The electrons emit photons of light equal in energy to the energy that was absorbed.
Electrons
Different elements have different emission spectra, meaning that if the electrons in an atom are excited, they will release that energy in different color of light. The flame color depends on the elements in the compound.
The range of colors emitted by a heated atom is called its emission spectrum. Each element has a unique emission spectrum due to the specific energy levels of its electrons.
The amount of energy given off by excited electrons when they radiate energy is equal to the difference in energy level between the initial and final states. This emitted energy is typically in the form of photons.
No, when an atom is in an excited state, its electrons have gained energy, and they proceed to lose it when they fall back into their normal energy levels
The electrons emit photons of light equal in energy to the energy that was absorbed.
The emission of radiant energy that produces characteristic spectral lines is caused by electrons in atoms transitioning between energy levels. When an electron moves from a higher energy level to a lower one, it releases energy in the form of photons. Each element has a unique set of energy levels, resulting in distinct spectral lines that can be used for identification.
The cause is the transition of electrons after the interaction with a photon.
What form of energy emission accompanies the return of excited electrons to the ground state?
"Excited", or in an "excited state".
state in which electrons have absorbed energy and "jumped" to a higher energy level
Excited Electrons
These electrons are called "excited".
Electrons
The energy is different.
Excited electrons in a chlorophyll molecule are transferred through a series of proteins in the thylakoid membrane, known as the electron transport chain, generating ATP and NADPH through the process of photosynthesis. These high-energy molecules will then be used in the Calvin cycle to produce glucose from carbon dioxide.
the electrons gain a huge amount of energy