Problem: As the first human astronaut to land on a distant planet, you are standing on the edge of a small cliff. You toss a small experiment apparatus straight up in the air and it reaches a maximum height of 3.0m above the cliff. The apparatus then falls to the bottom of the cliff, landing a distance 10 m below its initial position. A) Given that the acceleration due to gravity on the exoplanet is a=−5.6j^ m/s^2 {REFER TO ONE OF THE PICTURE}, how long did it take for the apparatus to get from the top of its trajectory to the bottom of the cliff? The coordinate system is set up such that "up" is in the +j^ direction. Answer a): 2.2 seconds. ****B)Suppose the time between the apparatus leaving your hand and landing on the ground was measured to be t=4.80s. What was the velocity of the apparatus leaving your hand?
Problem: As the first human astronaut to land on a distant planet, you are standing on the edge of a small cliff. You toss a small experiment apparatus straight up in the air and it reaches a maximum height of 3.0m above the cliff. The apparatus then falls to the bottom of the cliff, landing a distance 10 m below its initial position. A) Given that the acceleration due to gravity on the exoplanet is a=−5.6j^ m/s^2 {REFER TO ONE OF THE PICTURE}, how long did it take for the apparatus to get from the top of its trajectory to the bottom of the cliff? The coordinate system is set up such that "up" is in the +j^ direction. Answer a): 2.2 seconds. ****B)Suppose the time between the apparatus leaving your hand and landing on the ground was measured to be t=4.80s. What was the velocity of the apparatus leaving your hand?
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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PLEASE WORK ON THE SECOND QUESTION(Question B).
Problem:
As the first human astronaut to land on a distant planet, you are standing on the edge of a small cliff. You toss a small experiment apparatus straight up in the air and it reaches a maximum height of 3.0m above the cliff. The apparatus then falls to the bottom of the cliff, landing a distance 10 m below its initial position.
A) Given that the acceleration due to gravity on the exoplanet is a=−5.6j^ m/s^2 {REFER TO ONE OF THE PICTURE}, how long did it take for the apparatus to get from the top of its trajectory to the bottom of the cliff?
The coordinate system is set up such that "up" is in the +j^ direction.
Answer a): 2.2 seconds.
****B)Suppose the time between the apparatus leaving your hand and landing on the ground was measured to be t=4.80s. What was the velocity of the apparatus leaving your hand?
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