The Boltzmann constant has a value of kg = 0.69503476 cm-1/K. At what temperature would kBT be equivalent to the first energy level spacing, E₁ - Eo ha for a harmonic oscillator of frequency w = 500 cm-1? This is a crude indication of the temperature needed to appreciably populate the n = 1 vibrational level. =
The Boltzmann constant has a value of kg = 0.69503476 cm-1/K. At what temperature would kBT be equivalent to the first energy level spacing, E₁ - Eo ha for a harmonic oscillator of frequency w = 500 cm-1? This is a crude indication of the temperature needed to appreciably populate the n = 1 vibrational level. =
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![The Boltzmann constant has a value of kg = 0.69503476 cm-1/K. At what temperature would kBT be equivalent to the first energy level
spacing, E₁-Eo ha for a harmonic oscillator of frequency w = 500 cm-1? This is a crude indication of the temperature needed to
appreciably populate the n = 1 vibrational level.
=](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd76a2d57-02e6-4734-ba8a-6fadc8c476a5%2F3814af9d-ac3c-4022-80b6-adabf938ad93%2F9ih5yxn_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The Boltzmann constant has a value of kg = 0.69503476 cm-1/K. At what temperature would kBT be equivalent to the first energy level
spacing, E₁-Eo ha for a harmonic oscillator of frequency w = 500 cm-1? This is a crude indication of the temperature needed to
appreciably populate the n = 1 vibrational level.
=
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