A trolley of mass 8 kg is standing on a frictionless surface inside which an object of mass 2kg is suspended .A conatant force F starts acting on the trolley ,as a result of which the string stood at an angle of `37 ^(@)` from the vertical (bob at rest relative to troley ) then,

A bob of mass 1 kg is suspended from an inextensible string of length 1 m. When the string makes an angle 60^(@) with vertical, speed of the bob is 4 m/s Net acceleration of the bob at this instant is

A body of mass sqrt3 kg is suspended by a string to rigid support.The body is pulled horizontally by a force F until the string makes an angle of 30^(@) with the vertical.The value of F and tension in the string are

A mass of 10 kg is suspended from a spring balance, it is pulled aside by a horizontal string so that it makes an angle 60^(@) with the vertical. The new reading of the balance is:

A mass of 10 kg is suspended from a spring balance. It is pulled aside by a horizontal string so that it makes an angle of 60^(@) with the vertical. The new rading of the balance is

A wooden block of mass 0.8 kg is dragged along a level frictionless surface by a hanging block of mass 0.2 kg as shown in the figure. Calculate the tension in the string and the acceleration of blocks.

A wooden block of mass 0*8 kg is dragged along a level frictionless surface by a hanging block of mass 0*2 kg as shown in the figure . Calculate the tension in the string and the acceleration of blocks .

A bob of mass m=50g is suspended form the ceiling of a trolley by a light inextensible string. If the trolley accelerates horizontally, the string makes an angle thata=37^(@) with the vertical. Find the acceleration of the trolley.

A pendulum bob of mass m is suspended at rest. A constant horizontal force F = mg starts acting on it. Find (a) the maximum angular defection of the string. (b) the maximum possible tension in the string.

A projectile of mass 1.2 kg undergoes a perfectly inelastic collision with a trolley of mass 3.6 kg as shown in the figure. At the time of the collision, the second of the projectile is 5ms^(-1) at an angle of 37^(@) with the horizontal. The trolley is free to move, only along a horizontal rail which coincides with the direction of the projectile's horizontal motion. Assuming that the trolley doesn't topple, calculate the amount of heat energy (in J) released in the collision. ["Take "sin 37^(@)=3//5 and cos 37^(@)=4//5]