The Simple Pendulum A simple pendulum consists of a mass at the end of a lightweight cord. We assume that the cord does not stretch, and that its mass.

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Presentation transcript:

The Simple Pendulum A simple pendulum consists of a mass at the end of a lightweight cord. We assume that the cord does not stretch, and that its mass is negligible. © 2014 Pearson Education, Inc.

In order to be in SHM, the restoring force must be proportional to the negative of the displacement. Here we have F = ‑ mg sin θ which is proportional to sin θ and not to θ itself. However, if the angle is small, sin θ ≈ θ. The Simple Pendulum

Therefore, for small angles, the force is approximately proportional to the angular displacement. The period is:

The Simple Pendulum So, as long as the cord can be considered massless and the amplitude is small, the period does not depend on the mass.

11-5 Damped Harmonic Motion Damped harmonic motion is harmonic motion with a frictional or drag force. If the damping is small, we can treat it as an “envelope” that modifies the undamped oscillation.

Summary of Chapter 11 For SHM, the restoring force is proportional to the displacement. The period is the time required for one cycle, and the frequency is the number of cycles per second. Period for a mass on a spring: SHM is sinusoidal. During SHM, the total energy is continually changing from kinetic to potential and back. (11-6a)

A simple pendulum approximates SHM if its amplitude is not large. Its period in that case is: When friction is present, the motion is damped. Summary of Chapter 11 (11-11a)