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The fundamental vibrational frequency of an oxygen molecule (O2) is 4.741 x 1013 s-1. What would be the value of the vibrational partition function for O2 at a temperature of 1000 K, assuming that the molecular vibrational motion can be treated in the harmonic oscillator approximation?

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MCQs on thermodynamics in classical mechanics systems. Topics include the first, second, and third laws of thermodynamics, energy, work, enthalpy, and entropy, spontaneity, chemical potential, equilibrium, phase changes, and chemical kinetics.


The fundamental vibrational frequency of an oxygen molecule (O<sub>2</sub>) is 4.741 x 10<sup>13</sup> s<sup>-1</sup>. What would be the value of the vibrational partition function for O<sub>2</sub> at a temperature of 1000 K, assuming that the molecular vibrational motion can be treated in the harmonic oscillator approximation?





 
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