An initially stationary 2.7 kg object accelerates horizontally and uniformly to a speed of 13 m/s in 4.0 s. (a) In that 4.0 s interval, how much work is done on the object by the force accelerating it? What is the instantaneous power due to that force (b) at the end of the interval and (c) at the end of the first half of the interval?

Question

Sam Henry

Physics

26 June, 07:03

An initially stationary 2.7 kg object accelerates horizontally and uniformly to a speed of 13 m/s in 4.0 s. (a) In that 4.0 s interval, how much work is done on the object by the force accelerating it? What is the instantaneous power due to that force (b) at the end of the interval and (c) at the end of the first half of the interval?

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Answers (1)

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Landen Duncan · Answer 1

A.

Given:

V = 13 m/s

t = 4 s

Constant acceleration, a = (V-Vi) / t

= 13/4

= 3.25 m/s^2

F = mass * acceleration

= 2.7 * 3.25

= 8.775 N.

Using equations of motion,

distance, S = (13 * 4) - (1/2) (3.25) (4^2)

= 26 m

Workdone, W = force * distance

= 8.775 * 26

= 228.15 J

B.

Instantaneous power, P = Force * Velocity

= 8.775 * 13

= 114. 075 W

C.

t = 2 s,

Constant acceleration, a = (V-Vi) / t

= 13/2

= 6.5 m/s^2

Force = mass * acceleration

= 2.7 * 6.5

= 17.55 N

Instantaneous power, P = Force * Velocity

= 17.55 * 13

= 228.15 W.

= 114. 075 W.