COLLEGE PHYSICS
COLLEGE PHYSICS
2nd Edition
ISBN: 9781464196393
Author: Freedman
Publisher: MAC HIGHER
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Chapter 2, Problem 31QAP
To determine

(a)

The acceleration of a thrown base-ball.

Expert Solution
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Answer to Problem 31QAP

The acceleration of the thrown baseball = Vf22d

where Vf= the velocity of the baseball at the time of release by the pitcher

d = the displacement of the ball from behind the body of the pitcher to the point where it is released (Refer the picture below)

Explanation of Solution

Given:

During this calculation it is assumed that the baseball undergoes constant linear acceleration. Also, it is assumed that the linear velocity of the baseball when it is thrown is Vf(ms-1) and that the displacement of the baseball during the throwing process by the pitcher is d (in meters).

Formula used:

  Vx2 = Vx02 + 2ax(x-x0)Vx = velocity at position x of an object in linear motion with constant acclerationVx0 =velocity at position x0 of an object in linear motion with constant acclerationax = constant accleration of the object

Calculation:

During the throwing process the baseball is at rest in pitcher's hand. This means that that the initial velocity of the baseball is 0 ms-1. Assume that the pitcher releases the baseball at a linear velocity of Vfms-1.

Also, the difference between the two positions is equal to d. Hence substituting to the above equation;

  Vx=Vf(ms1)  Vx0= 0 ms1 (x-x0)=d(m)Vf2 (ms1)2 = (0 ms1 )2+2axd(m)2axd(m)=Vf2(ms1)2ax=Vf22d ms2

Conclusion:

The acceleration of the thrown baseball = Vf22d(ms-2)

]

Where Vf= the velocity of the baseball at the time of released by the pitcher

d = the displacement of the ball from behind the body of the pitcher to the point where it is released

To determine

(b)

The acceleration of a kicked soccer ball.

Expert Solution
Check Mark

Answer to Problem 31QAP

The acceleration of the thrown baseball = - ( Vf22d)

where Vf= the velocity of the baseball at the time of release by footballer

d = the displacement of the soccer ball

Explanation of Solution

Given:

During this calculation it is assumed that the soccer ball undergoes constant linear acceleration. Also it is assumed that the linear velocity of the baseball when it is thrown is Vf(ms-1) and that the displacement of the soccer ball is d (in meters).

Formula used:

  Vx2 = Vx02 + 2ax(x-x0)Vx = velocity at position x of an object in linear motion with constant acclerationVx0 =velocity at position x0 of an object in linear motion with constant acclerationax = constant accleration of the object

Calculation:

It is assumed that player A kicks the soccer ball with a liner velocity and the player B catches the soccer ball. When player B catches the soccer ball the velocity of the ball would be zero. It is assumed that the ball travels a distance of d during this process.

  Vx=0 (ms1)  Vx0= Vf ms1 (x-x0)=d(m)02 (ms1)2 =(Vf)2 ( ms1 )2+2axd(m)2axd(m)= -  Vf2(ms1)2ax=(Vf22d) ms2

Note in this case the final velocity is zero hence the sign of the acceleration is negative.

Conclusion:

The acceleration of the thrown baseball = - ( Vf22d)

where Vf= the velocity of the baseball at the time of release by footballer

d = the displacement of the soccer ball

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