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2 March, 14:51

Under what condition is the instantaneous acceleration of a moving body equal to its average acceleration over time?

A. only at positive accelerations

B. only at negative accelerations

C. only at zero acceleration

D. only at constant accelerations

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  1. 2 March, 15:06
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    If the acceleration is constant (negative or positive) the instantaneous acceleration cannot be

    Average acceleration: [final velocity - initial velocity ] / Δ time

    Instantaneous acceleration = d V / dt = slope of the velocity vs t graph

    If acceleration is increasing, the slope of the curve at one moment will be higher than the average acceleration.

    If acceleration is decreasing, the slope of the curve at one moment will be lower than the average acceleration.

    If acceleration is constant, the acceleration at any moment is the same, then only at constant accelerations, the instantaneuos acceleration is the same than the average acceleration.

    Constant zero acceleration is a particular case of constant acceleration, so at constant zero acceleration the instantaneous accelerations is the same than the average acceleration: zero. But, it is not true that only at zero acceleration the instantaneous acceleration is equal than the average acceleration.

    That is why the only true option and the answer is the option D. only at constant accelerations.
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