Assertion:- A ball allowed to spin in a region of uniform wind motion, will get an uplift.
Reason:- Due to spin of the ball in a region of uniform wind motion, the difference in velocity of air flow is present between the lower and upper position of ball, leading to varying pressure.

Statement-1: As wind flows left to right and a ball is spined as shown, there will be a lift of the ball. Statement-2: Decrease in velocity of air below the ball, increases the pressure more than that above the ball.

A ball of mass m with a charge q can rotate in a vertical plane at the end of a string of length l in a uniform electrostatic field whose lines of force are directed upwards. What horizontal velocity must be imparted to the ball in the upper position so that the tension in the string in the lower position of the ball is 1.5 times than the weight of the ball?

Assertion:- A bowler throuws a ball such that it moves in air with constant angular velocity (Ignorning the air resistance) Reason:- Spin angular momentum of ball is independent of reference frame

Assertion A ball tied by thread is undergoing circular motion (of radius R) in a vertical plane. (Thread always remains in vertical plane). The difference of maximum and minimum tension in thread is independent of speed (u) of ball at the lowest position (ugtsqrt(5gR)) . Reason For a ball of mass m tied by thread undergoing vertical circular motion (of radius R), difference in maximum and minimum magnitude of centripetal aceleraion of the ball is independent of speed (u) of ball at the lowest position (ugrsqrt5gR)) .

A small ball of mass m and charge q is attached to the bottom end of a piece of negligible mass thread of length l, whose top end is fixed. The system formed by the thread and ball is in vertical plane and is in uniform horizontal magnetic field B, which is perpendicular to the plane of figure and points into the paper The ball is started with a velocity v_(0) from lower most point of circle in a direction perpendicular both to the magnetic induction and to direction of thread. The ball moves along a circular path such that thread remains tight during the whole motion. Neglect any loss of enery. What is the magnitude of magnetic induction B, if the minimum initial speed at which the described motion of ball (complete vertical circular motion) occurs is V_(0)=(1)/(2)sqrt(17gL)

When a golf ball is hit by a club there are four phases to its motion : the impact, the flight, the bouncing and the rolling. Note that the parts of this quistion are indepents if you cannot answer something, try the next part. Throughout this problem ignore air resistance and any effects due to the ball's spinning. The impacts is one dimensional at an angle theta , so ball flies in the air at angle theta and lands at a distance D. the collision with ground has coefficient of restituion e. the friction between ground and ball during collision can be ignored. after numerous collision, the ball is seen to have zero vertical and horizontal velocity v_(1) . as it moves on the ground, due to friction rolling bagins after some times, take ball to be a solid sphere What is angular velocity of the ball when it rolls purely ?

When a golf ball is hit by a club there are four phases to its motion : the impact, the flight, the bouncing and the rolling. Note that the parts of this quistion are indepents if you cannot answer something, try the next part. Throughout this problem ignore air resistance and any effects due to the ball's spinning. The impacts is one dimensional at an angle theta , so ball flies in the air at angle theta and lands at a distance D. the collision with ground has coefficient of restituion e. the friction between ground and ball during collision can be ignored. after numerous collision, the ball is seen to have zero vertical and horizontal velocity v_(1) . as it moves on the ground, due to friction rolling bagins after some times, take ball to be a solid sphere What is the total horizontal distance covered till all collisions are over ?

When a golf ball is hit by a club there are four phases to its motion : the impact, the flight, the bouncing and the rolling. Note that the parts of this quistion are indepents if you cannot answer something, try the next part. Throughout this problem ignore air resistance and any effects due to the ball's spinning. The impacts is one dimensional at an angle theta , so ball flies in the air at angle theta and lands at a distance D. the collision with ground has coefficient of restituion e. the friction between ground and ball during collision can be ignored. after numerous collision, the ball is seen to have zero vertical and horizontal velocity v_(1) . as it moves on the ground, due to friction rolling bagins after some times, take ball to be a solid sphere Select the correct statements on the basis of above paragraph

A boy is standing on a flatcar that is moving with uniform acceleration on a level track. At the instant when flatcar is moving with velocity 10 m/s due east the boy throws a ball with velocity 20 m/s in direction 45° above the east with respect to the flatcar in plane of motion of flatcar. What should be the acceleration of the flatcar so that the boy can catch the ball without moving anywhere on the flatcar? Assume acceleration due to gravity 10 m/ s^(2) .

Assertion If a charged particle is pronected in a region, where B is perpendicular to velocity of projection, then the net force acting on the particle is independent orf its mass. Reason The particle is performing uniform circular motion and force acting on it is (mv^(2))/(r) .