Atom Energy Levels & Absorption of Photons

In summary: The atom would absorb the photon if it was at the n=3 energy level. The atom is not at the n=3 energy level because it's not exactly 2.5 eV.
  • #1
roeb
107
1

Homework Statement


Say that an atom has the following energy levels:
E1 = -9.20 eV
E2 = -6.20 eV
E3 = -3.70 eV
E4 = -2.40 eV
E5 = -1.60 eV

Suppose atoms in the E2 level are exposed to incident radiation of wavelength 413.3 nm. Would this radiation be absorbed by atoms in the E2 level?

I am looking for some clarification on this problem if possible...

Homework Equations



The Attempt at a Solution


E2->3 = -2.5 eV
E2->4 = -3.8 eV

E = hf = 1240/413.3 = 3 eV (radiation energy)

The atom starts out in the n = 2 energy level. According to my professor, the atom would NOT absorb the radiation because it's not exactly 2.5 eV (to go up to n = 3).

1) Why is it that the photon has enough energy to go up to n = 3 but the atom won't absorb the photon? Is it just because of quantization of energy? It seems strange to me that it wouldn't absorb.


My second question is if the wavelength is 496 nm then the photon will be absorbed by the n = 2 atom. Then the atom could emit wavelengths from 3->1, 2->1, and 3->2.
3->1 = 5.5 eV
2->1 = 3 eV
3->2 = 2.5 eV

2) Why could the atom emit 3->1 since it takes 5.5 eV and the atom only absorbed 2.5 eV? As well as 2->1 takes 3 eV?
 
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  • #2
roeb said:
1) Why is it that the photon has enough energy to go up to n = 3 but the atom won't absorb the photon?
But you just showed that it doesn't have enough energy to get to n = 3!
2) Why could the atom emit 3->1 since it takes 5.5 eV and the atom only absorbed 2.5 eV? As well as 2->1 takes 3 eV?
The atom was already in an excited state above the ground state, so it has more than enough energy.
 
  • #3
There *is* enough energy to get to n=3, as roeb correctly noted. However, this would be a far off-resonant transition, meaning that the probability of the atom absorbing the photon is very very small: energy would not be conserved. Some small part of the excess energy could go to the kinetic energy of the atom, so it's not the full 3eV that the electron of the atom has to absorb, but the difference of 0.5eV is much too large.
 
  • #4
borgwal said:
There *is* enough energy to get to n=3, as roeb correctly noted.
Oops! I misread what roeb had written. You are correct.
 

Related to Atom Energy Levels & Absorption of Photons

1. What are atom energy levels?

Atom energy levels refer to the specific energy states that an electron can occupy within an atom. These energy levels are quantized, meaning that electrons can only exist in certain discrete energy states.

2. How are atom energy levels related to the absorption of photons?

When an electron in an atom absorbs a photon, it gains energy and moves to a higher energy level. The energy of the photon must match the difference in energy between the two levels in order for absorption to occur.

3. What happens when an electron in an atom is in an excited state?

When an electron is in an excited state, it means that it has absorbed energy and moved to a higher energy level. This state is unstable, and the electron will eventually release the energy and return to its ground state.

4. How does the absorption of photons affect the properties of matter?

The absorption of photons can cause changes in the properties of matter, such as the color, temperature, and chemical reactivity. This is because the energy absorbed by the electrons can be transferred to the atoms or molecules, causing them to vibrate or move in different ways.

5. Can atoms absorb photons of any wavelength?

No, atoms can only absorb photons of specific wavelengths that correspond to the energy differences between their energy levels. This is why different atoms will absorb different wavelengths of light, resulting in the colors we see in the visible spectrum.

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