Pendulum Motion and Forces

Because tension is negligible at small angles.

Because the restoring force is linear at small angles.

Because gravity does not affect it at small angles.

Because the forces are balanced at large angles.

Gravity and air resistance

Tension and friction

Tension and gravity

Magnetic force and gravity

It accelerates the pendulum upwards.

It keeps the pendulum at rest.

It brings the pendulum back to equilibrium.

It increases the pendulum's speed.

mg sin theta

mg tan theta

mg cos theta

mg theta

Acceleration is the square of angular velocity.

Acceleration is the negative of angular velocity squared times displacement.

Acceleration is directly proportional to angular velocity.

Acceleration is inversely proportional to angular velocity.

omega = t / 2 pi

omega = 2 pi t

omega = 2 pi / t

omega = t / pi

It is approximated to one.

It is approximated to zero.

It is doubled.

It is ignored completely.

It becomes invalid.

It simplifies to a standard form.

It remains unchanged.

It becomes more complex.

Because it does not consider tension.

Because it uses the limit of theta over sine theta.

Because it assumes large angles.

Because it ignores air resistance.

It increases the complexity of the formula.

It eliminates the need for gravity.

It helps in understanding large angle behavior.

It simplifies the formula for small angles.