That would be hard to answer, especially without a definition of "typical".
We presently generate and detect radio signals, for communication and various
other applications, over a range of frequencies of perhaps 50 KHz to 300 GHz,
corresponding to wavelengths between 1 millimeter and 6 kilometers.
102.2
Wavelength
One convenient working definition of 'radio' is: Electromagnetic radiation withfrequency up to 300 GHz / wavelength down to 1 millimeter.'Radio' is our name for the lowest frequency / longest wavelength, so there'sno lower limit on frequency, or upper limit on wavelength.
Extra-low frequency radio waves can have wavelengths as long as 3.5 miles or more. The shortest wavelength is around 1 mm.
Wavelength = (speed) divided by (frequency) = (300,000,000) / (60,000) = 5,000 meters
~ 2.94m
Short wavelength
That depends on what station the radio is tuned to and the other radio signal. In general, they tend to be quite similar if not identical.
That would be hard to answer, especially without a definition of "typical".We presently generate and detect radio signals, for communication and variousother applications, over a range of frequencies of perhaps 50 KHz to 300 GHz,corresponding to wavelengths between 1 millimeter and 6 kilometers.
"radio waves" have longest wavelength..
The signal with the longest wavelength is radio waves. They have wavelengths ranging from meters to kilometers.
The wavelength of a radio wave can be calculated using the formula: wavelength = speed of light / frequency. For a radio station broadcasting at 3 MW (megawatts), which is likely to be in the medium-frequency range, the approximate wavelength would be around 100 meters.
102.2
A typical microwave wavelength ranges from 1 millimeter to 1 meter, with most household microwaves operating at a frequency of around 2.45 gigahertz, which corresponds to a wavelength of approximately 12.2 centimeters.
Radio waves.Radio waves.
Wavelength
Radio waves have the longest wavelength among the types of electromagnetic radiation listed.