The colour of visible light with the longest wavelength is red (approximately 700 nanometres).
The color of light is related to its frequency or wavelength.
Its wavelength (or frequency).
546nm light wavelength corresponds to a green color.
Wavelength is directly related to the color of light. Different colors are associated with different wavelengths of light. For example, red light has longer wavelengths compared to blue light. When light enters our eyes, the color we perceive is based on the wavelength of the light.
Different colors of light correspond to different wavelengths of light. For example, red light has a longer wavelength compared to blue light. This difference in wavelength determines the color that our eyes perceive.
The shorter the wavelength of visible light, the higher the frequency and the greater the energy of the photons.
It's not that a particular color has the longest wavelength. The wavelength BECOMES longer when a star moves away from us. Red light has a longer wavelength than blue, for example.
The color of light is related to its frequency or wavelength.
Red light has a longer wavelength and lower frequency compared to blue light. Blue light has a shorter wavelength and higher frequency, which is why it appears bluer in color to the human eye.
Red has the longest wavelength, up to 750nm.
Each color has a wavelength and frequency associated with it. We're familiar with the colors of the rainbow: red, orange, yellow, green, blue and violet. These colors range from longer wavelength (lower frequency) red up through shorter wavelength (higher frequency) violet. As one moves up through those colors from red to violet, the color is an indication to relative wavelength.
Compared to yellow light, orange light has: A LONGER WAVELENGTH!
Its wavelength (or frequency).
546nm light wavelength corresponds to a green color.
The colder a star is the longer the light waves it emits. Light wavelength is what we perceive as color.
A photon's color is determined by its wavelength, which corresponds to a specific color in the visible spectrum. A photon of shorter wavelength appears bluer while a longer wavelength appears redder. The perception of color in photons is a result of how our eyes detect and interpret different wavelengths of light.
Wavelength is directly related to the color of light. Different colors are associated with different wavelengths of light. For example, red light has longer wavelengths compared to blue light. When light enters our eyes, the color we perceive is based on the wavelength of the light.