Difference between revisions of "NMR spectrometer"
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=== Background === | === Background === | ||
[[Image:F3bb1f30c7.jpg|thumb|300px| ]] | [[Image:F3bb1f30c7.jpg|thumb|300px| ]] | ||
Nuclear magnetic resonance NMR spectroscopy is a sensitive chemical analytical technique which detects the magnetic properties of certain atoms such as hydrogen and carbon. The resulting spectrum can be compared against a database of known NMR signatures to identify atoms or functional groups in sample mixture. A typical application is to use NMR to prove that a sample pure or has completed a reaction. | Nuclear magnetic resonance NMR spectroscopy is a sensitive chemical analytical technique which detects the magnetic properties of certain atoms such as hydrogen and carbon. The resulting spectrum can be compared against a database of known NMR signatures to identify atoms or functional groups in sample mixture. A typical application is to use NMR to prove that a sample pure or has completed a reaction. | ||
=== Significance === | |||
=== Operation=== | === Operation=== | ||
Revision as of 12:39, 16 September 2010
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Background
Nuclear magnetic resonance NMR spectroscopy is a sensitive chemical analytical technique which detects the magnetic properties of certain atoms such as hydrogen and carbon. The resulting spectrum can be compared against a database of known NMR signatures to identify atoms or functional groups in sample mixture. A typical application is to use NMR to prove that a sample pure or has completed a reaction.
Significance
Operation
This provides instructions for a Bruker Advance 300 NMR.