We generate and detect radio waves for purposes of communication, cooking, and
scientific investigation, in the frequency range of roughly 30 KHz to 300 GHz,
corresponding to wavelengths between 10,000 meters and 1 millimeter.
Fm radio waves travel at various frequencies between 87.5 MHz and 108.0 MHz
If an electromagnetic wave has a frequency of 100 Hz, then its wavelengthin vacuum is almost 1,900 miles, and we would call it a radio wave in the ELF(extremely low frequency) range.
ultrasonic wave is sound frequency
One example of a low frequency wave is a radio wave, which has a frequency range typically between 30 Hz and 300 GHz. These waves are used for broadcasting radio and television signals, as well as for wireless communication.
The frequency of an AM radio wave is typically in the range of 540 kHz to 1600 kHz (540,000 Hz to 1,600,000 Hz). A broadcast at 640 Hz would be extremely low and not typical for an AM radio station.
Radio waves are lower frequency.
The difference between a radio wave and a x-ray is the fact that x-rays have a much higher frequency. Since higher frequency means more energy in electromagnetic waves, x-rays can be used for purposes such as taking photos of things inside the body. Radio waves are at a lower frequency and have a much longer wavelength. They are used in radio, television, and communication.
2(frequency deviation+signal frequency)
The frequency of a wave is the same as the frequency of the source that produces it. The frequency of a wave is determined by the frequency of the vibrating source that creates it, so they are directly related.
Radio waves have a relatively low frequency compared to other types of electromagnetic waves. They typically have frequencies in the range of tens of kilohertz to hundreds of gigahertz.
c=wavelength*frequency f=c/λ
Gamma ray