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A block of mass m = 1.5 kg is attached to a spring with a spring constant k. The position of the block as function of time is given by: x(t) = 0.2 cos(10t+n/2). Deduce the spring constant, k, and the total energy of the system: O k = 150 N/m and E = 15 J O k = 150 N/m and E = 3 J O k = 200 N/m and E = 20 J Ok= 200 N/m and E = 4 J

A block of mass m = 1.5 kg is attached to a spring with a spring constant k. The position of the block as function of time is given by: x(t) = 0.2 cos(10t+n/2). Deduce the spring constant, k, and the total energy of the system: O k = 150 N/m and E = 15 J O k = 150 N/m and E = 3 J O k = 200 N/m and E = 20 J Ok= 200 N/m and E = 4 J

University Physics Volume 1
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 79AP: Consider a block of mass 0.200 kg attached to a spring of spring constant 100 N/m. The block is...
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A block of mass m = 1.5 kg is attached to a spring with a spring constant k. The position of the block as function of time is given by: x(t) = 0.2 cos(10t+n/2). Deduce the spring constant, k, and the total energy of the system: k = 150 N/m and E = 15 J O k = 150 N/m and E = 3 J O k = 200 N/m and E = 20 J Ok = 200 N/m and E = 4 J The solution of the equation of motion of a simple pendulum is given by: 8(1) = 0.2
Transcribed Image Text:A block of mass m = 1.5 kg is attached to a spring with a spring constant k. The position of the block as function of time is given by: x(t) = 0.2 cos(10t+n/2). Deduce the spring constant, k, and the total energy of the system: k = 150 N/m and E = 15 J O k = 150 N/m and E = 3 J O k = 200 N/m and E = 20 J Ok = 200 N/m and E = 4 J The solution of the equation of motion of a simple pendulum is given by: 8(1) = 0.2
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