Let us consider a spring with a constant of recovery k = 500 N / m, which holds a body of mass m = 5 kg. At the initial instant, said body is separated from the equilibrium position by a distance equal to 5 cm. Find the pulsation, period and frequency of the oscillation, as well as its total energy. Write the equation of motion.
Let us consider a spring with a constant of recovery k = 500 N / m, which holds a body of mass m = 5 kg. At the initial instant, said body is separated from the equilibrium position by a distance equal to 5 cm. Find the pulsation, period and frequency of the oscillation, as well as its total energy. Write the equation of motion.
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter14: Special Theory Of Relativity
Section: Chapter Questions
Problem 14.6P
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Let us consider a spring with a constant of recovery k = 500 N / m, which holds a body of mass m = 5 kg. At the initial instant, said body is separated from the equilibrium position by a distance equal to 5 cm. Find the pulsation, period and frequency of the oscillation, as well as its total energy. Write the equation of motion.
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