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A ball at rest starts rolling down a hill with a constant acceleration of 3.2 meters/second2. What is the final velocity of the ball after 6.0 seconds? A. –9.6 meters/second B. 9.6 meters/second C. –19 meters/second D. 19 meters/second

Respuesta :

Answer:

D. 19 m/sec to the nearest whole number.

Explanation:

v = u + at   where u = initial  velocity, v = final velocity a = acceleration and t = time.

v = 0 + 3.2 * 6

= 19.2.

nuhulawal20

The final velocity of the ball which was initially at rest with the given acceleration and elapsed time is 19m/s.

Option D) is the correct answer.

What is the final velocity of the ball?

From the First Equation of Motion;

v = u + at

Where v is final velocity, u is initial velocity, a is acceleration and t is time elapsed

Given the data in the question;

  • Since the ball was initially at rest, Initial velocity u = 0
  • Acceleration a = 3.2m/s²
  • Elapsed time t = 6.0s
  • Final velocity v = ?

v = u + at

v = 0 + ( 3.2m/s² × 6.0s )

v = 3.2m/s² × 6.0s

v = 19m/s

Therefore, the final velocity of the ball which was initially at rest with the given acceleration and elapsed time is 19m/s.

Option D) is the correct answer.

Learn more about Equations of Motion here: brainly.com/question/18486505

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