Gamma rays have the shortest wavelengths among the electromagnetic spectrum, ranging from about 10 picometers to 10 femtometers.
The longest wavelength corresponds to long wave radio, I think the longest used is about 2000 meters. The shortest are gamma rays, which occur in radioactivity, these are from about 10-11 meters down.
Violet light has the shortest wavelength in the visible spectrum.
The shortest distance between two points on a wave where the wave pattern is repeated is one full wavelength. The distance between corresponding points on adjacent wave cycles is the wavelength of the wave, and this is the shortest distance for the pattern to repeat itself.
The color of the shortest wavelength is violet. Violet light has the shortest wavelength within the visible spectrum of light.
Gamma rays would have the shortest wavelength among electromagnetic waves.
Yes.
huh..
The longest wavelength corresponds to long wave radio, I think the longest used is about 2000 meters. The shortest are gamma rays, which occur in radioactivity, these are from about 10-11 meters down.
It would be its wave lengths!!
yes
a wave with the highest speed
Gamma rays have wavelengths shorter than 10 picometres (10^-11 metres), corresponding to frequencies exceeding 10 exahertz (10^19 Hz).It is theorised that the Planck length may be the smallest meaningful unit of distance. A wave with that wavelength would have a frequency of approx 6.2*10^34Hz.
Shortest: 7.995 m Longest: 8.005 m.
Violet light has the shortest wavelength in the visible spectrum.
It would be its wave lengths!!
The shortest distance between two points on a wave where the wave pattern is repeated is one full wavelength. The distance between corresponding points on adjacent wave cycles is the wavelength of the wave, and this is the shortest distance for the pattern to repeat itself.
For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.For the same speed of a wave (I suppose you are referring to electromagnetic waves), the highest frequency corresponds to the shortest wavelength.