Green light has a wavelength that is typically perceived as the brightest or strongest by the human eye. This is why many traffic lights use green to signal "go" since it is easily seen by most people.
The second strongest color of light is green, which has a wavelength around 510 nanometers. It falls between blue and yellow in terms of strength and is commonly seen in nature and technology.
546nm light wavelength corresponds to a green color.
The color with the smallest (or as scientist term it, the shortest) wavelength is the color violet, also known as purple.
The wavelength of light determines its color. Different wavelengths of light correspond to different colors in the visible light spectrum.
White light is the combination of all colors in the visible spectrum, so it could be considered the strongest color in terms of its ability to illuminate. However, in terms of individual colors, blue light has the highest energy and shortest wavelength, making it appear very bright and strong.
The second strongest color of light is green, which has a wavelength around 510 nanometers. It falls between blue and yellow in terms of strength and is commonly seen in nature and technology.
short wavelength
546nm light wavelength corresponds to a green color.
By the light's wavelength.
The color red has the longest wavelength of any color.
The color with the smallest (or as scientist term it, the shortest) wavelength is the color violet, also known as purple.
Red is the longest wavelength of visible light
The wavelength of light determines its color. Different wavelengths of light correspond to different colors in the visible light spectrum.
The colour of visible light with the longest wavelength is red (approximately 700 nanometres).
White light is the combination of all colors in the visible spectrum, so it could be considered the strongest color in terms of its ability to illuminate. However, in terms of individual colors, blue light has the highest energy and shortest wavelength, making it appear very bright and strong.
The color of visible light is determined by its wavelength.
The wavelength of maximum absorbence relates to the color, because the only color that is not absorbed will be the color of the item. For example, plants are green because they absorb red and blue light, and reflect green light.