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diff --git a/1808/CH1/EX1.8/Chapter1_Example8.sce b/1808/CH1/EX1.8/Chapter1_Example8.sce
new file mode 100644
index 000000000..c870273c4
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+++ b/1808/CH1/EX1.8/Chapter1_Example8.sce
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+clc

+clear

+//INPUT DATA

+no=0.5;//Air standard efficiency in percenatge

+nr=0.7;//relative efficiency in percenatge

+nm=80;//mechanical efficiency in percenatge

+cv=45000;//calorific value in kJ/kg

+BP=75;//Brake power in kW

+Ra=0.287;//Gas constant

+Ta=300;//suction temperature in K

+pa=1*100;//pressure in kN/m^2 

+Vs=0.10352;//swept volume in m^3/s

+N=2500;//speed in rpm

+nc=1;//number of cylinders

+n=2;//for four cylinders

+

+//CALCULATIONS

+Rc=(1/(1-no))^(1/(1.4-1));//copression ratio

+nit=(no*nr)*100;//Indicated thermal efficiency in percentage

+IP=(BP/nm)*100;//indicated power in kW

+mf=((IP*100)/(nit*cv));//mass fuel consumption in kg/s

+bsfc=(mf*3600)/BP;//Brake specific fuel consumption in kg/kWh 

+nbt=(BP/(mf*cv))*100;//Brake thermal efficiency in percentage

+ma=16*mf;//mass of air in kg/s

+va=(ma*Ra*Ta)/(pa);//actual volume of air consumption

+vs=va/no;//swept volume in m^3/s

+d=(4*60*n*vs/(3.14*1.5*N))^(1/3);//bore in m

+L=1.5*d;//stroke in m

+

+//OUTPUT

+printf('(i)Compression ratio is %3.3f \n(ii)Indicated thermal efficiency is %3.2f percentage \n (iii)Brake specific fuel consumption is %3.4f kg/kWh \n(iv)Brake thermal efficiency is %3.d percentage \n(v)bore %3.2f m \n stroke is %3.2f m',Rc,nit,bsfc,nbt,d,L)

+