Nuclear Magnetic Resonance Spectrometry (NMR) is the term used in the sciences, e.g. in probing chemical structures, however the term "nuclear" is toxic to some people and the medical profession dropped the term and use Magnetic Resonance Imaging (MRI) or MR when NMR is used to study the structure of organs in the body. The same physical priciples apply
There is a difference that you might find out one day...
NMR Spectroscopy Use molecule Structure FT NMR Use Different No. of mass Structure
they dont have a relationship at all.
If you are studying NMR spectroscopy or MRI you can essentially view protons as little magnets that will line up along an external field.
Magnets and sheet
Mass spectrometry, UV/Vis spectroscopy, NMR spectroscopy CNMR spectroscopy, Infra red spectroscopy
Molecules emit electromagnetic radiation in NMR spectroscopy.
Alois Steigel has written: 'Dynamic NMR spectroscopy' -- subject(s): Nuclear magnetic resonance spectroscopy
E. Breirmaier has written: '13C NMR spectroscopy'
Jan Schraml has written: 'Two-dimensional NMR spectroscopy' -- subject(s): Nuclear magnetic resonance spectroscopy
MRI is a technique using the phenomenon Nuclear Magnetic Resonance [NMR}. NMR was discovered by physicists,Felix Bloch and Edward M Purcell and won Nobel Prize for the same. MRI was later developed by the scientists, Paul Lanterbur and Peter Mansfield.
Kei Matsuzaki has written: 'NMR spectroscopy and stereoregularity of polymers' -- subject(s): Polymers, Nuclear magnetic resonance spectroscopy, Analysis
Particulars Esr Nmr Observed region Microwave region Radio frequency region Energy required to bring about a transition High Low Line width 1 gauss 0.1 gauss Signals measured as Derivative signal Wider line In ESR a lower magnetic field homogeneous to 1 in 105 over the sample is used. Where as NMR a figure of 1 in 108 is satisfactory by sudarshan