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An object is placed on a vertical spring. You compress the spring and the release, sending the object into the air. With this information   i. The value of gravitational acceleration 10mls²  ii. The mass of the object 15kg  iii. The spring constant 250Nm  iv. The compression of the spring 0.1m (b) Draw photos of the system at the following times:  i. The instant the spring is released.  ii. The instant the object reaches its original position before you compressed the spring.  iii. The instant the spring is uncompressed.  iv. The instant the object reaches its peak of motion. (c) Calculate the height and velocity of the object in each picture

An object is placed on a vertical spring. You compress the spring and the release, sending the object into the air. With this information   i. The value of gravitational acceleration 10mls²  ii. The mass of the object 15kg  iii. The spring constant 250Nm  iv. The compression of the spring 0.1m (b) Draw photos of the system at the following times:  i. The instant the spring is released.  ii. The instant the object reaches its original position before you compressed the spring.  iii. The instant the spring is uncompressed.  iv. The instant the object reaches its peak of motion. (c) Calculate the height and velocity of the object in each picture

College Physics
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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An object is placed on a vertical spring. You compress the spring and the release, sending the object into the air. With this information 
 i. The value of gravitational acceleration 10mls²
 ii. The mass of the object 15kg
 iii. The spring constant 250Nm
 iv. The compression of the spring 0.1m
(b) Draw photos of the system at the following times:
 i. The instant the spring is released.
 ii. The instant the object reaches its original position before you compressed the spring.
 iii. The instant the spring is uncompressed.
 iv. The instant the object reaches its peak of motion.
(c) Calculate the height and velocity of the object in each picture

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