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diff --git a/2459/CH12/EX12.15/Ex12_15.sce b/2459/CH12/EX12.15/Ex12_15.sce
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+//chapter12

+//example12.15

+//page252

+

+R_C=2.2 // kilo ohm

+V_CC=9 // V

+gain_beta=50

+V_BE=0.3 // V

+I_C=2 // mA

+V_CE=3 // V

+

+I_B=I_C/gain_beta

+I1=10*I_B

+

+// I1=V_CC/(R1+R2) so let Rt=R1+R2 thus we get

+Rt=V_CC/I1

+

+// by Kirchoff voltage law to collector side we get

+// V_CC=I_C*R_C+V_CE+I_E*R_E and also we have I_C=I_E so

+// V_CC=I_C*R_C+V_CE+I_C*R_E so making R_E as subject we get

+R_E=((V_CC-V_CE)/I_C)-R_C // in kilo ohm

+

+V2=V_BE+I_C*R_E // since V_E=I_C*R_E

+R2=V2/I1

+R1=Rt-R2

+

+printf("emitter resistance = %.3f ohm \n",R_E*1000)

+printf("R1 = %3f kilo ohm \n",R1)

+printf("R2 = %3f kilo ohm \n",R2)