A photon has a wavelength, and when a certain wavelength of light hits our eyes, we see it as a color. A mix of different wavelengths appear to us as other colors; and a whole bunch of different wavelengths together looks white.

Each photon, though, is just one wavelength; a single “pure” color. The thing is, though, the wavelength / color can change. For example, if you move towards it, the wavelength is shorter and color shifts bluer; move away, the wavelength and color shifts redder.

Phosphorescence is the same thing as fluorescence, except the pigments hold onto the energy for a little while and emit visible photons slowly over time, so the pigments glow in the dark.

Phosphorescence is the same thing as fluorescence, except the pigments hold onto the energy for a little while and emit visible photons slowly over time, so the pigments glow in the dark.

Phosphorescence is the same thing as fluorescence, except the pigments hold onto the energy for a little while and emit visible photons slowly over time, so the pigments glow in the dark.

The smallest units of light are called photons, and each photon has a unique color, often known as a “wavelength.” Therefore, a single photon only represents one color and not the full range of hues found in light.
There are several photons, each with a unique hue, that are blended together to produce the various colors of light that humans see, such as a rainbow. Together, our eyes and brains enable us to perceive and comprehend all of these hues. So although though a single photon can only have one hue, the stunning variety of colors we see in the world is actually made up of many different photons working together!

The smallest units of light are called photons, and each photon has a unique color, often known as a “wavelength.” Therefore, a single photon only represents one color and not the full range of hues found in light.
There are several photons, each with a unique hue, that are blended together to produce the various colors of light that humans see, such as a rainbow. Together, our eyes and brains enable us to perceive and comprehend all of these hues. So although though a single photon can only have one hue, the stunning variety of colors we see in the world is actually made up of many different photons working together!

The smallest units of light are called photons, and each photon has a unique color, often known as a “wavelength.” Therefore, a single photon only represents one color and not the full range of hues found in light.
There are several photons, each with a unique hue, that are blended together to produce the various colors of light that humans see, such as a rainbow. Together, our eyes and brains enable us to perceive and comprehend all of these hues. So although though a single photon can only have one hue, the stunning variety of colors we see in the world is actually made up of many different photons working together!

Photons are too small to have color. All particles are. We do have something called quantum chromodynamics which deals with gluons and the strong force which holds particles together. We say they are a particular color but that’s just to make it easier, they are too small to have color.

Photons are too small to have color. All particles are. We do have something called quantum chromodynamics which deals with gluons and the strong force which holds particles together. We say they are a particular color but that’s just to make it easier, they are too small to have color.

Photons are too small to have color. All particles are. We do have something called quantum chromodynamics which deals with gluons and the strong force which holds particles together. We say they are a particular color but that’s just to make it easier, they are too small to have color.