10 STATICS 10.6 Jointed rods
NSetting the net horizontal force on the rod to zero gives
Y 1 + Y 3 = 0.Setting the net vertical force on the strut to zero yields
X 2 − X 3 = 0.Finally, setting the net horizontal force on the strut to zero yields
Y 2 − Y 3 = 0.The above equations can be solved to give
−Y 1 = Y 2 = Y 3 = Y,and
with
X 2 = X 3 = X,X 1 = m g − X.There now remain only two unknowns, X and Y.
Setting the net torque acting on the rod about the point where it is connectedto the wall to zero, we obtain
m g l/2 − X 3 l = 0,where l is the length of the rod. Here, we have used the fact that the centre of
gravity of the rod lies at its mid-point. The above equation implies that
X 3 = X = m g/2 = 15 × 9.81/2 = 73.58 N.We also have X 1 = m g − X = 73.58 N. Setting the net torque acting on the strut
about the point where it is connected to the wall to zero, we find
Y 3 h sin θ − X 3 h cos θ = 0,where h is the length of the strut. Thus,
Y 3 = Y =Xtan θ=73.58
127.44.
tan 30 ◦In summary, the vertical reactions are X 1 = X 2 = X 3 = 73.58 N, and the hori-zontal reactions are −Y 1 = Y 2 = Y 3 = 127.44 N.
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