noun A type of spectrophotometry that measures the amount of light absorbed by a substance at various wavelengths
Environmental scientists use absorption spectrophotometry to monitor pollutants in water and air, as well as to analyze samples from ecosystems for various contaminants.
Absorption spectrophotometry is commonly used in chemistry to analyze the concentration of substances in a solution by measuring the amount of light absorbed at different wavelengths.
In forensic science, absorption spectrophotometry is employed for the analysis of trace evidence, such as fibers, drugs, and bodily fluids found at crime scenes.
In biochemistry, absorption spectrophotometry is utilized to study the interactions of biomolecules with light, providing valuable information on the structure and function of biological molecules.
Absorption spectrophotometry plays a crucial role in pharmaceutical science for drug analysis, purity testing, and pharmacokinetic studies.
Absorption spectrophotometry is commonly used by chemists to analyze the concentration of substances in a sample by measuring the amount of light absorbed at specific wavelengths. This technique is essential in various fields such as pharmaceuticals, environmental monitoring, and food safety testing.
Biologists use absorption spectrophotometry to study the characteristics of biological molecules such as proteins, nucleic acids, and pigments. By measuring the absorbance of light at different wavelengths, biologists can determine the concentration and purity of these molecules in a sample.
In forensic science, absorption spectrophotometry is utilized to analyze trace evidence such as fibers, drugs, and bodily fluids found at crime scenes. This technique helps forensic scientists identify and quantify substances present in samples, aiding in criminal investigations.