A lift total mass M is raised by cables from rest to rest through a height h. the greatest tension which the cables can safely bear is n Mg. the maximum speed of lift during its journey if the ascent is to made. In shortest time is

A lift of mass m is supported by a cable that can with stand a force of 3mg. Find the shortest distance in which the lift can be stopped when it is descending with a speed of g/4.

A particle of mass m attached with a massless spring natural length l and stiffness k is released from rest from the horizontal position of the relaxed spring. When the particle passes through its lowest point, the maximum length of the spring becomes 2l . Find the: a. speed of the particle at its lowest point. b. acceleration of the particle at its lowest position.

A partical of mass m attached with a massless spring of natural length l and stiffness constant k is releaased from rest from the horizontal positon of the relaxed spring. When the particle passes through its lowest point, the maximum length of the spring bocomes 2l find the (A) Speed of the particle at its lowest point (B) Acceleration of the particle at its lowest position.

A particle starts from rest. Its acceleration at time t=0 is 5 m//s^(2) which varies with time as shown in the figure. The maximum speed of the particle will be

An object of mass m is released from rest from the top of a smooth inclined plane of height h. Its speed at the bottom of the plane is proportional to

A heavy mass M resting on the ground is connected to a lighter mass m through a light inextensible string passing over an ideal pulley. The string connected to mass M is loose. Let lighter mass m be allowed to fall freely through a height h such that the string becomes taut. If t is the time from this instant onward when the heavier mass again makes contact with the ground and Delta E is change in kinetic energy then

A lift a mass 1200 kg is raised from rest by a cable with a tension 1350 kg f . After same time the tension drops to 1000 kg f and the lift comes to rest at a height of 25 m above its intial point (1 kg - f = 9.8 N) What is the height at which the tension changes ?

A 1000 kg lift is supported by a cable that can support 2000 kg. The shortest distance in which the lift can be stopped when it is descending with a speed of 2.5 m//s is ( g = 10 m//s^(2))

After falling from rest through a height h , a body of mass m begins to raise a body of mass M (M gt m) connected to it through a pulley. Find the fraction of kinetic energy lost when the body of mass M is jerked into motion

A block of mass m_(1) lies on the top of fixed wedge as shown in fig. and another block of mass m_(2) lies on top of wedge which is free to move as shown in fig. At time t=0 both the blocks are released from rest from a vertical height h above the respective horizontal surface on which the wedge is placed as shown. There is no friction between block and wedge in both the figures. Let T_(1) and T_(2) be the time taken by the blocks respectively to just reach the horizontal surface. then