A trolley is falling freely on inclined plane as shown in the figure. The angle of string of pendulum with the ceiling of trolley is `(alpha)` equal to

A simple pendulum is suspended from the ceiling of trolley which is sliding down on a inclined plane of inclination theta Find the angle made by the string with normal to the trolley a) when trolley slides down with uniform velocity b) when the plane is smooth.

A simple pendulum is suspended from the ceiling of trolley which is sliding down on a inclined plane of inclination theta Find the angle made by the string with normal to the trolley a) when trolley slides down with uniform velocity b) when the plane is smooth.

A smooth rod length l is kept inside a trolley at an angle theta as shown in the figure. What should be the acceleration a of the trolley so that the rod remain in equilibrium with respect to it?

A smooth rod length l is kept inside a trolley at an angle theta as shown in the figure. What should be the acceleration a of the trolley so that the rod remain in equilibrium with respect to it?

A trolley is being pulled up an incline plane by a man sitting on it ( as shown in figure). He applies a force of 250 N. If the combined mass of the man and trolley is 100 kg, the acceleration of the trolley will be [sin 15^(@)=0.26]

A trolley is being pulled up an incline plane by a man sitting on it ( as shown in figure). He applies a force of 250 N. If the combined mass of the man and trolley is 100 kg, the acceleration of the trolley will be [sin 15^(@)=0.26]

A trolley is being pulled up an incline plane by a man sitting on it ( as shown in figure). He applies a force of 250 N. If the combined mass of the man and trolley is 100 kg, the acceleration of the trolley will be [sin 15^(@)=0.26]

A trolley is being up an incline plane by a man inside the trolley He applied a force of 500 N. If the mass of the man is 50 kg and trolley is 150 kg, then the acceleration of the trolley will be : ( g = 10 m//s^(2) )