The wavelength changes inversely with the frequency.
The sound pressure amplitude tells about how loud the tone will be and the frequency (cycles per second) of the oscillation tells how high the sound of the tone will be. The amplitude gives the loudness of the tone: http://en.wikipedia.org/wiki/Loudness The frequency gives the pitch of the tone: http://en.wikipedia.org/wiki/Pitch_%28music%29
Frequency is usually not measured in "levels" (though the sound pressure or volume is) Frequency is measured in Hz (Hertz) or vibrations per second. Sound pressure is measured in Decibels
By the amount of time:)
it doesnt affect the amplitude as the mass and length remain constant
Velocity, temperature and pressure.
The frequency of collisions is changed.
The frequency of collisions is changed.
lower mass = higher frequency
The wavelength changes inversely with the frequency.
The sound pressure amplitude tells about how loud the tone will be and the frequency (cycles per second) of the oscillation tells how high the sound of the tone will be. The amplitude gives the loudness of the tone: http://en.wikipedia.org/wiki/Loudness The frequency gives the pitch of the tone: http://en.wikipedia.org/wiki/Pitch_%28music%29
Higher frequency increases the energy. Lower frequency decreases the energy.
Frequency is usually not measured in "levels" (though the sound pressure or volume is) Frequency is measured in Hz (Hertz) or vibrations per second. Sound pressure is measured in Decibels
The speed of a wave doesn't depend on its frequency.
Frequency has no effect on teh amplitude of a wave.
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A longer pendulum will have a smaller frequency than a shorter pendulum.