it looses energy , it gives off light in the form of a single photon.
It emits a photon of a wavelength specific to the atom. This is how fluorescent lights work.
it releases its energy in the form of a spectrum
They emit a photon of light equal in energy to the energy gained when they became excited.
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light is emitted light is emitted
A photon will be released!
In the ground state all the (only one for Hydrogen)) electrons is in the lowest stable orbit. If the electron gains energy (usually from a photon) it will orbit in a higher energy state (called excited).
The electron falling one or more energy shells will produce a photon of energy equal to the difference in energy actually two or more in different directions all adding to the energy
To move an electron from the ground state to an excited state, it requires an input of energy. It should be equal to the energy difference between the two levels. This energy comes from collision with other molecules and atoms.
Energy is emitted when an electron moves from a higher energy level to a lower energy level.
excitation
They return to their ground state from an excited state induced by the electric field between the two ends of the light.
The exciting of an electron takes in energy. The fall back to the ground state releases that energy as a photon. The photon is created by the return to the ground state.
What form of energy emission accompanies the return of excited electrons to the ground state?
Argon is used to produce violet lights. Electrons in argon atoms use energy from the firework explosion to make the transition from the ground state to an excited state. Their return to the ground state results in the emission of violet light.
In the ground state all the (only one for Hydrogen)) electrons is in the lowest stable orbit. If the electron gains energy (usually from a photon) it will orbit in a higher energy state (called excited).
Normally, yes. 'Ground state' refers to electrons that are unexcited (meaning not pushed to a higher energy level) by heat or electricity. So basically, yes, valence electrons are always at ground state. I mean, unless you're sending an electrical current through the substance.
The electron falling one or more energy shells will produce a photon of energy equal to the difference in energy actually two or more in different directions all adding to the energy
A photon of light.
When sodium ions are heated, electrons move from the ground state to the excited state, and because they are unstable in the excited state, they immediately return to lower energy levels in the ground state. As they do this, energy is released in the form of light. In the case of sodium, it produces orange light.
they return to their original energy levels.
To move an electron from the ground state to an excited state, it requires an input of energy. It should be equal to the energy difference between the two levels. This energy comes from collision with other molecules and atoms.
Light.