Can light excite an electron from ground state to a higher state?

In summary, the conversation discusses the possibility of an electron being excited from a ground state to a higher state by absorbing light. It is confirmed that in isolated hydrogen atoms, this is not possible, but in other types of atoms, visible light can also be absorbed and cause an electron to jump to a higher state. The specific wavelengths of light that can be absorbed depend on the bandgaps between available electron orbitals. The colors of objects are determined by the colors that are not absorbed.
  • #1
kjamha
98
1
can "light" excite an electron from ground state to a higher state?

An electron of a particular atom can absorb a discrete amount of energy, leap to a new quantum level, and then jump back down to lower states (emitting photons). My understanding is that going from n=2 to the ground state a photon with a frequency of UV or greater will be emitted. Several textbooks state that electrons can absorb "light" and jump to a higher state. Is it possible for an electron to jump to a higher state (from the ground state) by absorbing visible light?
 
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  • #2


kjamha said:
Is it possible for a photon to jump to a higher state (from the ground state) by absorbing visible light?
Not in isolated hydrogen atoms, but in other kinds of atoms, yes.
 
  • #3


There is no difference between UV and visible light except for their wavelengths. I suspect your textbooks mean EM radiation when they mention "light" and not specifically visible light.
 
  • #4


kjamha said:
Is it possible for a photon to jump to a higher state (from the ground state) by absorbing visible light?

Wait, was that question meant to ask about 'photons' or 'electrons' in a ground state jumping to higher states?
 
  • #5


my_wan, I meant electron - Thanks
 
  • #6


Cool. Yes visible light can also be absorbed. What wavelengths an atom can be absorbed depends on the bandgaps between available and used electron 'orbitals' to appropriately or not imply a quasi-classical picture. The colors of objects are defined by the colors that are not absorbed.
 
  • #7


kjamha said:
going from n=1 to the ground state

n=1 is the ground state. :wink:
 
  • #8


thank you jtbell!
 

1. Can light excite an electron from ground state to a higher state?

Yes, light can indeed excite an electron from ground state to a higher state. This process is known as photoexcitation, where a photon of light is absorbed by an atom or molecule, causing an electron to jump from its ground state to a higher energy level.

2. What determines the energy of the photon needed to excite an electron?

The energy of the photon needed to excite an electron depends on the energy difference between the ground state and the higher state. The greater the energy difference, the higher the energy of the photon needed.

3. Can any type of light excite an electron?

No, not all types of light can excite an electron. Only light with a specific energy, corresponding to the energy difference between the ground state and the higher state, can cause photoexcitation to occur.

4. What happens to the electron after it is excited?

After being excited, the electron will eventually return to its ground state. It can do this by releasing the absorbed energy as a photon of light, or by transferring the energy to another particle through collisions.

5. How is the concept of light exciting an electron applied in real life?

This concept is applied in various technologies such as solar panels, lasers, and fluorescent lighting. In solar panels, light excites electrons in a semiconductor material, creating an electric current. In lasers, light excites electrons in a medium, causing them to emit coherent light. And in fluorescent lighting, light excites electrons in gas molecules, producing visible light.

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