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What happens to the period of a pendulum if you increase its mass?
Increasing the mass of a pendulum would not change the period of its oscillation. The period of a pendulum only depends on the length of the pendulum and the acceleration due to gravity, but not the mass of the pendulum bob.
What happens when you double the mass of a pendulum?
Doubling the mass of a pendulum will not affect the time period of its oscillation. The time period of a pendulum depends on the length of the pendulum and the acceleration due to gravity, but not on the mass of the pendulum bob.
WHAT IS the term for the mass at the end of a pendulum?
The mass at the end of the pendulum is the bob
How do you reduce the frequency of oscillation of a simple pendulum?
You can reduce the frequency of oscillation of a simple pendulum by increasing the length of the pendulum. This will increase the period of the pendulum, resulting in a lower frequency. Alternatively, you can decrease the mass of the pendulum bob, which will also reduce the frequency of oscillation.
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.
What happens to the period of a pendulum if you increase its mass?
Increasing the mass of a pendulum would not change the period of its oscillation. The period of a pendulum only depends on the length of the pendulum and the acceleration due to gravity, but not the mass of the pendulum bob.
Mass and pendulum oscillation?
Mass oscillation time period = 2 pi sq rt. (m/k) Pendulum oscillation time period = 2 pi sq rt. (l/g)
What happens when you double the mass of a pendulum?
Doubling the mass of a pendulum will not affect the time period of its oscillation. The time period of a pendulum depends on the length of the pendulum and the acceleration due to gravity, but not on the mass of the pendulum bob.
WHAT IS the term for the mass at the end of a pendulum?
The mass at the end of the pendulum is the bob
How do you reduce the frequency of oscillation of a simple pendulum?
You can reduce the frequency of oscillation of a simple pendulum by increasing the length of the pendulum. This will increase the period of the pendulum, resulting in a lower frequency. Alternatively, you can decrease the mass of the pendulum bob, which will also reduce the frequency of oscillation.
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.
What happens to the period of oscillation when the mass of pendulum bob is increased?
The period of oscillation increases as the mass of the pendulum bob is increased. This is because the force required to move the heavier bob is greater, leading to a slower oscillation. The period is directly proportional to the square root of the length of the pendulum and inversely proportional to the square root of gravitational acceleration.
What is center of oscillation?
The center of oscillation is the point along a pendulum where all its mass can be concentrated without affecting its period of oscillation. It is the point at which an equivalent simple pendulum would have the same period as the actual compound pendulum.
The weight on a pendulum is called?
The weight on a pendulum is a 'mass' or a 'bob'.
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.
Which variables must be controlled when determining the effect of mass on the period of the pendulum?
When determining the effect of mass on the period of a pendulum, you must control the length of the pendulum and the angle at which it is released. By keeping these variables constant, you can isolate the effect of mass on the period of the pendulum for a more accurate comparison.
What would be the effect of replacing the steel with a wooden ball or a lead ball of th same size in a simple pendulum?
Replacing the steel ball with a wooden ball in a simple pendulum would decrease the mass of the pendulum, leading to a shorter period of oscillation. On the other hand, replacing it with a lead ball would increase the mass, resulting in a longer period of oscillation due to the higher inertia.
