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What will be the period of oscillation of a bar pendulum if center of suspension coincide with the center of gravity?
If the center of suspension coincides with the center of gravity in a bar pendulum, the period of oscillation will be constant, meaning the bar pendulum will not oscillate as the forces acting on it will be in equilibrium. The system will be in a stable position and there will be no oscillations.
What is point of suspension in bar pendulum?
The point of suspension in a bar pendulum is the fixed point where the bar is attached to a support. It allows the bar to swing back and forth freely. The length of the bar and the position of the point of suspension affect the period of the pendulum's oscillation.
What are center of suspension and center of oscillation of a compound pendulum?
The center of suspension of a compound pendulum is the fixed point about which the pendulum rotates, typically where it is hinged. The center of oscillation is the theoretical point at which the entire mass of the pendulum could be concentrated to produce the same period of oscillation as the actual pendulum.
What are the center of suspension and center of oscillation of a compound pendulum?
The center of suspension of a compound pendulum is the point of support from which it hangs, typically the pivot point. The center of oscillation is the theoretical point at which the entire mass of the compound pendulum can be considered to be concentrated to analyze its motion as a simple pendulum.
How to find the length of a pendulum?
The length of a pendulum can be found by measuring the distance from the point of suspension to the center of mass of the pendulum bob. This distance is known as the length of the pendulum.
What will be the period of oscillation of a bar pendulum if center of suspension coincide with the center of gravity?
If the center of suspension coincides with the center of gravity in a bar pendulum, the period of oscillation will be constant, meaning the bar pendulum will not oscillate as the forces acting on it will be in equilibrium. The system will be in a stable position and there will be no oscillations.
What is point of suspension in bar pendulum?
The point of suspension in a bar pendulum is the fixed point where the bar is attached to a support. It allows the bar to swing back and forth freely. The length of the bar and the position of the point of suspension affect the period of the pendulum's oscillation.
What are center of suspension and center of oscillation of a compound pendulum?
The center of suspension of a compound pendulum is the fixed point about which the pendulum rotates, typically where it is hinged. The center of oscillation is the theoretical point at which the entire mass of the pendulum could be concentrated to produce the same period of oscillation as the actual pendulum.
What are the center of suspension and center of oscillation of a compound pendulum?
The center of suspension of a compound pendulum is the point of support from which it hangs, typically the pivot point. The center of oscillation is the theoretical point at which the entire mass of the compound pendulum can be considered to be concentrated to analyze its motion as a simple pendulum.
How to find the length of a pendulum?
The length of a pendulum can be found by measuring the distance from the point of suspension to the center of mass of the pendulum bob. This distance is known as the length of the pendulum.
How can one determine the length of a pendulum?
The length of a pendulum can be determined by measuring the distance from the point of suspension to the center of mass of the pendulum bob. This length affects the period of the pendulum's swing.
The moment of inertia of a material bar by the bifilar suspension method?
The moment of inertia of a material bar can be determined using the bifilar suspension method. In this method, the bar is suspended horizontally by two threads (bifilar) and allowed to oscillate as a compound pendulum. By measuring the period of oscillation and the dimensions of the bar, the moment of inertia can be calculated using the formula for a compound pendulum.
What does lengh represent in an oscillation of a pendulum?
In the context of a pendulum, the length represents the distance from the point of suspension to the center of mass of the pendulum. The length of the pendulum affects the period of its oscillation, with longer pendulums having a longer period and shorter pendulums having a shorter period.
How does a pendulums period vary with the length of its mass With Gravitational acceleration?
The length of the pendulum is measured from the pendulum's point of suspension to the center of mass of its bob. Its amplitude is the string's angular displacement from its vertical or its equilibrium position.
What is the difference between coupled pendulum and simple pendulum?
simple pendulum center of mass and center of oscillation are at the same distance.coupled pendulum is having two bobs attached with a spring.
How is bar pendulum better than simple pendulum?
A bar pendulum is better than a simple pendulum because it has a larger moment of inertia, making it less affected by external forces like air resistance or friction, leading to more accurate results. Additionally, the bar pendulum has a more linear relationship between its period of oscillation and the length of the pendulum, allowing for easier calculations and predictions.
What is pendulum length?
The pendulum length is the distance from the point of suspension to the center of mass of a pendulum. It affects the period of the pendulum's swing, with longer lengths typically resulting in longer periods. A longer pendulum length will generally have a slower swing compared to a shorter length.
