PHYS16 – Lecture 36 Ch. 15 Oscillations Xkcd.com.

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Presentation transcript:

PHYS16 – Lecture 36 Ch. 15 Oscillations Xkcd.com

Oscillations pre-question A mass on a spring is driven at a driving frequency (red curve) and the resulting position vs. time of the mass is given (blue curve). Which case is closest to resonance?

Outline for Oscillations Simple Harmonic Motion – Position, Velocity, Acceleration – Force – Energy Resonance and Damping

Simple Harmonic Motion – Cheat Sheet Position, Velocity, and Acceleration Restoring Force gives ang. freq. dependence

Simple Harmonic Motion: Restoring Force

Example Question What is the period of a pendulum? Where is the restoring force the greatest? Where is tension the greatest? Restoring force – At top of swing! Tension – At bottom of swing

Simple Harmonic Motion: Energy

Energy in SHM

Example Question A 0.5-kg mass hits a spring with a velocity of 2 m/s and sticks wikthout energy loss. The spring starts in its equilibrium position and has a spring constant of 0.5 N/m. What is the amplitude of the oscillation? A = 2 m

Simple Harmonic Motion: Damping and Resonance

Damping Damping – when a force (friction, air drag) causes the oscillator to lose energy A

Resonance Resonance – when a driving force has the same frequency of oscillation as the oscillator

Discussion: Resonance vs. Damping When would you want to have resonance or damping? When would resonance or damping be unwanted? Damping – when you don’t want oscillations: buildings, bridges Resonance – when you want to have oscillations: pushing a kid on a swing, making standing waves in cavity

Oscillations pre-question Is a bouncing ball an example of simple harmonic motion? A)Yes B)No

Oscillations pre-question Two kids are swinging on two swings of the same height – one kid is a little chubbier than the other. Neglecting frictional forces, which kid completes a back and forth swing in the fastest time? A) The chubby kid B) The skinny kid C) The kid who pushes off the ground the best D) Both complete in the same time

Oscillations pre-question A mass on a spring is driven at a driving frequency (red curve) and the resulting position vs. time of the mass is given (blue curve). Which case is closest to resonance?

Main Points - SHM Movement is dependent upon amplitude, period and phase Restoring Force creates oscillation Energy is dependent on amplitude Damping decreases A, Resonance increases A