At the equilibrium position, the speed of a pendulum is zero. This is because it momentarily stops before changing direction at the bottom of its swing due to the conservation of mechanical energy.
The maximum amplitude of a pendulum at equilibrium is the distance from the resting position to the furthest point the pendulum swings away from the vertical position.
The equilibrium position in a pendulum is the position where the pendulum comes to rest when there is no external force acting on it. This is typically when the pendulum bob is hanging straight down directly below its suspension point. At this position, the gravitational force is balanced by the tension in the pendulum string.
The bottom of the pendulum swing is called the equilibrium position.
The mean position of a pendulum is the equilibrium point where the pendulum comes to rest when not in motion. It is the point where the gravitational force acting on the pendulum is balanced by the restoring force.
A pendulum zero refers to the equilibrium position of a pendulum, where it is at rest and not swinging. This position is typically at the lowest point of the pendulum's swing.
The maximum amplitude of a pendulum at equilibrium is the distance from the resting position to the furthest point the pendulum swings away from the vertical position.
The equilibrium position in a pendulum is the position where the pendulum comes to rest when there is no external force acting on it. This is typically when the pendulum bob is hanging straight down directly below its suspension point. At this position, the gravitational force is balanced by the tension in the pendulum string.
The bottom of the pendulum swing is called the equilibrium position.
A pendulum zero refers to the equilibrium position of a pendulum, where it is at rest and not swinging. This position is typically at the lowest point of the pendulum's swing.
The mean position of a pendulum is the equilibrium point where the pendulum comes to rest when not in motion. It is the point where the gravitational force acting on the pendulum is balanced by the restoring force.
The maximum angular displacement of a pendulum is typically 90 degrees away from its equilibrium position. This is the point where the pendulum has the greatest potential energy before swinging back.
The amplitude of a pendulum can be determined by measuring the maximum angle the pendulum swings away from its resting position. This angle represents the maximum displacement of the pendulum from its equilibrium position.
The restoring force acting on a swing pendulum is due to gravity pulling the pendulum back towards the equilibrium position. This force is proportional to the displacement of the pendulum from equilibrium, causing the pendulum to oscillate back and forth.
Restoring force, in a physics context, is a variable force that gives rise to an equilibrium in a physical system. If the system is perturbed away from the equilibrium, the restoring force will tend to bring the system back toward equilibrium.
amplitude
The maximum displacement on a pendulum occurs at the equilibrium position, where the pendulum swings away from the vertical position to its farthest point. This is where the potential energy is at its maximum before being converted to kinetic energy.
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.