"radio"
there is no real lower limit (in theory).
Radio as a group ; ELF (extremely low frequency) to be specific.
It isn't clear what type of wave you are talking about. If you mean electromagnetic waves, the answer is "radio waves".
Extremely low frequency (ELF) radio waves. They can have wavelengths of over 60,000 miles (100,000 km) and frequencies from 3 to 300 Hz.
Radio waves have the lowest energy levels. They also have the longest wavelengths and the lowest frequencies of EM radiation.
In the entire spectrum of electromagnetic waves, microwaves and radiowaves (microwaves are sometimes classified under radio waves), have the longest wavelengths, and the lowest frequencies (and therefore, energy).
Yes, they are the electromagnetic wave with the lowest frequency.
ALL the radiation from the lowest frequency to the highest.
Radio waves.
It isn't clear what type of wave you are talking about. If you mean electromagnetic waves, the answer is "radio waves".
Yes, light is electromagnetic waves. The longest wavelengths have the lowest frequencies and the lowest temperatures. The shortest wavelengths have the highest frequencies and the highest temperatures.
Extremely low frequency (ELF) radio waves. They can have wavelengths of over 60,000 miles (100,000 km) and frequencies from 3 to 300 Hz.
The highest frequency is gamma rays And the lowest is radio waves
-- The lowest frequencies that we have a name for are what we call "radio" waves. -- The highest frequencies that we have a name for are what we call "gamma" rays. Although there is not upper or lower limit in the electromagnetic spectrum.
Radio waves have the lowest energy levels. They also have the longest wavelengths and the lowest frequencies of EM radiation.
stellar waves
In the entire spectrum of electromagnetic waves, microwaves and radiowaves (microwaves are sometimes classified under radio waves), have the longest wavelengths, and the lowest frequencies (and therefore, energy).
Yes, they are the electromagnetic wave with the lowest frequency.
they vary due to their frequencies and wavelenght