Insert the key or crank into a winding point. Hold the clock steady with your nondominant hand and use your other hand to turn the key or crank clockwise. If it won’t turn clockwise, your clock winds counterclockwise, so turn the key or crank the other way.

Give the pendulum a slight sideways push to start it swinging. Listen to the tick –tock. The tick and the tock should sound evenly spaced, if so the clock is said to be “in beat” or balanced. If not, the crutch at the back of the movement will need to be bent sideways to either the right or the left.

A pendulum works by converting energy back and forth, a bit like a rollercoaster ride. When the bob is highest (furthest from the ground), it has maximum stored energy (potential energy). So as the bob swings (oscillates) back and forth, it repeatedly switches its energy back and forth between potential and kinetic.

How to analyze a pendulum in swing

1. Determine the length of the pendulum.
2. Decide a value for the acceleration of gravity.
3. Calculate the period of oscillations according to the formula above: T = 2π√(L/g) = 2π * √(2/9.80665) = 2.837 s .
4. Find the frequency as the reciprocal of the period: f = 1/T = 0.352 Hz .

This expression is of the form: F = −kx, where the force constant is given by k=mgL k = m g L and the displacement is given by x = s. For angles less than about 15º, the restoring force is directly proportional to the displacement, and the simple pendulum is a simple harmonic oscillator.

Why does the angle the pendulum starts at not affect the period? (Answer: Because pendulums that start at a bigger angle have longer to speed up, so they travel faster than pendulums that start at a small angle.)