Radiation. Different levels of energy dictate the type of radiation that is emitted. Extremely excited particles might emit visible light or even x-rays while particles that are not very excited might emit weak radio waves. This range from weak radiation to strong radiation is called the electromagnetic spectrum.
"phosphorescence"Scattering is the release of light energy by particles of matter that have absorbed energy. The transfer of energy carried by light waves to particles of matter is absorption.
Particles have absorbed the most heat energy in the gas state.
Electrical energy- Energy is then absorbed by mercury particles-ultra violet energy-energy absorbed by phosphor particles-visible light energy. This is what I found in my science textbook hopefully it helps.Thumbs up if it did.
Photons absorbed by a solution "disappear" and the energy they brought with them is transferred into the solution. That energy appears in the "activity" of the atoms, molecules and/or ions in the solution. The kinetic energy of these particles will increase because of the added energy.
In a silicon solar cell, light energy (a photon of energy >~ 1.1eV) is absorbed in silicon and the energy absorbed excites an electron-hole pair so charge particles are formed. If there is an electric field, the charge particles will separate and an electric current occurs.
a chemical change is taking place
"phosphorescence"Scattering is the release of light energy by particles of matter that have absorbed energy. The transfer of energy carried by light waves to particles of matter is absorption.
Particles have absorbed the most heat energy in the gas state.
Quantums of energy, or quanta.
Electrical energy- Energy is then absorbed by mercury particles-ultra violet energy-energy absorbed by phosphor particles-visible light energy. This is what I found in my science textbook hopefully it helps.Thumbs up if it did.
Example for light energy is absorbed or released, Heat is released and absorbed, electrical energy absorbed or released...
Photons absorbed by a solution "disappear" and the energy they brought with them is transferred into the solution. That energy appears in the "activity" of the atoms, molecules and/or ions in the solution. The kinetic energy of these particles will increase because of the added energy.
A gas
In microscopic particles it's called internal energy. In macroscopic particles it's called thermodynamic energy.
In a silicon solar cell, light energy (a photon of energy >~ 1.1eV) is absorbed in silicon and the energy absorbed excites an electron-hole pair so charge particles are formed. If there is an electric field, the charge particles will separate and an electric current occurs.
the suns energy is absorbed by the leaf to make food. this is called photosynthesis :)
In microscopic particles it's called internal energy. In macroscopic particles it's called thermodynamic energy.