What is the tension in a rod of length length L and mass M at a distance y from`F_(1)` when the rod is acted on by two unequal force `F_(1)` and `F_(2) ( lt F_(1))` as shown in.

Two forces F_(1) " and " F_(2) are acting on a rod abc as shown in figure.

For the system shown in fig, there is no friction anywhere. Masses m_(1) and m_(2) can move up or down in the slots cut in mass M. Two non-zero horizontal force F_(1) and F_(2) are applied as shown. The pulleys are massles and frictionless. Given m_(1) != m_(2) Let F_(1) and F_(2) are applied in such a way that m_(1) and m_(2) do not move w.r.t. M. then what is the magnitude of the acceleration of M? Let m_(1) gt m_(2) .

The length of a metal wire is l_(1) when the tension in it is F_(1) and l_(2) when the tension becomes F_(2) . Find the natural length of wire.

When a force F acs on a body of mass m the acceleration product in the body is a . If htree equal forces F_(1)=F_(2)=F_(3)=F act on the same body as shown in figure the accleration produced is

A mass m is at a distance a from one end of a uniform rod of length l and mass M. Find the gravitational force on the mass due to tke rod.

A uniform rope of mass (m) and length (L) placed on frictionless horizontal ground is being pulled by two forces F_(A) and F_(B) at its ends as shown in the figure. As a result, the rope accelerates toward the right. Acceleration (A) of the rope is

A 100 N uniforms rod of length 6I is supported by two forces F_1 and F_2 as shown here. What is the ratio for F_1 to F_2 ?