A 156-gram baseball is hit toward the left by a bat. The magnitude of the force the bat exerts on the ball as a function of time is shown in (Figure 1).

a) find the magnitude of the impulse that the bat impart to the ball (N*s)

b)Find the direction of the impulse that the bat imparts to the ball

c)Find the magnitude of the ball's velocity just after it is hit by the bat if the ball is initially at rest

d)find the direction of the ball's velocity just after it is hit by the bat if the ball is initially at rest

e)find the magnitude of the ball's velocity just after it is hit by the bat if the ball is initially moving to the right at 31 m/s 

f)Find the direction of the ball's velocity just after it is hit by the bat if the ball is initially moving to the right at 31.0 m/s.

 

Transcribed Image Text:

The image features a graph illustrating the force \( F \) in kilonewtons (kN) on the vertical axis against time \( t \) in milliseconds (ms) on the horizontal axis. ### Key Features of the Graph: - **Axes**: - The vertical axis is labeled \( F \) (kN), with increments from 0 to 6. - The horizontal axis is labeled \( t \) (ms), with increments from 0 to 6. - **Plot Details**: - The graph depicts a rectangular plot. - The force remains at 0 kN from 0 ms to approximately 1 ms. - At 1 ms, the force sharply increases to 4 kN. - The force remains constant at 4 kN from 1 ms to 5 ms. - At 5 ms, the force sharply decreases back to 0 kN. This type of graph is often used to represent a force that is applied suddenly, maintained, and then removed, which is common in the study of impulse and momentum in physics or engineering contexts.