Fig.5.12 shows an estimated force-time graph for a base ball struck by a bat. From the curve, determine: impulse delivered to the ball.

Fig. shows an estimated force-time graph for a base ball struck by a bat. From this curve, determine (i) impulse delivered to the ball (ii) force exerted on the ball (iii) the maximum force on the ball.

Fig.5.12 shows an estimated force-time graph for a base ball struck by a bat. From the curve, determine: Force exerted on the ball.

Fig.5.12 shows an estimated force-time graph for a base ball struck by a bat. From the curve, determine: The maximum force on the ball.

A batsman hits back a ball straight in the direction of the bowler without changing its initial speed of 12 ms^(-1) . If the mass of the ball is 0.15 kg , determine the impulse imparted to the ball . (Assume linear motion of the ball).

A steel ball of mass 0.5 kg is dropped from a height of 4 m on to a horizontal heavy steel slab. The collision is elastic and the ball rebounds to its original height. Calculate the impulse delivered to the ball during impact.

Two identical billiard balls striks a rigid wall with the same speed but at different angles , and get reflected without any change in speed , as shown in Fig . What is (i) the direction of the force on the wall due to each ball ? (ii) the ratio of the magnitudes of impulses imparted to the balls by the wall ?

A 0.1 kg steel ball is dropped straight down onto a hard, horizontal floor and bounces straight up. The ball's speed just before and just after impact with the floor is 10 m/s. Determine the magnitude of the impulse delivered to the floor by the steel ball.

As shown in fig. two identical balls strike a rigid wall with equal speeds but a different angles of incidence. They are reflected back without any lose in speed. (a) Determine the direction of force exerted by each ball on the wall. (b) Determine the ratio of impulse imparted by the two balls on the wall in both cases.

The given figure shows a plot of the time dependent force F_(x) acting on a particle in motion along the x-axis. What is the total impulse delivered by this force to the particle from time t = 0 to t = 2second?