Mass Spectrometry
Mass spectrometry is an analytical technique used to identify the composition of substances by measuring the mass of their molecules. In this process, a sample is ionized (charged) and then passed through electric and magnetic fields that separate the ions based on their mass-to-charge ratio. The resulting data provides information about the molecular structure, quantity, and identity of the compounds in the sample. It’s widely used in chemistry, biology, and environmental science for applications like drug testing, environmental monitoring, and quality control in pharmaceuticals.
Additional Insights
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Mass spectrometry is a scientific technique used to identify and analyze the composition of substances by measuring the mass of their molecules. In this process, samples are ionized, meaning they are converted into charged particles. These ions are then accelerated and separated based on their mass-to-charge ratio. By detecting and measuring these ions, scientists can determine the molecular weight and structure of the compounds present in the sample. This technique is widely used in fields like chemistry, biology, and medicine for applications such as drug testing, environmental analysis, and studying complex mixtures.
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Mass spectrometry is a scientific technique used to measure the mass and composition of molecules. It works by ionizing chemical compounds, which means converting them into charged particles. These ions are then accelerated through electric and magnetic fields, causing them to separate based on their mass-to-charge ratio. By analyzing the resulting data, scientists can identify the types and amounts of substances in a sample. This method is widely used in fields like chemistry, biology, and pharmaceuticals for applications ranging from drug testing to environmental analysis, offering precise insights into the molecular makeup of various materials.