Starting at rest (on a spaceship), an object falls 1,600 feet towards the Earth (acceleration = 32 feet per second2, in the vacuum of space). Neglecting the possible effects of air friction, if the final velocity of the object is 320 feet per second (vf) when it hits Mount Everest, how long was the fall? 2 seconds 4 seconds 6 seconds 8 seconds 10 seconds
Starting at rest (on a spaceship), an object falls 1,600 feet towards the Earth (acceleration = 32 feet per second2, in the vacuum of space). Neglecting the possible effects of air friction, if the final velocity of the object is 320 feet per second (vf) when it hits Mount Everest, how long was the fall? 2 seconds 4 seconds 6 seconds 8 seconds 10 seconds
Biomedical Instrumentation Systems
1st Edition
ISBN:9781133478294
Author:Chatterjee
Publisher:Chatterjee
Chapter14: Instrumentation In Diagnostic Ultrasound
Section: Chapter Questions
Problem 6Q
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Question
- Starting at rest (on a spaceship), an object falls 1,600 feet towards the Earth (acceleration = 32 feet per second2, in the vacuum of space). Neglecting the possible effects of air friction, if the final velocity of the object is 320 feet per second (vf) when it hits Mount Everest, how long was the fall?
- 2 seconds
- 4 seconds
- 6 seconds
- 8 seconds
- 10 seconds
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