A tennis ball, starting from rest, rolls down the hill in the drawing. At the end of the hill the ball becomes airborne, leaving at an angle of `37^(@)` with respect to the ground treat the ball as a thin-walled spherical shell.
Q. Range `x` of the ball is

A tennis ball, starting from rest, rolls down the hill in the drawing. At the end of the hill the ball becomes airborne, leaving at an angle of 37^(@) with respect to the ground treat the ball as a thin-walled spherical shell. Q. Maximum height reached by ball H above ground is

A tennis ball, starting from rest, rolls down the hill in the drawing. At the end of the hill the ball becomes airborne, leaving at an angle of 37^(@) with respect to the ground treat the ball as a thin-walled spherical shell. Q. Maximum height reached by ball H above ground is

A tennis ball, starting from rest, rolls down the hill in the drawing. At the end of the hill the ball becomes airborne, leaving at an angle of 37^(@) with respect to the ground treat the ball as a thin-walled spherical shell. Q. The velocity of projection v is

A tennis ball, starting from rest, rolls down the hill in the drawing. At the end of the hill the ball becomes airborne, leaving at an angle of 37^(@) with respect to the ground treat the ball as a thin-walled spherical shell. Q. The velocity of projection v is

A batter hits a pitched ball when the centre of the ball is 1.22 m above the ground. The ball leaves the bat at an angle of 45^(@) with the ground. With that launch, the ball should have a horizontal range (returning to the launch level) of 107 m. (a) Does the ball clear a 7.32-m-high fence that is 9.75 m horizontally from the launch point? (b) At the fence, what is the distance between the fence top and the ball center?

A cannot ball and a marble ball roll from rest down an incline. Which goes to the buttom first ?

A ball of mass m is projected from ground making an angle q to the horizontal. There is a horizontal wind blowing in the direction of motion of the ball. Due to wind the ball experiences a constant horizontal force of (mg)/(sqrt(3)) in direction of its motion. Find theta for which the horizontal range of the ball will be maximum.

A soccer ball is kicked from the ground with an initial speed of 21.3 m/s at an upward angle of 45^(@) . A player 55 m away in the direction of the kick starts running to meet the ball at that instant. What must be his average speed if he is to meet the ball just before it hits the ground?