A 50 Z 400 mm 150 mm 300 N 300 N 500 N 500 N 200 mm C 250 mm B Q
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The bending moment is the product of the force applied to the pulley and the distance between the force and the bearing. In this case, we have two forces applied to the pulleys: 300 N and 500 N. Let's assume that the distance between the force and the bearing for Show more…
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The shaft is supported at its ends by two bearings $A$ and $B$ and is subjected to the forces applied to the pulleys fixed to the shaft. Determine the resultant internal loadings acting on the cross section located at point $C$. The 300 -N forces act in the $-z$ direction and the 500 -N forces act in the $+x$ direction. The journal bearings at $A$ and $B$ exert only $x$ and $z$ components of force on the shaft.
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The shaft is supported at its ends by two bearings $A$ and $B$ and is subjected to the forces applied to the pulleys fixed to the shaft. Determine the resultant internal loadings acting on the cross section at point $C .$ The 400 -N forces act in the $-z$ direction and the 200 -N and 80 -N forces act in the $+y$ direction. The journal bearings at $A$ and $B$ exert only $y$ and $z$ components of force on the shaft.
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