the further the frequency from the resonant one, greater would be the damping effect, hence greater the sharpness the lowre is the damping effect
Damping is the resistance offered by a body when a system is in vibration. But the basic use of a damper(damping) is to help reduce the oscillations or vibrations.we can also conclude that we use damping to slow down the effect of a moving part.Damping controls the amplitude of vibrations just to avoid resonance conditions.
It will shorten the wavelength.
It will shorten the wavelength.
No.
the further the frequency from the resonant one, greater would be the damping effect, hence greater the sharpness the lowre is the damping effect
How does temperature affect wavelength?
Damping is the resistance offered by a body when a system is in vibration. But the basic use of a damper(damping) is to help reduce the oscillations or vibrations.we can also conclude that we use damping to slow down the effect of a moving part.Damping controls the amplitude of vibrations just to avoid resonance conditions.
Spiky or wavy surfaces have the effect of damping sound. Snow is spiky if you look through a microscope at it.
It will shorten the wavelength.
It will shorten the wavelength.
Jae Kyung Cha has written: 'Effect of loading rate on damping and stiffness in nailed joints' -- subject(s): Timber joints, Damping (Mechanics)
Chu n Chou has written: 'Effect of drying on damping and stiffness of nailed joints between wood and plywood' -- subject(s): Drying, Lumber, Damping (Mechanics)
It is the opposite of normal damping (oscillation decreases), so in negative damping to get even bigger oscillation.
No.
Energy does not effect WAVELENGTH, it effects the AMPLITUDE of the Wave.
The amplitude of resonant oscillations can be reduced by damping.Light damping reduces oscillations slowly.Heavy damping reduces oscillations quickly.Critical damping stops the oscillation within one cycle.The graph above shows light damping.