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Vibrations a second are measured in Hertz.
The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.
hertz??
Hz as a unit of measurement is "cycles per second" 100 Hz is then 100 cycles of the oscillation per second.
The number of periods per unit time is called the linear (or ordinary) frequency. Specifically periods per second has a special name that is "hertz."
Vibrations a second are measured in Hertz.
The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.The human ear can sounds between about 20 and 20,000 vibrations per second. Anything that produces this kind of vibration will be heard. Note that this may include secondary vibrations; for example, if a string has its main vibration at 15 Hz (vibrations per second), then it will also have secondary vibrations at 30 Hz. 45 Hz., etc.
Hertz.
The frequency - that is, the number of vibrations per second. Lower notes have less vibrations per second.
440 Hertz means 440 cycles (or vibrations) per second.440 Hertz means 440 cycles (or vibrations) per second.440 Hertz means 440 cycles (or vibrations) per second.440 Hertz means 440 cycles (or vibrations) per second.
hertz??
Hz as a unit of measurement is "cycles per second" 100 Hz is then 100 cycles of the oscillation per second.
The number of periods per unit time is called the linear (or ordinary) frequency. Specifically periods per second has a special name that is "hertz."
frequency
frequency
It is the frequency.
It depends how high the sound is, the a above middle C is 440Hz (vibrations/second) and there are 110Hz in an octave. From there you can work out the Hz of any note.