A circus performer of mass M is walking along a wire as shown in the figure given above. The tension T in the wire is (g = acceleration due to gravity)

Three masses m, 2m and 3m are attached with light string passing over a fixed frictionless pulley as shown in the figure. The tension in the string between 2m and 3m is (g is acceleration due to gravity)

What is the effect of mass of the body on acceleration due to gravity (g)?

Total mechanical energy E of an object of mass m, at a height h above the ground is given by the relation E = mgh + p^2/(2m) Find the dimensions of p. (g = acceleration due to gravity).

Total mechanical energy E of an object of mass m, at a height h above the ground is given by the relation E = mgh + p^2/(2m) Find the dimensions of p. (g = acceleration due to gravity).

A needle of length l m and mass m kg is placed horizontal on wter surface habing surface tension T Find T in terms of m, l (g acceleration due to gravity)

A needle of length l m and mass m kg is placed horizontal on wter surface habing surface tension T Find T in terms of m, l (g acceleration due to gravity)

A sonometer wire with a suspended mass of M=1 kg is in resononce with a given tuning fork. The apparatus is taken to the moon where the acceleration due to gravity is 1//6^(th) that on earth. To obtain resonance on the moon, the value of M should be

A sonometer wire with a suspended mass of M=1 kg is in resononce with a given tuning fork. The apparatus is taken to the moon where the acceleration due to gravity is 1//6^(th) that on earth. To obtain resonance on the moon, the value of M should be