A 3 kg mass is attached to a spring with stiffness k = 48N / m. The mass moves 1/2 m to the left of the equilibrium point and receives a velocity of 2 m / s to the right. The damping force is negligible. Determine the equation of motion of the mass, along with its amplitude, period, and frequency. How long after its release does the mass pass through the equilibrium position?
A 3 kg mass is attached to a spring with stiffness k = 48N / m. The mass moves 1/2 m to the left of the equilibrium point and receives a velocity of 2 m / s to the right. The damping force is negligible. Determine the equation of motion of the mass, along with its amplitude, period, and frequency. How long after its release does the mass pass through the equilibrium position?
Linear Algebra: A Modern Introduction
4th Edition
ISBN:9781285463247
Author:David Poole
Publisher:David Poole
Chapter6: Vector Spaces
Section6.7: Applications
Problem 18EQ
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A 3 kg mass is attached to a spring with stiffness k = 48N / m. The mass moves 1/2 m to the left of the equilibrium point and receives a velocity of 2 m / s to the right. The damping force is negligible. Determine the equation of motion of the mass, along with its amplitude, period, and frequency. How long after its release does the mass pass through the equilibrium position?
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