A suitcase is gently dropped on a conveyor belt moving at ` 3 m//s`. If the coefficient of friction between the belt and the suitcase is 0.5. Find the displacement of suitcase relative to conveyor belt before the slipping between the two is stopped `(g=10 m//s^(2))`

An ice skater moving at 10m//s comes to a halt in 100m on a ice surface. Calculate the coefficient of friction between the ice and the skater ?

A conveyor belt is moving at a constant speed of 2m//s . A box is gently dropped on it. The coefficient of friction between them is mu=0.5 . The distance that the box will move relative to belt before coming to rest on it taking g=10ms^(-2) is:

Gravel is dropped on a conveyor belt at the rate of 2 kg/s. The extra force required to keep the belt moving at 3 ms^(-1) is

A solid sphere of mass m and radius R is gently placed on a conveyer belt moving with constant velocity v_(0) . If coefficient of friction between belt and sphere is 2//7 the distance traveled by the centre of the sphere before it starts pure rolling is

A package rest on a conveyor belt which is initially at rest . The belt is started and moves to the right for 1.3 s with a constant acceleration of 2 m//s^(2) . The belt then moves with a constant deceleration a_(2) and comes to a stop after a total displacement of 2.2 m . Knowing that the coefficient of friction between the package and the belt are mu_(s) = 0.35 and mu_(k) = 0.25 , determine (a) the deceleration a_(2) of the belt , (b) the displacement of the package relative to the belt as the belt comes to a stop. (g = 9.8 m//s^(2))

A force of 200N is applied as shown in the figure on block of 3 kg. The coefficient of friction between the block and the wall is 0.3. Find the friction acting on the block. (in N) {Take g = 10 m//s^(2)

Consider the situation shown in figure. The block B moves on a frictionless surface ,while the coefficient of friction between A and the surface on which it moves is 0.2 . Find the acceleration with which the masses move and also the tension in the strings. (Take g = 10 m//s^(2)) .

Gravels are dropped on a conveyor belt at the rate of 0.5 kg / sec . The extra force required in newtons to keep the belt moving at 2 m/sec is

Figure shown a man standing stationary with respect to a horizontal converyor belt that is accelerationg with 1m//s^(-2) . What is the net force on the man?If the coefficient of ststic friction between the man's shoes and the belt is 0.2 upto what maximum acceleration of the belt can the man continue to be stationary relative to the belt? Mass of the man = 65kg (g =9.8m//s^(2))

Figure shown a man standing stationary with respect to a horizontal converyor belt that is accelerationg with 1m//s^(-2) . What is the net force on the man?If the coefficient of ststic friction between the man's shoes and the belt is 0.2 upto what maximum acceleration of the belt can the man continue to be stationary relative to the belt? Mass of the man = 65kg (g =9.8m//s^(2))