he did both
Planck
they are absorbed, depositing their energy in whatever absorbed them.
The energy is absorbed by the electrons because work needs to be done on the electrons to raise them to an excited state. Energy is stored in the electrons while they are in their excited state and would emit energy if they returned to their ground state.
Emitted, and the precise amount of energy that is emitted will depend on what kind of atom, and moving from which excited state. That's how spectrographs can determine what element is present.
The absence of visible light. If no light (or only a little light) is emitted from a particular direction, then when you look in that direction you will see black.
Wavelengths of absorbed or emitted photons Every line in a line spectrum is caused by a transition, from one quantum state to another quantum state, involving electrons.
light at a frequency similar to the absorbed frequency is emitted
they are absorbed, depositing their energy in whatever absorbed them.
wavelengths of absorbed or emitted photons
a photon is emitted or absorbed
The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation.[1] The "electromagnetic spectrum" of an object is the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.
No, The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation.[1] The "electromagnetic spectrum" of an object is the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.
The energy is absorbed by the electrons because work needs to be done on the electrons to raise them to an excited state. Energy is stored in the electrons while they are in their excited state and would emit energy if they returned to their ground state.
Quanta is a word that is used in the world of physics. Quanta are discreet packets through which electromagnetic energy is emitted or absorbed. Quantization was first discovered in 1900.
Emitted, and the precise amount of energy that is emitted will depend on what kind of atom, and moving from which excited state. That's how spectrographs can determine what element is present.
It has to do with the energy level accessible to the electron in a particular type of bond or orbital. The difference between the two energy levels determines the energy of the quantum step and consequently the frequency of the light absorbed or emitted.
Power emitted from a unit area of a particular temperature
Definition: The smallest amount of energy that can be emitted or absorbed as electromagnetic radiation. Antonym: unfixed