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+// Calculating the net iron area and window area
+clc;
+disp('Example 5.9, Page No. = 5.82')
+// Given Data
+Q = 400;// kVA rating
+f = 50;// Frequency (in Hz)
+Bm = 1.5;// Maximum flux density of core (in Wb per meter square)
+Kw = 0.12;// Copper space factor
+s = 2.2;// Current density (in Ampere per mm square)
+gc = 8.9*10^(3);// Density of copper (in kg per meter cube)
+gi = 7.8*10^(3);// Density of iron (in kg per meter cube)
+R1 = 0.5;// Ratio of length of mean turn of copper to length of mean flux path
+R2 = 4;// Ratio of weight of iron to weight of copper
+// Calculation of the net iron area
+C = (1/2.22*R1*gc/gi*10^(3))^(1/2);// Flux (in Wb)
+Ai = C*(Q*R2/(f*Bm*s*10^(6)))^(1/2);// Net iron area (in meter square)
+disp(Ai,'Net iron area (meter square)=');
+// Calculation of the net window area
+Aw = Q/(2.22*f*Bm*Kw*s*10^(6)*Ai*10^(-3));// Window area (in meter square)
+disp(Aw,'Window area (meter square)=');
+//in book answers are 0.0478 (meter square) and 0.183 (meter square) respectively. The answers vary due to round off error