Consider the potential energy in stored in a spring: U, = 1/2kl Where k = 10 N/m is the spring constant and / is the distance that the spring has been compressed from its equilibrium length. If the spring is compressed by distance l = 0.070 m it will have potential energy Usj and if the same spring is compressed by distance l2 = 0.14 m, it will have potential energy Us2. Part (a) The ratio Us1/ Us2 does not depend on k. True or false? OTRUE OFALSE
Consider the potential energy in stored in a spring: U, = 1/2kl Where k = 10 N/m is the spring constant and / is the distance that the spring has been compressed from its equilibrium length. If the spring is compressed by distance l = 0.070 m it will have potential energy Usj and if the same spring is compressed by distance l2 = 0.14 m, it will have potential energy Us2. Part (a) The ratio Us1/ Us2 does not depend on k. True or false? OTRUE OFALSE
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter8: Potential Energy And Conservation Of Energy
Section: Chapter Questions
Problem 65P: A block of mass 200 g is attached at the end of a massless spring of spring constant 50 N/m. The...
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Transcribed Image Text:Part (b) What is the ratio of the potential energies U31 / U,2? Give numerical answer to two significant figures.
Us1 / Us2 =|
Transcribed Image Text:Consider the potential energy in stored in a spring: U = 1/2kl
Where k = 10 N/m is the spring constant and l is the distance that the spring has been compressed from its equilibrium length. If the spring is compressed by
distance l1 = 0.070 m it will have potential energy Usj and if the same spring is compressed by distance 2 = 0.14 m, it will have potential energy Us2.
Part (a) The ratio U/ U2 does not depend on k. True or false?
OTRUE
O FALSE
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