Violet is the visible light color that has the highest energy photons. Ultraviolet and X-rays aren't really "colors", but they have even more energy per photon.Basically, the energy is proportional to the frequency, so the higher the frequency, the higher the energy.
The visible light spectrum ranges from red light (620 nm) to violet light (480nm). Because wavelength is inversely proportional to energy, violet light posseses the most energy while red light possesses the least (as measured in photons).
The highest energy photon the eye can sense has been called the color violet.
As electrons are excited by incoming photons, they jump out of their normal orbitals into higher energy states. They quickly soon after fall back into their normal energy state (their ground state). As they fall back into their ground state, they must give off some of their energy, which they do in the form of a photon. The "size" of the jump back to their ground state determines what color this photon will be. Because each molecule has different "spacing" between energy states, they give off different colored photons. This determines the color of an object.
change of photons
Photons with higher energy correspond to electromagnetic radiation with higher frequency/shorter wavelength. In the visible band, the color with the highest frequency is the last one you can see on the VIOLET end of the spectrum.
Shortest wavelength means the highest frequency, meaning the photons have the highest energy. That is color violet. The violet light colors the skin brown. Red light with lower energy photons cannot do that.
Wavelength, energy, color (if visible).
Each photon of blue light has more energy than a photon of any other color, because the blue ones have the highest frequency.
light is made up of photons which is electromatic energy
Violet light has the highest energy.
Violet is the visible light color that has the highest energy photons. Ultraviolet and X-rays aren't really "colors", but they have even more energy per photon.Basically, the energy is proportional to the frequency, so the higher the frequency, the higher the energy.
High-energy photons correspond to short-wavelength light while low-energy photons correspond to long-wavelength light. In short, the answer is red. For short-wavelengths (high energy photons) it would appear blue.
Violet
Red color
Fire is a stream of photons emitted by the material that undergoes combustion. Color of the fire depends on the energy level of these photons. Small portion of burning material will be in plasma state.
The visible light spectrum ranges from red light (620 nm) to violet light (480nm). Because wavelength is inversely proportional to energy, violet light posseses the most energy while red light possesses the least (as measured in photons).