Vibration: Difference between revisions
CSV import |
CSV import Tags: mobile edit mobile web edit |
||
| Line 35: | Line 35: | ||
{{Physics-stub}} | {{Physics-stub}} | ||
{{Engineering-stub}} | {{Engineering-stub}} | ||
<gallery> | |||
File:Drum_vibration_mode21.gif|Drum vibration mode | |||
File:suspension.jpg|Suspension | |||
File:Mass_spring.svg|Mass spring | |||
File:Simple_harmonic_oscillator.gif|Simple harmonic oscillator | |||
File:Mass_spring_damper.svg|Mass spring damper | |||
File:Damped_Free_Vibration.png|Damped free vibration | |||
File:Spring-mass_undamped.gif|Spring-mass undamped | |||
File:Spring-mass_under-damped.gif|Spring-mass under-damped | |||
File:Spring-mass_critically-damped.gif|Spring-mass critically-damped | |||
File:Spring-mass_over-damped.gif|Spring-mass over-damped | |||
File:Forced_Vibration_Response.png|Forced vibration response | |||
File:Square_wave_frequency_spectrum_animation.gif|Square wave frequency spectrum animation | |||
</gallery> | |||
Latest revision as of 12:01, 18 February 2025
Vibration refers to the oscillatory motion of an object about an equilibrium position. It is a common phenomenon observed in various physical systems, from the microscopic vibrations of atoms to the macroscopic vibrations of structures like buildings and bridges.
Types of Vibration[edit]
Vibrations can be classified into two main types: Free vibration and Forced vibration.
Free vibration occurs when a mechanical system is set into motion with an initial input and allowed to vibrate freely. Examples include the vibration of a tuning fork or a pendulum swinging back and forth.
Forced vibration occurs when a time-varying disturbance (load, displacement or velocity) is applied to a mechanical system. The response of the system is typically a vibration that occurs at the same frequency as the disturbance. Examples include the vibration of a washing machine or the shaking of a car engine.
Vibration Analysis[edit]
Vibration analysis is a branch of engineering that studies the behavior of mechanical systems when they are subjected to vibrations. It involves the measurement, analysis, and interpretation of the vibration response to understand the underlying causes and effects.
Vibration Control[edit]
Vibration control involves the design of systems to reduce or eliminate unwanted vibrations. This can be achieved through various methods such as damping, isolation, and absorption.
Effects of Vibration[edit]
Vibration can have both beneficial and detrimental effects. On the positive side, vibration is used in many industrial processes, such as in the compaction of materials or the separation of particles. On the negative side, excessive vibration can lead to mechanical failure, discomfort or health risks in humans, and environmental disturbance.
See Also[edit]
-
Drum vibration mode -
Suspension -
Mass spring -
Simple harmonic oscillator -
Mass spring damper -
Damped free vibration -
Spring-mass undamped -
Spring-mass under-damped -
Spring-mass critically-damped -
Spring-mass over-damped -
Forced vibration response -
Square wave frequency spectrum animation
