It depends: the frequency of what? For example, in the case of a string moving back and forth, that would depend on the length of the string, on its mass, and on its tension.
A frequency of one cycle per second in a wave is called one Hertz (Hz).
Frequency is the number of complete cycles passing a point each second. It is typically measured in hertz (Hz), where one hertz is equivalent to one cycle per second.
The term is frequency. It is measured in hertz (Hz), where one hertz equals one cycle per second.
Hertz (Hz)
Hertz (Hz) is a term for cycles per second.
Hertz (Hz) is the SI unit of frequency, equal to one cycle per second.
A frequency of one cycle per second in a wave is called one Hertz (Hz).
The unit to measure the frequency of a sound wave is hertz (Hz). One hertz is equal to one cycle per second. Frequency is a measure of how many wave cycles occur in a given time period, typically measured in seconds. In the context of sound waves, frequency determines the pitch of the sound, with higher frequencies corresponding to higher pitches.
the frequency is 1 divided by the cycle time, or 1/100 microseconds = 10,000 cycles per second
Frequency is the number of complete cycles passing a point each second. It is typically measured in hertz (Hz), where one hertz is equivalent to one cycle per second.
The term is frequency. It is measured in hertz (Hz), where one hertz equals one cycle per second.
1 hertz
Hertz (Hz)
Frequency is measured in hertz. Cycles per second.
Hertz (Hz) is a term for cycles per second.
The SI unit of frequency is the hertz (Hz), which is defined as one cycle per second.
Not sure about duty cycle of a waveform. The frrequency is the inverse of the period and the period is the inverse of the frequency. Frequency (it pains me to tell you) is measured in Hertz, cycles per second. Period is the time for one cycle or seconds per cycle. If we let f be frequency and T be period, then f=1/T and T= 1/f