Which Equation Expresses The Energy Of A Photon In Terms Of Wavelength?

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Multiple Choice

Which Equation Expresses The Energy Of A Photon In Terms Of Wavelength?

This question tests how photon energy depends on wavelength. A photon’s energy is E = h f, where h is Planck’s constant and f is the frequency. Light has a fixed speed c, and frequency and wavelength are linked by f = c / λ. Substituting f into the energy expression gives E = h (c / λ) = h c / λ. So the energy expressed in terms of wavelength is E = h c / λ, which correctly shows energy decreasing as wavelength increases and uses the correct combination of constants to yield energy in joules.

The other forms don’t fit: E = h f is in terms of frequency, not wavelength; and E = λ / (h c) or E = c / (h λ) place λ in the wrong position and don’t produce the correct units or dependence on wavelength.

Which Equation Expresses The Energy Of A Photon In Terms Of Wavelength?

Prepare for the DAT Bootcamp General Chemistry Test. Study with comprehensive questions, complete with hints and explanations. Get ready to ace your exam!

Which Equation Expresses The Energy Of A Photon In Terms Of Wavelength?

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