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Spectroscopy is a powerful analytical technique used in chemistry and physics to study the interaction between matter and electromagnetic radiation. It involves the measurement and interpretation of spectra, which are characteristic patterns of wavelengths (or frequencies) of electromagnetic radiation absorbed, emitted, or scattered by a substance.
There are various types of spectroscopy, each based on different principles and types of electromagnetic radiation utilized, including:
1. UV-Visible Spectroscopy: This technique involves the absorption of ultraviolet (UV) and visible light by molecules. It's commonly used to determine the concentration of substances, study electronic transitions, and identify compounds based on their absorption spectra in the UV-visible range.
2. Infrared (IR) Spectroscopy: IR spectroscopy measures the absorption of infrared light, which corresponds to the vibrational and rotational transitions of molecules. It's used to identify functional groups, determine molecular structures, and analyze chemical bonds in organic and inorganic compounds.
3. Nuclear Magnetic Resonance (NMR) Spectroscopy: NMR spectroscopy analyzes the absorption of radiofrequency radiation by atomic nuclei placed in a strong magnetic field. It's a powerful technique for determining molecular structures, elucidating chemical environments, and studying molecular dynamics.
4. Mass Spectrometry (MS): Mass spectrometry measures the mass-to-charge ratio of ions produced from molecules. It's used for determining molecular weights, identifying unknown compounds, and studying molecular fragmentation patterns.
5. Raman Spectroscopy: Raman spectroscopy measures the inelastic scattering of photons by molecules. It provides information about molecular vibrations and rotational modes, aiding in molecular identification and structural analysis.
Each spectroscopic technique provides unique information about the composition, structure, and behavior of molecules and materials. Scientists use these techniques extensively across various scientific disciplines, including chemistry, physics, biochemistry, environmental science, materials science, and more.
The interpretation of spectra obtained from these techniques involves analyzing peaks, patterns, and shifts in absorption, emission, or scattering, which provide insights into molecular composition, electronic configurations, and interactions among atoms within a compound.
Spectroscopy plays a pivotal role in research, industry, and various fields of science, contributing to the understanding of molecular properties, the development of new materials, the investigation of biological systems, and the advancement of technology.
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Негізгі бет (01) Introduction to Spectroscopy | Instrumental Methods of Analysis | Spectroscopy Method | B.Pharm
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