NMR Spectroscopy for Scientists and Engineers

CHEM-6140

This course will review modern techniques of multi-dimensional NMR spectroscopy, including the history of magnetic resonance, principles of NMR, 13C and 1H NMR, multinuclear NMR, 2D homonuclear and heteronuclear methods, nuclear Overhauser effect, relaxation, structure elucidation, solid-state NMR and the nuts and bolts of NMR spectrometers and probes. This course is intended for graduate and upper-level undergraduate students in the School of Science and Engineering. Students cannot get credit for both this course and CHEM 4140 .

3 credits

Cross-listed with:

CHEM-4140 NMR Spectroscopy for Scientists and Engineers

Prereqs:

none

Past Term Data

Offered

Not Offered

Offered as Cross-Listing Only

No Term Data

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	Spring	Summer
		(Session 1)	(Session 2)
2023	Nmr Spectroscopy (3c) K. V. Lakshmi Seats Taken: 13/20
2022	Nmr Spectroscopy (3c) K. V. Lakshmi Seats Taken: 9/20
2021	Nmr Spectroscopy (3c) K. V. Lakshmi Seats Taken: 6/20
2020	Nmr Spectroscopy (3c) K. V. Lakshmi Seats Taken: 10/20
2019
2018
2017
2016
2015
2014
2013	Intro To Mass Spectrometry (2c) Mark D. Platt Seats Taken: 9/30
2012	Intro To Mass Spectrometry (2c) Mark D. Platt Seats Taken: 11/30
2011	Intro To Mass Spectrometry (2c) Mark D. Platt Seats Taken: 6/30
2010	Intro To Mass Spectrometry (2c) Mark D. Platt Seats Taken: 9/30
2009	Intro To Mass Spectrometry (2c) Mark D. Platt Seats Taken: 20/30
2008
2007
2006
2005
2004
2003
2002
2001
2000
1999
1998