Laplace transforms:Mass-Spring Oscillator
Jump to navigation
Jump to search
Problem Statement:
An ideal mass m sliding on a frictionless surface, attached via an ideal spring k to a rigid wall. The spring is at rest when the mass is centered at x=0. Find the equation of motion that the spring mass follows.
Solution:
By Newton's first law:
By Hooke's law:
By Newton's third law of motion that states every action produces an equal and opposite reaction, we have f_k = -f_m. That is, the force f_k applied by the mass to the spring is equal and opposite to the accelerating force f_m exerted in the -x direction by the spring on the mass.
We now have a second order differential equation that governs the motion of the mass. Taking the Laplace transform of both sides gives: