Which fundamental law is used in spectrophotometry?

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Prepare for your Manor Preboards Module 6 Test with flashcards and multiple choice questions. Each question includes hints and explanations.

Multiple Choice

Which fundamental law is used in spectrophotometry?

Explanation:
Spectrophotometry relies on Beer’s Law, which states that the amount of light absorbed by a solution is proportional to both the concentration of the absorbing species and the path length the light travels through the sample. In practice, you measure how much light at a specific wavelength is transmitted, and absorbance is defined as A = -log10(I/I0). The proportionality constant ε (molar absorptivity) is specific to the substance and wavelength, so A = εlc lets you determine concentration from the measured absorbance when l is known, often using a calibration curve. This linear relationship is what makes spectrophotometry a quantitative method. The other laws describe pressure-volume behavior, fluid pressure, or motion, which don’t explain how light is absorbed by a solution, so they aren’t used to relate light measurements to concentration.

Spectrophotometry relies on Beer’s Law, which states that the amount of light absorbed by a solution is proportional to both the concentration of the absorbing species and the path length the light travels through the sample. In practice, you measure how much light at a specific wavelength is transmitted, and absorbance is defined as A = -log10(I/I0). The proportionality constant ε (molar absorptivity) is specific to the substance and wavelength, so A = εlc lets you determine concentration from the measured absorbance when l is known, often using a calibration curve. This linear relationship is what makes spectrophotometry a quantitative method. The other laws describe pressure-volume behavior, fluid pressure, or motion, which don’t explain how light is absorbed by a solution, so they aren’t used to relate light measurements to concentration.

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