Within the range of visible light, it's the light with the shortest wavelength (highest frequency). That's the
violet end of the spectrum. Past that, ultraviolet light, which is invisible, has higher energy.
Red does as it absorbs photons at blue end of the spectrum( the higher energy) and reflects light at the red end of the spectrum (a lower energy). While the blue light absorbs energy at the red end of the spectrum and reflects blue light
Gamma radiation is an extremely high frequency EM wave and is probably the common lightwave with the highest energy. Since energy is proportional to frequency, the highest energy wave would be that with the highest frequency.
That's called gamma radiation.
It really depends on the type of wave. In the case of electromagnetic waves, a higher frequency results in more energy per photon. Therefore, a longer wavelength results in less energy per photon.
light energy
A spectrometer measures the wavelength, wave number, and photon energy of light. They are measurements of the type and energy levels of light.
Light is energy. Light is made of massless particles called photons that travel at the speed of light. Photons at a given frequency carry energy equal to the Planck constant times the photon's frequency.
Red does as it absorbs photons at blue end of the spectrum( the higher energy) and reflects light at the red end of the spectrum (a lower energy). While the blue light absorbs energy at the red end of the spectrum and reflects blue light
Light is an oscillation of the electromagnetic (photon) field.
Gamma radiation is an extremely high frequency EM wave and is probably the common lightwave with the highest energy. Since energy is proportional to frequency, the highest energy wave would be that with the highest frequency.
a photon
That's called gamma radiation.
No, the transfer of energy in the form of invisible waves is radiation.Have a awesome day !!! :)Conduction is the transfer of heat by contact, molecule to molecule.
It really depends on the type of wave. In the case of electromagnetic waves, a higher frequency results in more energy per photon. Therefore, a longer wavelength results in less energy per photon.
Only one type of light exists. It is called a photon. A photon travels at almost 300,000 kilometers a second. You can change its frequency and aptitude. As a result you can put an almost infinite amount of information on one photon of light. So you can create more kinds of light than anyone can count.
light energy
Light has heat and light energy. Example is bulb.