A lift starts from rest with a constant upward acceleration It moves 1.5 m in the first 0.4 A person standing in the lift holds a packet of 2 kg by a string Calculate the tension in the string during the motion .

A trolley moves down a slope from rest with constant acceleration. In the first second of its motion it travels 1.6 m. Its acceleration (in m//s^(2) ) is

A body starting from rest has an acceleration of 5m//s^(2) . Calculate the distance travelled by it in 4^(th) second.

A lift of mass 200 kg is moving upward with an acceleration of 3m//s^(2) . If g=10 m//s^(2) then the tension of string of the lift will be :

A bob is hanging over a pulley inside a car through a string. The second end of the string is in the hands of a person standing in the car. The car is moving with constant acceleration a directed horizontally as shown in fig. The other end of the string is pulled with constant acceleration a vertically. The tension in the string is equal to

In the arrangement shown, a_1 and a_2 are the acceleration of the two blocks (1&2) with respect to ground (in upward direction of each block with respect to lift. Regarding the tension in the string, the incorrect statement is (m_1 gt m_2)

A block X of mass 0.5 kg is held by a long massless string on a frictionless inclined plane of inclination 30^@ to the horizontal. The string is wound on a uniform solid cylindrical drum Y of mass 2kg and of radius 0.2m as shown in Fingure. The drum is given an initial angular velocity such that the block X starts moving up the plane. (i) Find the tension in the string during the motion. (ii) At a certain instant of time the magnitude of the angular velocity of Y s 10 rad s^(-1) calculate the distance travelled by X from that instant of time until it comes to rest

A 2 kg block A is attached to one end of a light string that passes over an an ideal pulley and a 1 kg sleeve B slides down the other part of the string with an acceleration of 5m//s^(2) with respect to the string. Find the acceleration of the block, acceleration of sleeve and tension in the steing. [g=10m//s^(2)]

1.Consider the situation shown in figure (6-E2).Calculate (a) the acceleration of the 1*0kg blocks,(b) the tension in the string connecting the 1.0kg blocks and (c) the tension in the string attached to 0.50kg .

If m_1 =10kg, m_2 = 4kg and m_3 = 2kg the tension in the string connecting m_1 and m_2 is,

The mass of man when standing on the lift is 60 kg. The weight when the lift is moving upwards with acceration 4.9 ms^(-2) is