Laplace transforms:Mass-Spring Oscillator: Difference between revisions

From Class Wiki
Jump to navigation Jump to search
No edit summary
No edit summary
Line 2: Line 2:


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.
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:'''

We first begin by setting up a few equations from Newton's laws.

By Newton's first law, F=ma.

Revision as of 14:52, 19 October 2009

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:

We first begin by setting up a few equations from Newton's laws.

By Newton's first law, F=ma.