1.What are the two general requirements for an analyte to absorb electromagnetic radiation? Group of answer choices A, There must be a mechanism by which the radiation’s electric field or magnetic field interacts with the analyte. B, There must be a mechanism by which the radiation’s electric field or magnetic field interacts with the solvent that dissolves the analyte. C, The photon’s energy, hν, must exceeds the difference in energy, ∆E, between two of the analyte’s quantized energy states. D, The photon’s energy, hν, must exactly equal the difference in energy, ∆E, between two of the analyte’s quantized energy states.

1.What are the two general requirements for an analyte to absorb electromagnetic radiation? Group of answer choices A, There must be a mechanism by which the radiation’s electric field or magnetic field interacts with the analyte. B, There must be a mechanism by which the radiation’s electric field or magnetic field interacts with the solvent that dissolves the analyte. C, The photon’s energy, hν, must exceeds the difference in energy, ∆E, between two of the analyte’s quantized energy states. D, The photon’s energy, hν, must exactly equal the difference in energy, ∆E, between two of the analyte’s quantized energy states.

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Question

1.What are the two general requirements for an analyte to absorb electromagnetic radiation?

Group of answer choices

A, There must be a mechanism by which the radiation’s electric field or magnetic field interacts with the analyte.

B, There must be a mechanism by which the radiation’s electric field or magnetic field interacts with the solvent that dissolves the analyte.

C, The photon’s energy, hν, must exceeds the difference in energy, ∆E, between two of the analyte’s quantized energy states.

D, The photon’s energy, hν, must exactly equal the difference in energy, ∆E, between two of the analyte’s quantized energy states.

Interaction between an electric field and a magnetic field.

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