infrared and radio :)
Light waves and X-rays are both forms of electromagnetic energy. X-rays, however, have higher energy (higher frequency and shorter wavelength) than (visible) light.
yes
Matter absorbs the light and different kind of vibrations are generated inside the matter which creates heat. Light has energy (Plank's constant X frequency). This energy when absorbed by matter, it increases the temperature due to deposition of energy in form of heat. Now if anything is hot enough, there are vibrations and rotations of atoms and molecules in that matter. The vibrations of electron with different frequency generates light of the same frequency.
Light waves and X-rays are both forms of electromagnetic energy. X-rays, however, have higher energy (higher frequency and shorter wavelength) than (visible) light.
Yellow light has the lower frequency.
Yes. Blue light has a lower wavelength than yellow light, which is why it is perceived by out eyes as a different color. Blue light's wavelength is around 450 nanometers and yellow light's wavelength is around 575 nanometers. since the speed of light is constant for all light, and frequency is the speed of light over the wavelength of the light, the larger the wavelength, the lower the frequency. And the lower the frequency, the lower the energy. So the shorter wavelength of light (in this case, blue colored light) has a faster frequency, and therefore more energy.
The microwave energy in a microwave oven is of a much lower frequency than light, but light is electromagnetic energy like the microwave radiation is.
... greater wavelength, lower frequency, less energy per photon.
No, visible light has a lower frequency than gamma rays. Gamma rays are the highest frequency of electromagnetic energy. They are above X-rays.
Higher frequency increases the energy. Lower frequency decreases the energy.
IR: longer wavelength, lower frequency, lower energy per photon.Visible: medium wavelength, medium frequency, medium energy per photon.UV: shorter wavelength, higher frequency, higher energy per photon.
The longer the wavelength of light, the smaller its frequency, and the less energy there is for every photon.