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diff --git a/3774/CH9/EX9.3/Ex9_3.sce b/3774/CH9/EX9.3/Ex9_3.sce
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+// exa 9.3 Pg 259
+clc;clear;close;
+
+// Given Data
+d=10;// mm
+p=3;// mm
+mu=0.15;// coefficient of thread friction
+mu_c=0.20;// coefficient of collar friction
+dc=15;// mm
+F=60;// N
+W=4;// kN
+two_beta=30;// degree
+h=25;// mm
+lf=150;// mm (screw free length)
+
+dm=d-p/2;// mm
+alfa=atand(p/(%pi*dm));// degree
+mu_e=mu/cosd(two_beta/2);// virtual coefficient of friction
+fi=atand(mu_e);// degree
+Tf=W*10**3*dm/2*tand(alfa+fi);// N.mm
+Tc=mu_c*W*10**3/2*dc;// N.mm
+T=Tf+Tc;// N.mm
+//F*l=T
+l=T/F;// mm (Length of handle)
+printf('\n (a) Length of handle = %.1f mm',l)
+
+printf('\n\n (b) Maximum shear stress in screw')
+printf('\n Section 1-1 : ')
+dc=d-p;//mm
+tau=16*T/(%pi*dc**3);// N/mm.sq.
+M=F*lf;// N.mm
+sigma_b=32*M/(%pi*dc**3);// N/mm.sq.
+tau_max=sqrt((sigma_b/2)**2+tau**2);// MPa
+printf('\n Maximum shear stress = %.2f MPa',tau_max)
+printf('\n Section 2-2 : ')
+sigma_c=4*W*10**3/(%pi*dc**2);// N/mm.sq. (Direct compressive stress)
+tau2=16*Tc/(%pi*dc**3);//;// N/mm.sq. (Tortional shear stress)
+tau_max=sqrt((sigma_c/2)**2+tau2**2);// MPa
+printf('\n Maximum shear stress = %.2f MPa',tau_max)
+
+//h=n*p;// height of nut
+n=ceil(h/p);// no. of threads
+t=p/2;// mm (thickness of threads)
+pb=W*10**3/(%pi*dm*t*n);// MPa
+printf('\n\n (b) Bearing pressure on threads = %.1f MPa',pb)