An elevator is initially moving upward at a speed of 12.00 m/s. the elevator experiences a constant downward acceleration of magnitude 4.00 m/s2 for 3.00 s. (a) find the magnitude and direction of the elevator's final velocity. (b) how far did it move during the 3.00 s interval?

Question

Physics

Nikhil Montgomery

15 May, 17:34

An elevator is initially moving upward at a speed of 12.00 m/s. the elevator experiences a constant downward acceleration of magnitude 4.00 m/s2 for 3.00 s. (a) find the magnitude and direction of the elevator's final velocity. (b) how far did it move during the 3.00 s interval?

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Answers (1)

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Curly · Answer 1

The two equations used in this problem is from the derived equations of rectilinear motion at a constant acceleration.

a = (v - v₀) / t

2ax = v² - v₀²

where

a is the acceleration

x is the distance

v is the final velocity

v₀ is the initial velocity

t is the time

Part a.) The acceleration is negative because it is moving downward: a = - 4 m/s². The initial velocity is v₀ = 12 m/s and t is 3 s.

-4 = (v - 12) / 3

v = 0 m/s

Thus, after 3 seconds the elevator comes to a stop.

Part b.)

2 (-4) x = 0² - 12²

x = 18 m

The elevator has traveled a distance of 18 m within 3 seconds.