When electrons of 02 are excited in the ground state (level 0, degree of degradation g0 = 3), they become an excited state (level 1, degree of degradation g1 = 1). When light is emitted from the excited state and goes to the ground state, the wavelength of the light is 1263 nm. Using this information, get exactly the following: %3D 1) Find the expression of the electronic partition function qE. 2) Find the electronic contribution of the internal energy for 1 mole of 02 at 500K. 3) What can we learn about the electronic partition function from this?

When electrons of 02 are excited in the ground state (level 0, degree of degradation g0 = 3), they become an excited state (level 1, degree of degradation g1 = 1). When light is emitted from the excited state and goes to the ground state, the wavelength of the light is 1263 nm. Using this information, get exactly the following: %3D 1) Find the expression of the electronic partition function qE. 2) Find the electronic contribution of the internal energy for 1 mole of 02 at 500K. 3) What can we learn about the electronic partition function from this?

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ISBN:9781305957404

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Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

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Techniques and applications of quantum theory

Quantum theory, often known as quantum physics, is the foundation of modern physics and encompasses the nature and behavior of matter and energy at the atomic and molecular levels. As the exact nature and behavior of atomic and subatomic particles are impossible to determine, the laws of classical physics do not apply to this discipline. As a result, quantum field theory is primarily based on assumptions and probabilities.

Question

When electrons of 02 are excited in the
ground state (level 0, degree of degradation
g0 = 3), they become an excited state (level 1,
degree of degradation g1 = 1). When light is
emitted from the excited state and goes to the
ground state, the wavelength of the light is
1263 nm. Using this information, get exactly
the following:
%3D
1) Find the expression of the electronic
partition function qE.
2) Find the electronic contribution of the
internal energy for 1 mole of 02 at 500K.
3) What can we learn about the electronic
partition function from this?

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