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The average response of a human ear at the ear drum is flat to about 500 Hz with a peak around 2.5KHz. This means that a tone at 300Hz will sound quieter than a tone with the same SPL output at 2KHz.
the lenght of the wave is depending on the vibration.
The high point of a wave is its creast or peak.
Sound is a longitudinal, mechanical wave that requires a medium.
The result of a reflected sound wave is obviously an echo.
The peak of a sound wave is the instant at which the particles in the conducting medium are displaced farthest from their rest position. Note that the peak ... or any other point in the wave ... moves through the medium, at the speed of . . . . . wait for it . . . . . sound !
The wave length is the distance between the peak of one sound pressure or electrical wave and the peak of the next. It's also known as one cycle (1 Hertz).
the amplitude of a wave is measured from the peak to trough from a given period.
Wavelength
The high point on a sound waveform is the point of maximum pressure, the pressure peak.
The speed of sound does not change with atmospheric pressure. The speed of sound changes with temperature.
In a radio you have the conversion of radio wave energy to sound wave energy.
In acoustic physics, "cycle" refers to the time between repetitions of the peak amplitude of the sound wave.
Yes, echoes can occur underwater. When a sound wave hits an object, such as the seabed or a submerged object, the sound wave bounces off and returns to the source, creating an echo. The depth and composition of the water, as well as the frequency of the sound wave, can affect the strength and clarity of the echo.
The distance from one wave peak to the next wave peak
The distance from one wave peak to the next wave peak
the amplitude of a sound wave is the air around you's temperature and the time of sound timed together. +++ No - the amplitude of any wave is its "height", which in sound is the wave's pressure. Time and temperature are not involved in amplitude.