In visible light, the color with the greatest frequency is violet. Violet light has a shorter wavelength and higher frequency than other colors in the visible spectrum, such as red, blue, and green.
The color of the rainbow with the highest frequency is violet.
Gamma rays have the greatest frequency among all electromagnetic waves. They have the shortest wavelengths and the highest energy.
The wave with the greatest speed will have the greatest wavelength. This relationship is governed by the wave equation: speed = frequency x wavelength. Therefore, if two waves have the same frequency and the speed is greater in one wave, then its wavelength will be greater as well.
Blue light has the greatest amount of energy among visible light. It has a shorter wavelength and higher frequency compared to other colors, which translates to higher energy per photon.
Frequency is directly related to color in terms of light waves. Higher frequency waves appear as colors on the violet end of the spectrum, while lower frequency waves appear as colors on the red end of the spectrum. The frequency of light waves determines the specific color that is perceived by our eyes.
If by greatest frequency you mean highest frequency, we know that the upper end of the electromagnetic spectrum has the greatest frequency. This is the home to the gamma rays. They have the highest frequency, shortest wavelength, and the greatest energy.
The data item with the greatest frequency is the mode.
Every color has a different frequency. That's why it appears to our eyes as a different color.
The color of the rainbow with the highest frequency is violet.
Wavelength, or alternatively its frequency.
Frequency determines color. Frequency is determined by the origin of the photon, i.e. emitted from an excited atom.
Gamma rays have the greatest frequency among all electromagnetic waves. They have the shortest wavelengths and the highest energy.
the electromagnetic spectrum with the smallest frequency will have the greatest period.In conclusion, because Radio Waves have the lowest frequency they therefore have the greatest period.
a phenotype with the greatest frequency in a trait is enviromental conditions. (G00D !-U<K)
Violet.
frequency, energy
The wave with the greatest speed will have the greatest wavelength. This relationship is governed by the wave equation: speed = frequency x wavelength. Therefore, if two waves have the same frequency and the speed is greater in one wave, then its wavelength will be greater as well.