A stone of mass 0.05 kg is thrown in vertical by upward direction (take g = 10 m`cdot s^(-2)`). Neglect air friction.
The net force acting on the stone during its upward motion is

A pebble of mass 0.05 kg is thrown vertically upwards. Give the direction and magnitude of the net force on the pebble, (a) during its upward motion, (b) during its downward motion, (c) at the highest point where it is momentarily at rest. Do your answers change if the pebble was thrown at an angle of 45^@ with the horizontal direction? Ignore air resistance.

A body of mass 50 kg is projected vertically upwards with a velocity of 100 m cdot s^(-1) . After 5 s it splits up into two parts due to an explosion. One part of mass 20 kg moves vertically upwards with a velocity of 150 m cdot s^(-1) .Find the velocity of the second body. Find the sum of momenta of the two parts 3 s after the explosion and show that if there was no explosion. the momentum of the body would have been constant.

A body of mass 10 kg is thrown vertically upwards with a velocity of 2m*s^(-1) from top of a tower of height 10 m . What will be its kinetic energy when it strikes the ground ?

A cylist on a level road takes a sharp circular turn of radius 3m ( g = 10 m cdot s^(-2) ). If the coefficient of static friction between the cycle tyre and the road is 0.2, at which of the following speeds will the cyclist not skid while taking the turn?

A player throws a ball upwards with an initial speed of 29.4 ms^(-1) . (a) What is the direction of acceleration during the upward motion of the ball ? (b) What are the velocity and acceleration of the ball at the highest point of its motion ? (c) Choose the x = 0 m and t = 0 s to be the location and time of the ball at its highest point, vertically downward direction to be the positive direction of x-axis, and give the signs of position, velocity and acceleration of the ball during its upward, and downward motion. (d) To what height does the ball rise and after how long does the ball return to the player’s hands ? (Take g = 9.8 ms^(-2) and neglect air resistance).

A rocket of total mass 6000 kg (mass of fuel is 5000 kg) is to be launched vertically upwards. If the rate of consumption of the fuel is 60 kg cdot s^(-1) , find the minimum veloctiy of ejection of gas so that the rocket can start its upward motion as soon as the gas is ejected.What will be the impulse at that time? (g = 9.8 m cdot s^(-2) )

A man of mass 70 kg is sitting in a motor car. The car is moving with an acceleration of 5 m cdot s^(-2) . What is the gravitational force on the man? [ g = 9.8 m cdot s^(-2) ]

A body of mass 1kg , at a height of 8m above the ground , is thrown vertically upwards at a velocity of 250 cm*s^(-1) . What will be the kinetic energy of the body when it just reaches the ground ? ( g=980 cm*s^(-2))