A cart with a mass `M=(1)/(2)` kg is connected by a string to a mass of m=200 g. At the initial moment the cart moves to the left along a horizontal plane at a speed `v_(0)=7 m//s`. Distance covered by smooth cart after 5 s is `(g=9.8 m//s^(2))`

A cart of mass 0.5kg is placed on a smooth surface and is connected by a string to a block of mass 0.2 kg. At the initial moment the cart moves to the left along a horizontal plane at a speed of 7m//s ("Use "g=9.8m//s^(2))

A particle of mass 1 kg is thrown vertically upward with speed 100 m/s. After 5 sec it explodes into two parts. One part of mass 400 g comes back with speed 25 m/s, what is-the speed of the other part just after explosion? (g= 10 m//s^(2) )

A cart of mass 3 kg is pulled by a 5 kg object as shown in figure. Length of cart is 40 cm moves on frictionless table. There is a small brick of mass 2 kg on the cart which falls at 0.8 sec. after the start of motion. if the coefficient of friction between cart and brick is (x)/(10) . then value of x is :(g=10m//s^(2))

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 particle of mass 1 kg is projected at an angle of 30^(@) with horizontal with velocity v = 40 m/s . The change in linear momentum of the particle after time t = 1 s will be (g = 10 m// s^(2) )

Two blocks of masses m_(1) and m_(2) are connected by a massless pulley A, slides along th esmooth sides of a rectangular wedge of mass m, which rests on a smooth horizontal plane. Find the distance covered by the wedge on the horizontal plane till the mass m_(1) is lowered by the vertical distance h.

A bullet of mass 0.01 kg and travelling at a speed of 500 m/s strikes a block of mass 2 kg which is suspended by a string of length 5m. The center of gravity of the block is found to rise a vertical distance of 0.1m, figure. What is the speed of the bullet after it emerges from the block ? (g=9.8 m//s^2) .

A stone of mass 1 kg tied to a string 4 m long and is rotated at constant speed of 40 m/s a vertical circle. The ratio of the tension at the top and the bottom, is (g=10" m"//"s"^(2))

A rocket of mass 5700 kg ejects mass at a constant rate of 15 kg/s withe constant speed of 12 km/s. The acceleration of the rocket 1 minute after the blast is (g=10m//s^(2))

A spring is kept compressed by a toy cart of mass 150 g.On releasing the cart.It moves with a speed of 0.2 m s^(-1) .Calculate the potential energy (elastic)of the spring .