S1 are reduced. Hence current in P2 is also reduced. Therefore voltage across P2 is also reduced but still it is more than 115 v

+disp('Voltmeter reading is more than 115 v but less than Vb');

+disp('case 4');

+// for R=infinity S1 is open circuited, therefore voltage across P1=115 v and P2=115 v

+disp('Reading of voltmeter is 115 v');

+

+