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What is known as periodic motion?
Periodic motion is any motion that repeats at regular intervals. Examples include the swinging of a pendulum, the vibrations of a guitar string, or the rotation of the Earth around the sun. Periodic motion can be described by parameters such as frequency, amplitude, and period.
DOES a pendulum have a periodic motion?
In actual conditions, a pendulum's motion can be seen as periodic, but decaying.
What type of motion does a pendulum have?
A pendulum exhibits simple harmonic motion, which is a type of periodic motion where the restoring force is directly proportional to the displacement from equilibrium. This causes the pendulum to oscillate back and forth in a regular pattern.
What force causes the periodic motion of a pendulum?
The force that causes the periodic motion of a pendulum is gravity. When the pendulum is displaced from its resting position, gravity acts as a restoring force that pulls it back towards equilibrium, resulting in the swinging motion.
What is a real world ex of a periodic motion?
A real-world example of periodic motion is the swinging of a pendulum, such as in a grandfather clock. The pendulum swings back and forth in a regular and repeating motion, controlled by the force of gravity.
What is known as periodic motion?
Periodic motion is any motion that repeats at regular intervals. Examples include the swinging of a pendulum, the vibrations of a guitar string, or the rotation of the Earth around the sun. Periodic motion can be described by parameters such as frequency, amplitude, and period.
DOES a pendulum have a periodic motion?
In actual conditions, a pendulum's motion can be seen as periodic, but decaying.
What type of motion does a pendulum have?
A pendulum exhibits simple harmonic motion, which is a type of periodic motion where the restoring force is directly proportional to the displacement from equilibrium. This causes the pendulum to oscillate back and forth in a regular pattern.
What force causes the periodic motion of a pendulum?
The force that causes the periodic motion of a pendulum is gravity. When the pendulum is displaced from its resting position, gravity acts as a restoring force that pulls it back towards equilibrium, resulting in the swinging motion.
To and fro vibratory motion of a swinging pendulum in a small arc?
The period or frequency of the pendulum
What is a real world ex of a periodic motion?
A real-world example of periodic motion is the swinging of a pendulum, such as in a grandfather clock. The pendulum swings back and forth in a regular and repeating motion, controlled by the force of gravity.
Why does a pendulum have periodic motion?
A pendulum has periodic motion because as it swings, the force of gravity acts as a restoring force that constantly pulls it back towards its equilibrium position. This causes the pendulum to oscillate back and forth in a predictable manner.
What is meant by the frequency of a periodic motion?
The frequency of a periodic motion refers to the number of cycles that are completed per second. The frequency is obtained by getting the reciprocal of the period.
Does every periodic motion have a frequency?
Yes, every periodic motion has a frequency, which represents the number of complete cycles or oscillations that occur in a given unit of time. The frequency is a fundamental property of periodic motion and is related to the time it takes for the motion to repeat itself.
Which type of motion is exhibited by tortional pendulum?
A torsional pendulum exhibits rotational periodic motion. You can create one by hanging some weight from a cord, and then rotating the weight. The cord becomes twisted, generating a torsion force, that will cause the weight to rotate in the oppopsite direction. Thus, a periodic rotation movement is generated.
Are all rotational motion periodic?
I think all rotational motion are periodic. There is not possible of nonperiodic
What is Purpose of simple pendulum experiment?
The purpose of a simple pendulum experiment is to investigate the relationship between the length of the pendulum and its period of oscillation. This helps demonstrate the principles of periodic motion, such as how the period of a pendulum is affected by its length and gravitational acceleration. It also allows for the measurement and calculation of physical quantities like the period and frequency of oscillation.
