A billiard ball hanging from a string acts as a pendulum whose effective length is 4.50 meters. A person sets up this pendulum in an elevator and finds that its period is 4.867 seconds. (a) Is the elevator accelerating? If so find the acceleration. For a mass on a spring:Kinetic Energy KE= ½ mv²= ½ kx?Total energy = ½ kA? =mvmax - ½ kx2 + ½ mv22Velocity as a function of distance from equilibrium : V=A) (A? – x²)Acceleration as a function of distance from equilibrium: a = -kx/mF =maF =-kxT = 27kf:T@= 2nf%3DVmax = Aw=2tfAamax = Ao? = 4n²f²AT= 2ng

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A billiard ball hanging from a string acts as a pendulum whose effective length is 4.50 meters. A person sets up this pendulum in an elevator and finds that its period is 4.867 seconds. (a) Is the elevator accelerating? If so find the acceleration.

A billiard ball hanging from a string acts as a pendulum whose effective length is 4.50 meters. A person sets up this pendulum in an elevator and finds that its period is 4.867 seconds. (a) Is the elevator accelerating? If so find the acceleration.

Inquiry into Physics

8th Edition

ISBN:9781337515863

Author:Ostdiek

Publisher:Ostdiek

Chapter12: Relativity, Particle Physics, And Cosmology

Section: Chapter Questions

Problem 19P: . A compact neutron star has a mass of kg (about 1.4 times the mass of the Sun) but a radius of only...

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