The amount of energy in infrared light corresponds to: A)the amount of energy needed to promote one electron from a bonding to an antibonding molecular orbital B)the amount of energy needed to "flip" the spin of a ¹³C or ¹H nucleus C)the amount of energy needed to strip a molecule of one electron to generate a cation radical D)the amount of energy needed to increase certain molecular motions,such as bond vibrations,in organic molecules

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Infrared light is characterized by its ability to excite molecular vibrations, specifically bond vibrations in organic molecules. Therefore, the amount of energy in infrared light corresponds to the amount of energy needed to increase certain molecular motions, such as bond vibrations, in organic molecules (choice D). Choice A refers to the energy required for electronic transitions, choice B refers to nuclear spin transitions, and choice C refers to ionization energy. None of these correspond to the energy in infrared light.

The Amount of Energy in Infrared Light Corresponds To