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The speed of the vibration. High speed vibration = high frequency = short wavelength = high pitch. Low speed vibration = low frequency = long waves = low pitch.
thickness doesnt affect it. The higher the density of the material, the greater the speed of sound. e.g 330 m/s in air 1500 m/s in water 4500 m/s in solids
Amplitude has to do with sound. Vibrating air creates sound using amplitude which is the size of the vibration, and how loud it is. Frequency is the speed of the vibration. The higher the speed, the higher the sound and vice-versa. Amplitude has no effect on wave speed as relates to sound. I believe the same holds for waves of water. Amplitude or size of the wave effects its impact, not its speed.
Sound is caused by a vibration of the leaves. Depending on the shape and stiffness of the leaves, the sound will sound different. Also the speed of the wind will affect the loudness and pitch of the sound.
In solids, heat is the energy of vibrating molecules or atoms; the higher the temperature, the greater the vibration. And when molecules or atoms vibrate more, there will be more space between them.
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The fundamental frequency is the lowest mode of vibration of a system. If you think of a taut string, the lowest mode with which it can vibrate is the one where the centre of the string travels the maximum distance up and down so the string forms a single arc. It is also possible for it to vibrate so that two arcs (one up and one down) fit into the string, and there are many more possibilities with higher frequencies. On a stringed instrument you can hear the fundamental frequency as the normal note which the string plays, and the others as overtones. Other systems exhibit the same phenomenon.
The answer depends on what the archer wants out of a silencer. A "string tamer" is an excellent choice to add because it stops string slap and significantly reduces vibration without any loss in arrow speed. If you add "spiders" or an equivalent thereof, you will experience a decrease in arrow speed...albeit by only a few feet per second. This addition can be nullified with the additional use of speed balls; however, an after market adaptation like the speed ball may increase wear on the string. Another vibration/silencer dampener is a good stabilizer. These are but a few of the things you can do to silence a bow.
The velocity, v, of a wave in a taut string is dependant on the tension in the string, T, and the mass distribution (or mass per length ratio), μ.v2 = T/μ
thickness doesnt affect it. The higher the density of the material, the greater the speed of sound. e.g 330 m/s in air 1500 m/s in water 4500 m/s in solids
The speed of the vibration. High speed vibration = high frequency = short wavelength = high pitch. Low speed vibration = low frequency = long waves = low pitch.
They are feeling a speed related vibration.They are feeling a speed related vibration.
The thickness of a guitar string affects the pitch produced by it. The thicker a string is, the deeper the tone. However, the reason that the pitch becomes higher when a fret is pressed down on the string is because the metal of the fret is stopping all vibrations beyond that fret, thus making the string "shorter." You might be talking about the gauge of a string. Strings have different gauges to better fit the preferences of the guitarist. The higher the gauge, the harder it is to break that string. However, a higher gauge makes the string harder to play and may hurt the fingers of newer guitarists.
If there is an increase in the temperature of a substance, that indicates the increase in vibration and speed of the particles. If there is a decrease in the temperature of a substance, that indicates the decrease in vibration and speed of the particles.
At high speed vibration usually its tire balance. Have your tires rotated and balanced.
Its viscosity affects the speed of its flow. If it had a low viscosity, then its flow would be much faster and hence more menacing to the environment.
A vibration motor works by placing an unbalanced weight on the end of a rotating shaft. This produces varying levels of vibration based on the speed of the motor.