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    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is: a. smaller than the change in momentum of the larger mass, but not zero. b. larger than the change in momentum of the larger mass.

    Answer to: Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is: a. smaller...

    Impulse (physics)

    Identical forces act for the same length of time on two different masses. The change in momentum...

    Identical forces act for the same length of time on two different masses. The change in momentum... Question:

    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is:

    a. smaller than the change in momentum of the larger mass, but not zero.

    b. larger than the change in momentum of the larger mass.

    c. zero.

    d. equal to the change in momentum of the larger mass.

    Impulse:

    Under the influence of a force, the object experiences acceleration, and therefore, a continuously changing momentum. The greater the force acts on the object, the greater is the change in the motion of the object.

    Impulse is a physical quantity that measures how much impact was delivered by a force to an object. it is defined as the product of the force and the time for which it acts. Impulse is a vector quantity.

    Answer and Explanation:

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    The change in the momentum,

    Δ p Δp

    , of an object in a time interval is equal to the impulse,

    I I

    , received by the object...

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    Learn more about this topic:

    Impulse: Definition, Equation, Calculation & Examples

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    Chapter 19 / Lesson 9

    263K

    Understand what an impulse is. See impulse formula and impulse units. Learn how to calculate the impulse using examples. Read about the equation of specific impulse.

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    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is

    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is

    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is

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    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is

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    Identical forces act for the same length of time on two different masses. The change in momentum of the smaller mass is

    in progress 0 Physics Sigridomena 5 months 1 Answers 41 views 0 Share

    Answers ( )

    thienan 0

    August 3, 2021 at 6:48 am

    Reply

    Answer:Equal to change in momentum of larger mass.Explanation:

    We are given that

    Two difference  masses .

    Force act on both masses  for the same length of time.

    We have to find the change in momentum of the smaller mass.

    Let M and m are two masses

    M>m We know that

    Change in momentum for large mass=

    Change in momentum for small mass=

    Because Force and length of time are same for both masses .

    Hence, the change in momentum of smaller mass is equal to change in momentum of larger mass.

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