The total energy falls by a small amount which is used to overcome air resistance.
The highest point of a pendulum's swing is called the amplitude. This is the point where the pendulum's potential energy is at its maximum and its kinetic energy is at its minimum.
The period of a compound pendulum is minimum when the center of mass of the pendulum is at its lowest point (lowest potential energy) and the maximum kinetic energy occurs. This happens when the pendulum is in a vertical position.
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 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.
A pendulum attains maximum velocity at the lowest point of its swing, when its potential energy is at a minimum and its kinetic energy is at a maximum.
amplitude
The highest point of a pendulum's swing is called the amplitude. This is the point where the pendulum's potential energy is at its maximum and its kinetic energy is at its minimum.
The period of a compound pendulum is minimum when the center of mass of the pendulum is at its lowest point (lowest potential energy) and the maximum kinetic energy occurs. This happens when the pendulum is in a vertical position.
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 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.
A pendulum attains maximum velocity at the lowest point of its swing, when its potential energy is at a minimum and its kinetic energy is at a maximum.
The velocity reaches a maximum, and the pendulum will begin to decelerate. Because the acceleration is the derivative of the velocity, and the derivative at the location of an extrema is zero, the acceleration goes to zero.
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 maximum potential energy of a pendulum is at its highest point, which is when the pendulum is at its maximum height. At this point, the potential energy stored in the system is at its greatest before it is converted into kinetic energy as the pendulum swings down.
The maximum potential energy in a pendulum is reached when the pendulum is at the highest point of its swing, also known as the peak of the swing. This is where the potential energy is at its maximum because the height is greatest and gravity has the most impact on the pendulum.
At the highest point of the swing, the pendulum has maximum potential energy since it is at its highest position. The pendulum has maximum kinetic energy at the lowest point of the swing since it is moving with the highest velocity at this point.
Amplitude in a simple pendulum is measured as the maximum angular displacement from the vertical position. It can be measured using a protractor or by observing the maximum angle the pendulum makes with the vertical when in motion.