Red has the longest wavelength in the visible spectrum.
The color red is often associated with the greatest intensity as it has the longest wavelength in the visible spectrum and can evoke strong emotions and reactions compared to other colors.
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.
Violet results from the greatest refraction as it has the shortest wavelength among visible colors, causing it to bend the most when passing through a medium like a prism.
546nm light wavelength corresponds to a green color.
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The color red is often associated with the greatest intensity as it has the longest wavelength in the visible spectrum and can evoke strong emotions and reactions compared to other colors.
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.
546nm light wavelength corresponds to a green color.
The color with the shortest wavelength is purple, sometimes called violet.
Violet results from the greatest refraction as it has the shortest wavelength among visible colors, causing it to bend the most when passing through a medium like a prism.
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The color with the smallest (or as scientist term it, the shortest) wavelength is the color violet, also known as purple.
The color with the shortest wavelength is violet. It has the highest frequency and energy among the visible colors.
A wavelength of 540 nm corresponds to the color green in the visible spectrum.
Violet light has a wavelength of 413 nanometers.
Radio waves have the greatest wavelength among the electromagnetic spectrum. They can have lengths ranging from a few millimeters to over a kilometer.
A wave with a wavelength of 10^-15 meters would have the greatest energy. This is because the energy of a wave is inversely proportional to its wavelength, meaning that as the wavelength decreases, the energy of the wave increases.