Specific Process Knowledge/Characterization/MicroSpectroPhotometer (Craic 20/30 PV): Difference between revisions
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In this formula, <b>R</b> represents the single-beam spectrum of the reference material, <b>S</b> represents the single-beam spectrum of the sample, and <b>D</b> represents the dark counts of the system. | In this formula, <b>R</b> represents the single-beam spectrum of the reference material, <b>S</b> represents the single-beam spectrum of the sample, and <b>D</b> represents the dark counts of the system. | ||
The transmission spectrum can be computed based on the absorbance data using the following formula: | |||
<math>T(\%)=antilog(2-A)</math> | |||
Here, A represents the absorbance value, which is derived from previously gathered data. | |||
===Absorbance Calculation=== | ===Absorbance Calculation=== | ||