Difference between revisions of "Forest UCM Osc 2-DOsc"
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if | if | ||
:<math>\frac{\omega_x}{\omega_y} =</math> rational number (a fraction formed two integers, denominator is non-zero) | :<math>\frac{\omega_x}{\omega_y} =</math> rational number (a fraction formed two integers, denominator is non-zero) | ||
+ | |||
+ | then the motion repeats itself. | ||
+ | |||
+ | If the ratio is irrational the motion does not repreat. | ||
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problem 5.17 | problem 5.17 |
Revision as of 12:27, 5 October 2014
Two Dimensional Oscillators
- Potential
Isotropic Oscillator
The simplest 2-D oscillator that is composed of identical springs (same spring constant).
The equations of motion are separable two equations, one for each direction
you could define a relative phase between the two oscillators as
it can be substituted into the above equations by shifting the time origin (problem 5.15)
let
then
let
similarly
Interpretation
There are several modes of motion for the above system of equation
No phase difference
If there is no phase difference then (\delta =0 ) and you have oscillating motion along a line.
90 degree phase difference
If the x and y motions are completely out of phase ( phase difference of 90 degrees or
)then the motion is an ellipse (unless their amplitudes are equal in which case the mass moves in a circle).
The above is an equation of a circle if otherwise it is an ellipse with semi-major and semi-minor axes and
If the phase shift is less than 90 then the ellipse is slanted towards the x-axis otherwise it is toward the y-axis.
Anisotropic Oscillator
Consider the case of having two different spring constants in each direction
The equations of motion are separable two equations, one for each direction
where
Lissajous figure
if
- rational number (a fraction formed two integers, denominator is non-zero)
then the motion repeats itself.
If the ratio is irrational the motion does not repreat.
problem 5.17