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.
Photon energy can be increased by following two methods. 1). by increase in frequency of one photon as (E = hf); where f denotes the frequency of corresponding region. In this case, the electromagnetic region will change to higher frequency region or shorter wavelength region. The photon energy may increase, but not the intensity. 2). secondly increase in the number of photons (n) as E= nhf. If the number of photons of a particular frequency increase, photon energy also increases. In this case, intensity of light of definite frequency (either blue, red etc.) increase simultaneously.
Violet light has the most energy among visible light because it has the shortest wavelength and highest frequency. The energy of a photon is directly proportional to its frequency, so higher frequency light like violet light carries more energy.
In case of visible spectrum, violet has got least wavelength and hence highest frequency. The energy of light photon is given by the expression E = h nu where nu is the frequency. Hence violet has got maximum energy per photon. That is why, in case ordinary oven, where we use fire wood, the flame colour would be yellow or orange. That means the heat content will be less. But in case of kerosene stove or gas stove using the proper design of the burner, the colour of the flame would be blue or violet. Hence the heat content becomes more and cooking is done in shorter duration.
A photon is a fundamental particle that doesn't consist of smaller components. It is a packet of energy that carries electromagnetic radiation and is considered as the most basic unit of light.
Ultraviolet light has the most energy among visible light, followed by visible light, then infrared light. This is because the energy of a photon is inversely proportional to its wavelength, with shorter wavelengths having higher energy. Ultraviolet light has shorter wavelengths than visible light, making it more energetic.
A photon's energy is directly proportional to its frequency (inversely proportional to its wavelength).In any given interval of the spectrum, the highest frequency (shortest wavelength) carries the most energy.For visible light, that corresponds to the violet end of the 'rainbow'. The last color your eyes can perceiveat that end is the color with the most energy per photon.
Photon energy can be increased by following two methods. 1). by increase in frequency of one photon as (E = hf); where f denotes the frequency of corresponding region. In this case, the electromagnetic region will change to higher frequency region or shorter wavelength region. The photon energy may increase, but not the intensity. 2). secondly increase in the number of photons (n) as E= nhf. If the number of photons of a particular frequency increase, photon energy also increases. In this case, intensity of light of definite frequency (either blue, red etc.) increase simultaneously.
Violet light has the most energy among visible light because it has the shortest wavelength and highest frequency. The energy of a photon is directly proportional to its frequency, so higher frequency light like violet light carries more energy.
In case of visible spectrum, violet has got least wavelength and hence highest frequency. The energy of light photon is given by the expression E = h nu where nu is the frequency. Hence violet has got maximum energy per photon. That is why, in case ordinary oven, where we use fire wood, the flame colour would be yellow or orange. That means the heat content will be less. But in case of kerosene stove or gas stove using the proper design of the burner, the colour of the flame would be blue or violet. Hence the heat content becomes more and cooking is done in shorter duration.
Each photon of blue light has more energy than a photon of any other color, because the blue ones have the highest frequency.
A photon is a fundamental particle that doesn't consist of smaller components. It is a packet of energy that carries electromagnetic radiation and is considered as the most basic unit of light.
Ultraviolet light has the most energy among visible light, followed by visible light, then infrared light. This is because the energy of a photon is inversely proportional to its wavelength, with shorter wavelengths having higher energy. Ultraviolet light has shorter wavelengths than visible light, making it more energetic.
Shorter wavelengths of light, such as gamma rays, X-rays, and ultraviolet rays, carry the most energy per photon. This is because energy is inversely proportional to wavelength, so shorter wavelengths have higher energy.
Theoretically, gamma rays are distinguished by their source, not by the amount of energy each photon carries, so it's not really possible to answer.In practice, most gamma rays have far more energy per photon than visible light.
Black... im not sure why though.
Well, first of all, protons don't make light. I think you mean 'photons'. A photon of ultraviolet light carries more energy than a photon of visible light, because it has a higher frequency / shorter wavelength.
A quantum of light energy is called a photon. It is the smallest unit of light energy that behaves both like a particle and a wave. Photons carry electromagnetic radiation and have properties like energy, momentum, and frequency.