1.0 0.- E 0.8- 0.7 0.6- 0.5- 0.4- 0.3- 0.2- 0.1- 4 5 6 i 8 Time (s) 1 2 3 A student attaches a block to a horizontal spring so that the block-spring system will oscillate if the block- spring system released from rest at a horizontal position that is not the system's equilibrium position. The student creates a graph of the block-spring system's kinetic energy as a function of time, as shown. The spring potential energy of the block-spring system at 5.0 s is most nearly A 0.0 J B 0.27 J 0.73 J 1.0 J 6. Kinetic Energy (J)
1.0 0.- E 0.8- 0.7 0.6- 0.5- 0.4- 0.3- 0.2- 0.1- 4 5 6 i 8 Time (s) 1 2 3 A student attaches a block to a horizontal spring so that the block-spring system will oscillate if the block- spring system released from rest at a horizontal position that is not the system's equilibrium position. The student creates a graph of the block-spring system's kinetic energy as a function of time, as shown. The spring potential energy of the block-spring system at 5.0 s is most nearly A 0.0 J B 0.27 J 0.73 J 1.0 J 6. Kinetic Energy (J)
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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Question
A student attaches a block to a horizontal spring so that the block-spring system will oscillate if the block-
spring system released from rest at a horizontal position that is not the system’s equilibrium position. The
student creates a graph of the block-spring system’s kinetic energy as a function of time, as shown. The
spring potential energy of the block-spring system at is most nearly
Transcribed Image Text:1.0
0.9-
E 0.8-
0.7
0.6-
0.5-
0.4+
0.3-
0.2-
0.1-
4 5
Time (s)
2
3
6
A student attaches a block to a horizontal spring so that the block-spring system will oscillate if the block-
spring system released from rest at a horizontal position that is not the system's equilibrium position. The
student creates a graph of the block-spring system's kinetic energy as a function of time, as shown. The
spring potential energy of the block-spring system at 5.0 s is most nearly
(A) 0.0 J
(в) 0.27 J
0.73 J
1.0 J
Kinetic Energy (J)
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