Understanding Oscillations and Simple Harmonic Motion

It is always perpendicular to the direction of motion.

It always acts in the direction of motion.

It acts towards the equilibrium position.

It acts away from the equilibrium position.

The distance covered in one cycle.

The speed of the oscillating object.

The time taken for one complete cycle.

The number of cycles per second.

Force is equal to displacement.

Force is directly proportional to displacement.

Force is inversely proportional to displacement.

Force is independent of displacement.

The maximum displacement.

The total energy of the system.

The speed of the object.

The number of radians per second.

It is half of the potential energy.

It is at its maximum.

It is zero.

It is equal to potential energy.

At the equilibrium point.

At the endpoints of the oscillation.

Halfway between the endpoints and equilibrium.

It remains constant throughout.

The total energy of the system.

The speed of the oscillating object.

The maximum displacement.

The position of the object within its cycle.

They have the same energy.

They have the same frequency.

They have the same amplitude.

They reach their maximum displacement at the same time.

The period changes with amplitude.

The period remains constant regardless of amplitude.

The frequency changes with amplitude.

The energy changes with amplitude.

By having a variable frequency.

By having a variable period.

By having a constant period regardless of amplitude.

By having a constant amplitude.