A force of 12 N is applied to a ball which has a mass of 6 kg. What is the acceleration of the ball?

Question

A force of 12 N is applied to a ball which has a mass of 6 kg. What is the acceleration of the ball?

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Minh Khuê 3 years 2021-08-14T05:45:44+00:00 2 Answers 30 views 0

Answers ( )

  1. thienthanh
    1
    2021-08-14T05:47:13+00:00
    Reply

    The acceleration of the bowling ball is
    1.875 m/s^2

    Explanation:
    The formula we will use is based off of Newton’s Second Law is FNET= ma Where:
    => the net force is in Newtons (N).
    => m is mass in kilograms (kg).
    => a is acceleration in m/s^2

    The FA is 12N [forward], therefore we know the net force is not 0. Normally, FF is considered, but we do not have enough information to calculate it, so we will assume a frictionless problem.

    If the only force is the applied force, then the net force is 12N. Knowing this and the mass, we can isolate and solve for a.

    FNET = ma
    12=6.4a
    1.875=a

    ANSWER = Therefore, the acceleration of the bowling ball is 1.875 m/s^2

    Hope this helps 🙂

  2. Delwyn
    0
    2021-08-14T05:47:34+00:00
    Reply

    Answer:

    The acceleration of the bowling ball is

    1.875 m/s2

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