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When the pendulum is at the bottom of its swing in the center does it have KE or Does it have PE?
At the bottom of its swing in the center, the pendulum has maximum kinetic energy (KE) and no potential energy (PE) because it is moving its fastest and is at its lowest point.
Why is the kinetic energy the highest at point b in a pendulum?
Kinetic energy is highest at point b in a pendulum because this is the lowest point in the swing where the velocity of the pendulum bob is highest due to the conversion of potential energy into kinetic energy as the pendulum falls. At the highest point, the potential energy is at its maximum and kinetic energy is at its minimum.
On the diagram of the moving pendulum label the places where the pendulum has maximum potential energy and work to maximum get Kinetic Energy?
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.
Where in the pendulum is gravitational potential energy highest?
Gravitational potential energy is highest at the highest point of the pendulum's swing, usually at the top of its arc. At this point, the pendulum possesses the maximum potential energy stored due to its position in the Earth's gravitational field.
When a pendulum reaches the end of its swing' the energy within the pendulum is of what sort?
When a pendulum reaches the end of its swing, the energy within the pendulum is potential energy, which is due to its position being at its highest point. At the highest point of its swing, the kinetic energy is at its lowest as the pendulum comes to a brief pause before reversing direction.
When the pendulum is at the bottom of its swing in the center does it have KE or Does it have PE?
At the bottom of its swing in the center, the pendulum has maximum kinetic energy (KE) and no potential energy (PE) because it is moving its fastest and is at its lowest point.
Why is the kinetic energy the highest at point b in a pendulum?
Kinetic energy is highest at point b in a pendulum because this is the lowest point in the swing where the velocity of the pendulum bob is highest due to the conversion of potential energy into kinetic energy as the pendulum falls. At the highest point, the potential energy is at its maximum and kinetic energy is at its minimum.
On the diagram of the moving pendulum label the places where the pendulum has maximum potential energy and work to maximum get Kinetic Energy?
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.
Where in the pendulum is gravitational potential energy highest?
Gravitational potential energy is highest at the highest point of the pendulum's swing, usually at the top of its arc. At this point, the pendulum possesses the maximum potential energy stored due to its position in the Earth's gravitational field.
When a pendulum reaches the end of its swing' the energy within the pendulum is of what sort?
When a pendulum reaches the end of its swing, the energy within the pendulum is potential energy, which is due to its position being at its highest point. At the highest point of its swing, the kinetic energy is at its lowest as the pendulum comes to a brief pause before reversing direction.
How does a pendulum work?
greetings.a pendulum has both kinetic and potential energy at one point.when the pendulum is at its highest point it has potential energy.it has kinetic energy when the ball of the pendulum is right in the middle.get it?
What is the highest point of the pendulums swing called?
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.
What is the relationship between the pendulum's potential energy and its position in its swing?
The pendulum's potential energy is highest at the highest point of its swing and lowest at the lowest point. As the pendulum swings, potential energy is converted to kinetic energy and back again.
What does a pendulum have to do with potential and kinetic energy?
There are 3 Points at which the pendulum significantly changes direction. First it starts off pulled back before it is released it has a high potential energy because it is higher from the source of gravitation (generally the earth) but has no kinetic energy because it is not moving. Once released the pendulum loses potential energy and it swings downward and gains kinetic energy as it speed up. At the bottom of its swing it is going as fast as it will and has the highest kinetic energy and the lowest potential energy, then as it rises it loses the kinetic energy because it has to fight against gravity and loses kinetic energy and gains potential energy as it rises. And it repeats itself. One important thing to note is this is a great application of the law of conservation of energy because as it loses potential energy it gains the same energy in kinetic energy and vice versa (not counting the effects of wind resistance and friction however minor).
Pendulum has a gravitational potential energy of 224 J when it is at its highest point At the lowest point in its swing it has a velocity of 4 ms What is the mass of the pendulum?
To find the mass of the pendulum, we need more information such as the height of the highest point and the length of the pendulum. With the given information, we cannot determine the mass of the pendulum. The mass of the pendulum depends on various factors including its potential energy, velocity, and dimensions.
What is an extreme point on a pendulum swing?
An extreme point on a pendulum swing is the highest or lowest point the pendulum reaches during its motion. At this point, the pendulum temporarily comes to a stop before changing direction.
What energy does pendulum have?
A pendulum has mechanical energy, which is made up of potential energy due to its height above the equilibrium position and kinetic energy due to its motion as it swings back and forth. This energy is constantly changing between potential and kinetic as the pendulum moves.
