A force shown in the F-x graph is applied to 5 kg cart, which then coasts up a ramp as shown. The maximum height , `Y_("max")` reached by the cart is `(g=10m//s^(2))`

A force shown in the F-x graph is applied to a 2kg block horizontal as shown in figure. The change in kinetic energy is

A ball is thrown up at a speed of 4.0 m/s. Find the maximum height reached by the ball. Take g=10 m//s^2 .

If a body is thrown up with the velocity of 15 m/s then maximum height attained by the body is (g = 10m//s)

A cricket ball is thrown up with a speed of 19.6 m/s. The maximum height it can reach is (take g= 9.8 m/ s^2 )

Force acting on a block versus time graph is as shown in figure Choose the correct options. (g = 10 m//s^(-2))

A force F= 2t^2 is applied to the cart initially at rest. The speed of the cart at t = 5 s is -

A 2kg block in on 5 kg block. The system of blocks falls freely due to gravity as shown. The net force on 5 kg block is: (Take g=10m//s^(2))

A stone is projected vertically upwards.When it reaches half the maximum height,its velocity is 20m/s.What is the maximum height attained by the stone? (g=10m/s^(2)

A small bob mass 'm' is suspended by a massless string from a cart of the same mass 'm' as shown in the figure. The friction between the cart and horizontal ground is negligible. The bob is given a velocity V_(0) in horizontal direction as shown. The maximum height attained by the bob is , ( initially whole system ( bob + string + cart ) was at rest ) .

A block of mass 10 kg is held at rest against a rough vertical wall [mu=0.5] under the action a force F as shown in figure. The minimum value of F required for it is (g=10m//s^(2))