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when oscillations taken energy of pendulum dissipates
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What energy transformations happen with a pendulum?
A pendulum undergoes potential energy to kinetic energy conversion as it swings back and forth. At the highest point, the pendulum has maximum potential energy, while at the lowest point, it has maximum kinetic energy. Energy is conserved in this oscillation process.
What will happen to value of g if compound pendulum is taken nearer to the centre of the earth?
The acceleration of gravity decreases as the observation point is taken deeper beneath the surface of the Earth, but it's not the location of the compound pendulum that's responsible for the decrease.
What will happen to the value of g if the compound pendulum is taken nearer to the centre of earth?
The value of g would increase if the compound pendulum is taken nearer to the center of the Earth. This is because gravity is stronger closer to the Earth's surface. Conversely, if the compound pendulum is moved further away from the center of the Earth, the value of g would decrease.
What happen to period of pendulum when mass increase?
The period of a pendulum is not affected by the mass of the pendulum bob. The period depends only on the length of the pendulum and the acceleration due to gravity.
What would happen if a pendulum is set to swing in vacuum?
In a vacuum, the pendulum would continue to swing back and forth without air resistance to slow it down or stop it. This would result in the pendulum swinging with very little loss of energy over time, creating a more consistent and longer-lasting motion.
What energy transformations happen with a pendulum?
A pendulum undergoes potential energy to kinetic energy conversion as it swings back and forth. At the highest point, the pendulum has maximum potential energy, while at the lowest point, it has maximum kinetic energy. Energy is conserved in this oscillation process.
What happen to simple pendulum at lowest point of its swing?
At the lowest point of its swing, a simple pendulum's velocity is at its maximum, and its potential energy is at its minimum. The kinetic energy is at its highest since the pendulum has the highest speed.
What will happen to value of g if compound pendulum is taken nearer to the centre of the earth?
The acceleration of gravity decreases as the observation point is taken deeper beneath the surface of the Earth, but it's not the location of the compound pendulum that's responsible for the decrease.
What would happen if you let a pendulum go on swinging?
Obviously, it will stop after sometime , after swinging. It is because we cannot apply energy continuously to the swinging pendulum.
What will happen to the value of g if the compound pendulum is taken nearer to the centre of earth?
The value of g would increase if the compound pendulum is taken nearer to the center of the Earth. This is because gravity is stronger closer to the Earth's surface. Conversely, if the compound pendulum is moved further away from the center of the Earth, the value of g would decrease.
What happen to period of pendulum when mass increase?
The period of a pendulum is not affected by the mass of the pendulum bob. The period depends only on the length of the pendulum and the acceleration due to gravity.
What would happen if a pendulum is set to swing in vacuum?
In a vacuum, the pendulum would continue to swing back and forth without air resistance to slow it down or stop it. This would result in the pendulum swinging with very little loss of energy over time, creating a more consistent and longer-lasting motion.
What will happen to length of a simple pendulum if its time period is doubled?
time period of simple pendulum is dirctly proportional to sqare root of length...
Can I use the Fein FMM250 Start MultiMaster Oscillating Tool Kit on my dogs nails?
That would be very unwise.An oscillating tool would upset the dog and anything might happen.
What happen to the frequency of a simple pendulum when its length is doubled?
When the length of a simple pendulum is doubled, the frequency of the pendulum decreases by a factor of √2. This relationship is described by the formula T = 2π√(L/g), where T is the period of the pendulum, L is the length, and g is the acceleration due to gravity.
What will happen to the bob of a pendulum if it is taken into an orbiting space station?
The bob of a pendulum in an orbiting space station will appear to float weightlessly due to the effects of microgravity.
What happen to the time period if its lenght of the pendulum is changed?
The time period of a pendulum is directly proportional to the square root of its length. If the length of the pendulum is increased, the time period will also increase. Conversely, if the length is decreased, the time period will decrease.
