Thermodynamic Equilibrium of N2 Molecule in Electrical Discharge

asdf1 · Nov 9, 2005

for the following question:
spectroscopic observation of molecular N2 in an electrical discharge shows that the relative numbers of molecules in excited bivrational states with energies given by (epsilon)i=(i+1/2)hv
are i 0 1 2 3
ni/n 1.00 0.25 0.062 0.016
show that the gas in the thermodynamic equilivrium with respect to the distributioonn of vibrational energy, and calculate the temperature of the gas.

SpaceTiger · Nov 9, 2005

You have over 400 posts and you don't know to show some work on homework problems?

How are energy states distributed in equilibrium? Is there a particular formula that might provide the nuts and bolts (hint hint) for constructing a solution to the problem?

asdf1 · Nov 10, 2005

@@
sorry about that~
the only forumla i know is the boltzman formula (S=kln(omega))
but i think it has nothing to do with that, right?

SpaceTiger · Nov 10, 2005

See if http://www.chemsoc.org/exemplarchem/entries/pkirby/exemchem/Boltzmann/Boltzmann.html" website gives you any ideas.

asdf1 · Nov 11, 2005

thank you!

Thermodynamic Equilibrium of N2 Molecule in Electrical Discharge

Related to Thermodynamic Equilibrium of N2 Molecule in Electrical Discharge

1. What is thermodynamic equilibrium?

2. How does an electrical discharge affect the thermodynamic equilibrium of N2 molecules?

3. What factors can influence the thermodynamic equilibrium of N2 molecules in an electrical discharge?

4. How does the thermodynamic equilibrium of N2 molecules in an electrical discharge differ from that of a non-electrified gas?

5. What are the practical applications of understanding the thermodynamic equilibrium of N2 molecules in electrical discharges?

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