colorimetry

chemistry
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Also known as: colourimetry

colorimetry, measurement of the wavelength and the intensity of electromagnetic radiation in the visible region of the spectrum. It is used extensively for identification and determination of concentrations of substances that absorb light. Two fundamental laws are applied: that of a French scientist, Pierre Bouguer, which is also known as Lambert’s law, relates the amount of light absorbed and the distance it travels through an absorbing medium; and Beer’s law relates light absorption and the concentration of the absorbing substance. The two laws may be combined and expressed by the equation log I0/I = kcd, where I0 = intensity of the incident beam of light, I = transmitted intensity, c = the concentration of absorbing substance, d = the distance through the absorbing solution, and k = a constant, dependent upon the absorbing substance, the wavelength of light used, and the units used to specify c and d.

A simple application of this expression is found in comparing intensities of radiation transmitted through layers of different thicknesses of two solutions of the same absorbing substance, one with a known concentration, the other unknown. If the same incident intensity is used and if the thicknesses of the two solutions are adjusted so that the transmitted intensities are equal, then the concentration of the unknown (c2) can be expressed by the ratio of the thicknesses of the two solutions, d1/d2, times the known concentration (c1). If a photoelectric cell instead of the eye is used to compare intensities, the instrument is called a photoelectric colorimeter.

In colorimetry, frequently the entire visible spectrum (white light) is used, and consequently the complementary colour of the one absorbed is observed as transmitted light. If monochromatic light or a narrow band of radiation is used, the instrument is called a spectrophotometer. It is not limited to the visible spectrum and is often employed to make measurements in the ultraviolet and infrared regions. The spectrophotometer has largely replaced the colorimeter.

Most of the chemical elements and a large number of compounds may be determined colorimetrically or spectrophotometrically, frequently at concentrations smaller than one part of the constituent in several hundred million parts of solution.