Wiki User
∙ 12y agoCould be the tension in the string from which it hangs.
Wiki User
∙ 12y agoThe centripetal force that keeps a pendulum oscillating is provided by the tension in the string or rod to which the pendulum is attached. This tension constantly changes direction as the pendulum swings, always acting towards the center of the circular arc that the pendulum follows.
The motion of a simple pendulum will be simple harmonic when the angle of displacement from the vertical is small (less than 10 degrees) and the amplitude is also small.
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.
Yes, a pendulum exhibits periodic motion. It swings back and forth in a predictable pattern, following the laws of physics related to its length and amplitude of oscillation.
A back-and-forth motion is often called oscillation or reciprocation. It describes a repeated movement in opposite directions.
A pendulum swinging back and forth is an example of a motion that repeatedly follows the same path. The oscillation of a metronome or a rocking chair is another instance of this type of motion.
Motion of pendulum.
A simple pendulum exhibits simple harmonic motion
It is a side to side motion like a pendulum in a clock
The motion of a simple pendulum will be simple harmonic when the angle of displacement from the vertical is small (less than 10 degrees) and the amplitude is also small.
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.
Yes, a pendulum exhibits periodic motion. It swings back and forth in a predictable pattern, following the laws of physics related to its length and amplitude of oscillation.
A back-and-forth motion is often called oscillation or reciprocation. It describes a repeated movement in opposite directions.
A pendulum swinging back and forth is an example of a motion that repeatedly follows the same path. The oscillation of a metronome or a rocking chair is another instance of this type of motion.
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.
Oscillation refers to repetitive back-and-forth motion around a central point, such as swinging or vibrating. Periodic motion is a broader term that includes any motion that repeats at regular intervals, like the motion of a pendulum. Oscillation is a type of periodic motion, but not all periodic motion involves oscillation.
The To and Fro motion about the mean position of any system is known as the vibration or oscillation. Example- A simple pendulum.
A pendulum's motion is governed by the principles of gravity and inertia. When a pendulum is displaced from its resting position, gravity pulls it back towards equilibrium, causing it to oscillate. The length of the pendulum and the angle of displacement influence its period of oscillation.