0
A system that is critically damped will return to zero more quickly than an overdamped or underdamped system. Underdamping will result in oscillations for an extended period of time, and while overdamped things will return to zero without much (or any, I think) oscillations they will get there more slowly.
What else can I help you with?
What is advantage of capacitor filter over RC filter?
sounds same to me.maybe you meant advantage of LC filter over RC filter
Critical discipline emphasizes product over process?
Your grandma
Major advantage in cpp compared to c?
The major advantage of C++ over C is the Object Oriented Programming compatibility in C++.
What is the advantage of RF over IR?
Because RF does not require line-of-sight.
What is the advantage of overriding a class?
In object oriented programming language, it is possible to override classes. and the advantage over this is we can just show the or run the methods of the base class.
What is the advantage of an ayrton shunt ammeter over a multirange ammeter?
to increase the sensitivity for the same damping torque
What is over damping?
Overdamping occurs when the system achieves the desired result without overshooting, but takes longer than necessary to do so, as the critical elements require a slower response time.
What is the formula for Damping frequency?
The formula for damping frequency is ω_d = ω_n * sqrt(1 - ζ^2), where ω_d is the damping frequency, ω_n is the natural frequency, and ζ is the damping ratio. It represents the rate at which the amplitude of a damped oscillator decreases over time.
What is actual damping ratio in buildings?
The actual damping ratio in buildings refers to the measure of how quickly the vibrations in a building dissipate over time due to damping mechanisms such as friction, material hysteresis, and energy dissipation systems. It is an important parameter in evaluating the structural response of buildings during earthquakes or other dynamic loads. A higher damping ratio indicates a building with more energy dissipation capacity and better performance under dynamic loads.
What is the principal advantage of a sweepback design wing over a straight wing design?
The critical Mach number will increase significantly
When there is reduction in amplitude over every cycle of vibration then the body is said to have?
Damping. Damping is the phenomenon where the amplitude of oscillation gradually decreases over each cycle of vibration, resulting in the dissipation of energy in the system. It is commonly seen in mechanical systems and structures.
When a wave is acted upon by an external damping force what happens to the energy of the wave?
When a wave is acted upon by an external damping force, the energy of the wave decreases over time. The damping force absorbs energy from the wave, causing it to lose amplitude and eventually dissipate.
Why does the majority party have an advantage over the minority party under under the committee system?
Any majority party will always have an advantage over a minority party. This is because there are more people in the majority party so their vote out weighs that of the minority party.
What is damping coefficient of a pendulum?
The damping coefficient of a pendulum is a measure of how quickly the pendulum's oscillations dissipate over time due to external influences like air resistance or friction. A larger damping coefficient means the pendulum's motion will decay more rapidly, while a smaller damping coefficient means the motion will persist longer. The damping coefficient is typically denoted by the symbol "b" in the equation of motion for a damped harmonic oscillator.
When damping is occur in the system?
Damping occurs in a system when energy is dissipated and the amplitude of the oscillations gradually decreases over time. This can be due to factors such as friction, air resistance, or material properties absorbing the energy of the system. Damping helps stabilize the system and prevent it from oscillating indefinitely.
How can one determine the damping factor in a system?
The damping factor in a system can be determined by analyzing the rate at which the system's oscillations decrease over time. This can be done by measuring the amplitude of the oscillations and comparing it to the system's natural frequency. The damping factor is then calculated using a formula that takes into account these measurements.
What is the significance of the damping constant in the context of oscillatory systems?
The damping constant in oscillatory systems determines how quickly the oscillations decay over time. It is important because it affects the stability and behavior of the system, influencing factors such as amplitude and frequency of the oscillations. A higher damping constant leads to faster decay of oscillations, while a lower damping constant allows for more sustained oscillations.
