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Lecture
Basic Steps in Magnetic Resonance
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Related lectures (31)
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Introduction to Magnetic Resonance
Covers the fundamental principles of magnetic resonance and its applications in chemistry.
Basic Steps in Magnetic Resonance
Covers the basic steps in magnetic resonance, including spins, energy levels, and NMR spectroscopy.
Nuclear Overhauser Effect
Explores the Nuclear Overhauser effect in magnetic resonance and its impact on spin relaxation and enhancement.
Multi-dimensional correlation spectroscopy: INEPT and HSQC
Explains coherence transfer techniques in multi-dimensional NMR spectroscopy.
Basis of Nuclear Magnetization
Explores the classical and quantum-mechanical basis of nuclear magnetization and the quantization of angular momentum and energy levels.
Quantum Description of Pulsed NMR
Explores the quantum principles behind Pulsed NMR Spectroscopy, including Zeeman interaction and spin manipulation through radiofrequency irradiation.
Basic Steps In Magnetic Resonance
Introduces the basic principles of NMR spectroscopy, including chemical shifts and energy levels, with examples of NMR spectra.
Nuclear Magnetic Resonance: Principles and Applications
Explores the principles and applications of Nuclear Magnetic Resonance, covering chemical structure elucidation, peak interpretation, and medical imaging.
Spin echoes & coherence transfer
Explores spin echoes, coherence transfer, product operator formalism, and the INEPT experiment in NMR spectroscopy.
Chemical Shifts: Basics and Applications
Explores the basics of chemical shifts in nuclear magnetic resonance and their diverse applications in various compounds and environments.
