How Do You Spell NMR SPECTROSCOPIES?

Pronunciation: [ˌɛnˌɛmˈɑː spɛktɹˈɒskəpɪz] (IPA)

The spelling of "NMR Spectroscopies" can be explained using IPA phonetic transcription. The first two letters, "NM", are pronounced as /ɛn ɛm/. The "R" is pronounced as /ɑr/, and the following letters, "Spectroscopies", are pronounced as /ˌspɛktrəʊˈskɒpiːz/. This word is used in the field of chemistry and refers to the analytical technique of Nuclear Magnetic Resonance spectroscopy, which is used to study the properties of materials at a molecular level. It is a complex word, but understanding its phonetic transcription can help with proper spelling and pronunciation.

NMR SPECTROSCOPIES Meaning and Definition

  1. NMR Spectroscopies, also known as Nuclear Magnetic Resonance Spectroscopies, refer to a set of analytical techniques used to study the behavior and interactions of atomic nuclei in a material. NMR spectroscopy involves the application of a strong magnetic field and specific radiofrequency radiation to a sample, resulting in the excitation and subsequent relaxation of the atomic nuclei.

    In NMR spectroscopy, atomic nuclei with an odd number of protons or neutrons possess a property called spin, resulting in a magnetic moment. The magnetic field applied during NMR causes the alignment of these nuclear spins, creating different energy states. By irradiating the sample with radiofrequency pulses at specific frequencies, nuclei can absorb or emit energy and transition between these energy states. The resulting patterns and frequencies of absorption or emission provide valuable information about the chemical environment, structure, and dynamics of the sample.

    NMR spectroscopy is widely used in various scientific disciplines, particularly in chemistry and biochemistry. It enables the identification and quantification of compounds in a mixture, determination of molecular structures, analysis of chemical reactions, investigation of protein folding, and study of intermolecular interactions. Variants of NMR spectroscopy, such as proton NMR, carbon-13 NMR, and multi-dimensional NMR, provide additional insights into different aspects of a sample's characteristics.

    Overall, NMR spectroscopies serve as valuable tools for scientists to investigate the atomic-level properties of materials, contributing to advancements in fields ranging from drug development to materials science.

Common Misspellings for NMR SPECTROSCOPIES

  • bmr spectroscopies
  • mmr spectroscopies
  • jmr spectroscopies
  • hmr spectroscopies
  • nnr spectroscopies
  • nme spectroscopies
  • nmd spectroscopies
  • nmf spectroscopies
  • nmt spectroscopies
  • nm5 spectroscopies
  • nm4 spectroscopies
  • nmr apectroscopies
  • nmr zpectroscopies
  • nmr xpectroscopies
  • nmr dpectroscopies
  • nmr epectroscopies
  • nmr wpectroscopies
  • nmr soectroscopies
  • nmr slectroscopies
  • nmr s-ectroscopies

Etymology of NMR SPECTROSCOPIES

The etymology of the word "NMR spectroscopies" can be broken down as follows:

1. NMR: This acronym stands for Nuclear Magnetic Resonance. It refers to a physical phenomenon that occurs when the nuclei of certain atoms (such as hydrogen) are exposed to a magnetic field and radio waves, causing them to resonate.

2. Spectroscopy: This term comes from the combination of two Greek words - "spectron", meaning "appearance" or "specter", and "skopein", meaning "to see" or "to examine". Spectroscopy is the scientific study and analysis of the interaction between matter and electromagnetic radiation, including light and other forms of energy.

The term "NMR spectroscopies" thus refers to the application of spectroscopic techniques to study and analyze the phenomena related to nuclear magnetic resonance.

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