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The maximum distance that pendulum moves away from its position at rest is called the amplitude of oscillation.
The maximum distance to which an oscillating or vibrating object moves from its central position is called amplitude.
The time it takes a pendulum to complete one full cycle from one side to the other and back again is called its period. The angular distance swept by a pendulum as it swings from one side to the other is called its amplitude.
The period of a pendulum is a measure of the amount of time it takes to complete one full cycle and return to its starting position.
2 Seconds
circular
circular
The maximum distance that pendulum moves away from its position at rest is called the amplitude of oscillation.
The mass of the pendulum, the length of string, and the initial displacement from the rest position.
The particles are vibrating about their mean position.
The maximum distance to which an oscillating or vibrating object moves from its central position is called amplitude.
If a pendulum is at its center position, then there are two possibilities: 1). It may be swinging. Then its kinetic energy is maximum and its potential energy is zero. 2). It may be stopped altogether. Then it has no energy at all.
The time it takes a pendulum to complete one full cycle from one side to the other and back again is called its period. The angular distance swept by a pendulum as it swings from one side to the other is called its amplitude.
Certainly. For example, a pendulum at its left-most position.
An "ideal" projectile trajectory ... without the influence of wind or air resistance ... is a section of a parabola. That's the figure you get when the horizontal position changes at constant speed and the vertical position changes at a speed that is itself changing at a constant rate.
The period of a pendulum is a measure of the amount of time it takes to complete one full cycle and return to its starting position.
An "ideal" projectile trajectory ... without the influence of wind or air resistance ... is a section of a parabola. That's the figure you get when the horizontal position changes at constant speed and the vertical position changes at a speed that is itself changing at a constant rate.