Light exhibits the qualities of both a particle and a wave. Wave-particle duality is a fundamental concept of quantum mechanics, and it is used to assist in explaining the nature of, in this case, light. Light does, indeed, exhibit both the qualities of a particle and those of a wave. And why is light a wave? Because it is. It is a wave because being a wave is an integral part of its fundamental nature. We cannot separate the wave characteristic from light and still have light. Light behaves like a wave, and that is why it is a wave. Perhaps it might be more helpful to say light behaves as it does, and "wave" is the word we use to describe its behavior. Perhaps that perspective, the view that light does its thing and we call what it does a wave, will make it easier to understand and accept that light is a wave. A couple of links are provided to related articles posted by our friends at Wikipedia, where knowledge is free.
The opposite of ultraviolet light is infrared light. Infrared light has longer wavelengths and lower frequencies compared to ultraviolet light, which has shorter wavelengths and higher frequencies.
Yes, the frequencies of light increase from red to violet. Red light has lower frequencies and longer wavelengths, while violet light has higher frequencies and shorter wavelengths. This is due to the relationship between frequency and wavelength in the electromagnetic spectrum.
White light is a combination of all the frequencies of visible light, ranging from approximately 430 to 770 terahertz. These frequencies represent the different colors of the spectrum, from violet to red.
An incandescent gas emits a continuous spectrum of light, encompassing a wide range of frequencies. The specific frequencies emitted depend on the composition and temperature of the gas.
Yes, visible light waves have higher frequencies than radio waves. Visible light waves fall within the range of frequencies on the electromagnetic spectrum that is higher than radio waves.
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
Different frequencies of visible light are perceived as different colors.
infrared
The opposite of ultraviolet light is infrared light. Infrared light has longer wavelengths and lower frequencies compared to ultraviolet light, which has shorter wavelengths and higher frequencies.
Yes, the frequencies of light increase from red to violet. Red light has lower frequencies and longer wavelengths, while violet light has higher frequencies and shorter wavelengths. This is due to the relationship between frequency and wavelength in the electromagnetic spectrum.
White light is a combination of all the frequencies of visible light, ranging from approximately 430 to 770 terahertz. These frequencies represent the different colors of the spectrum, from violet to red.
An incandescent gas emits a continuous spectrum of light, encompassing a wide range of frequencies. The specific frequencies emitted depend on the composition and temperature of the gas.
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
No, light is not part of the radio spectrum. But, both the radio spectrum and light are part of the electromagnetic spectrum. The electromagnetic spectrum is a range of frequencies from very low to very high. Light frequencies are higher than radio frequencies but both are the same kind of thing.
a mixture of frequencies.
No.
Yes, visible light waves have higher frequencies than radio waves. Visible light waves fall within the range of frequencies on the electromagnetic spectrum that is higher than radio waves.