Mechanics: oscillations  |
| Bouncing
ball this applet shows the mass bouncing from the walls of the box. The mass moves under the force of gravity, and all collisions are elastic. The
angle at which the mass hits the surface is equal to the angle at which it leaves the surface |
| Bouncing ball
bouncing ball |
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Coupled Harmonic Oscillator Coupled Harmonic Oscillator animation |
| Coupled oscillators
coupled oscillators, transfer energy between two coupled oscillators |
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Coupled oscillators
coupled oscillators, Double Pendulum |
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Coupled pendula this simulation shows two pendula coupled by a spring which has a small spring constant (weak coupling). For such systems it is
characteristic that the oscillation's energy permanently moves from one partial system to the other |
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Damped Harmonic Oscillator |
| Damped
harmonic motion Damped harmonic motion oscillator |
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Damped
Oscillator Damped Oscillator animation |
| Damped
oscillator a brief treatment of damped oscillations with a friction force that is proportional to the velocity |
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Double Pendulum
This is a simulation of a double pendulum, Kinematics of the Double Pendulum |
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Driven harmonic motion (1 mass) Explore the relationship between mass,
spring constants, driving frequency, etc |
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Driven harmonic motion (2 masses) |
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Forced oscillations
Forced oscillations |
| Hooke's
law force vs elongation |
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Hooke's Law animation illustrating Hooke's Law |
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Mass on a
spring spring wave, Drag and drop the mass to start the oscillations |
| Mass on a
spring |
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Mass on a Spring
law of conservation of energy |
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Ondes mécaniques en Français |
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Oscillating
Spring An oscillating spring is an example of SHM (Simple Harmonic Motion)
which results when the force is directly proportional to the displacement and is
always directed toward the equilibrium position |
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Oscillation and Wave If a spring with a mass m attached to it is slightly
stretched or compresses with displacement x. The restoring force is given by
Hooke's Law |
| Oscillations d'un
ressort en Français |
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Oscillateurs
harmoniques en Français |
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Oscillateurs mécaniques en Français |
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Pendules multiples en Français |
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Pendule balistique en Français |
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Pendulum
The weight, force due to tension, and total force exerted on the bob of a
pendulum are shown |
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Pendulum demonstrates the variation of elongation, velocity, tangential
acceleration, force and energy during the oscillation of a pendulum (assumed
with no friction) |
| Pendulum
You can select the amplitude of the motion by simply grabbing the mass with your
mouse. The mass will perform oscillations. By playing with the parameters of the
simulation, you can get a good intuitive feeling for how oscillators behave |
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Pendulum
study the harmonic motion of a pendulum |
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Pendulum
Double Pendulum |
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Pendulum
Simple Harmonic Pendulum, drag the pendulum to the side and release. The
pendulum will exhibit simple harmonic motion |
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Spring pendulum Java applet demonstrates the variation of elongation, velocity, acceleration, force and energy during the oscillation of a spring
pendulum (assumed with no friction) |
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Springs
and work |
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Spring scale |
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Torsion Pendulum Experiment two examples of Simple Harmonic Motion, Torsion
Pendulum animation |
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Horizontaal |
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Last updated on:
2011-01-02
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