BASICS OF 1H-NMR SPECTROSCOPY AND INTERPRETATION
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BASICS OF 1H-NMR SPECTROSCOPY AND INTERPRETATION

NMR BASICS AND INTERPRETATION
0.0 (0 ratings)
Instead of using a simple lifetime average, Udemy calculates a course's star rating by considering a number of different factors such as the number of ratings, the age of ratings, and the likelihood of fraudulent ratings.
4 students enrolled
Last updated 1/2017
English
Current price: $10 Original price: $20 Discount: 50% off
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Includes:
  • 1.5 hours on-demand video
  • 13 Supplemental Resources
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
What Will I Learn?
  • Understand the basics of 1H-NMR spectroscopy
  • Explain How 1H-NMR spectra originates.
  • Justify the presence of 1H-NMR signals
  • Interpretate and present the 1H-NMR spectra of organic molecules.
  • Elucidate the structure of organic molecules using 1H-NMR spectroscopy
View Curriculum
Requirements
  • Students must have knowledge about basic organic chemistry, simple organic chemical structures and their nomenclature.
Description

This course is intended to strengthen your knowledge and expertise for 1H-NMR data interpretation and justification. This course is offered in four modules. The module one introduces the ‘Basics of 1H-NMR spectroscopy’. Module two incorporates ‘Methodology for interpretation of 1H-NMR Data’. The module three aids in ‘Interpretation of 1H-NMR Spectra of complex molecules’. The fourth module is designed for ‘Presentation and matching of 1H-NMR data’. This course will assist in understanding the basic theory, principles, concepts and interpretation of 1H-NMR spectroscopy and in a very simplified and classified manner. At the end of this course, learners will be able to elucidate the structure of organic molecules using  1H-NMR data.

Who is the target audience?
  • The target audience for this course are undergraduate, postgraduate, PhD scholars, researchers, and academicians from the field of Chemistry, physics, Pharmaceutical chemistry, Chemical Engineering, Biochemistry, Biotechnology, and Analysis
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Curriculum For This Course
14 Lectures
01:16:28
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Course Introduction
1 Lecture 01:13

This lecture introduces about

  • Instructors affiliation.
  • Course description and modules
Preview 01:13
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Module 1: Basics of 1H-NMR Spectroscopy
4 Lectures 42:14

This lecture introduces about

  • The core concept of NMR spectroscopy.
  • How NMR spectrum is generated
Preview 03:43

Quiz
1 question

This lecture introduces about

  • The basic concepts of physics such as charge, isotope, angular momentum, magnetic moment that are preliminary to learn NMR spectroscopy .
  • The basic concepts of NMR spectroscopy such as proton spin, spin state, spin quantum number, precession, nuclear magnetic moment, resonance,  transition energy, gyroscopic motion, diamagnetism, and paramagnetism.
Preview 08:01

Which of the following fits best to define precession

Quiz
1 question

This lecture introduces about

  • Spin state population.
  • Relaxation mechanism.
  • Chemical shift.
  • Internal standard
  • Spin coupling
  • Decoupling and 
  • Nuclear Over Hauser effect
Topic 3: Principle aspects of 1H-NMR
22:02

Quiz
1 question

This lecture introduces about components of NMR instrument such as:

  • Magnet
  • Sample probe
  • Sampling
  • Detector
  • NMR instrument types
Topic 4: Instrumentation of 1H-NMR
08:28

Quiz
1 question
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Module 2: Methodology for interpretation of 1H-NMR Data
7 Lectures 21:20

This lecture introduces about:

  • Calculation of number of 1H-NMR signals for different proton environments. and 
  • Some exercises
Preview 02:25

How many 1H-NMR signals are expected for given chemical structure?

Quiz
1 question

This lecture introduces about:

  • Determination of splitting of 1H-NMR signals for different protons, and 
  • Some exercises
Topic 2: Types of signals or Peak splitting in NMR spectra
04:16

Quiz
1 question

This lecture introduces about:

  • Determination of J values for 1H-NMR signals for different protons, and 
  • Some exercises
Topic 3: J value or Coupling Constatnt
03:28

Quiz
1 question

This lecture introduces about:

  • Determination of position of 1H-NMR signals for different protons, and 
  • Some exercises
Topic 4: Position of Proton NMR Signals on Delta Value Scale
05:29

Quiz
1 question

This lecture introduces about:

  • 1H-NMR interpretation of  organic molecules using some exercises
Topic 5: Interpretation of Proton NMR Spectra
02:47

Quiz
1 question

This lecture introduces about

  • 1H-NMR interpretation of organic molecules containing OH, NH, and SH group.
Topic 6: Interpretation of Proton NMR signals of specific OH, NH and SH groups
01:09

Quiz
1 question

This lecture introduces about:

  • Importance of integral in 1H-NMR spectrum.
Topic 7: Integral in Proton NMR Spectrum
01:46

Quiz
1 question
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Module 3: Interpretation of 1H-NMR Spectra of complex molecules
1 Lecture 07:08

This module 3, lecture introduces about:

  • Tips for 1H-NMR spectra interpretation.
  • Exercises for 1H-NMR spectra interpretation of some complex molecules.
Module 3: Interpretation of 1H-NMR Spectra of complex molecules
07:08

Quiz
1 question
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Module 4: Presentation and Matching of 1HNMR data
1 Lecture 04:33

This module 4, lecture introduces about:

  • Tips for presentation of 1H-NMR spectra interpretation data.
  • Exercises for presentation and matching of 1H-NMR data.
module 4
04:33

Quiz
1 question

Assessment 1
1 question

Assessment 2
1 question

Assessment 3
1 question

Assessment 4
1 question

Assessment 5
1 question

Assessment 6
1 question

Assessment 7
1 question

Assessment 8
1 question

Assessment 9
1 question

Assessment 10
1 question
About the Instructor
Dr. Shivkanya Fuloria
0.0 Average rating
0 Reviews
4 Students
1 Course
Academician

Hi, I am Dr. Shivkanya Fuloria, M. Pharm (Phytochemistry), Ph.D., P.D.C.T.M., is working in faculty of Pharmacy, AIMST University, Malaysia. I am having an academic experience of more than 13 years. I have authored three international books in the field of spectroscopy, Industrial management, and Alternative Medicine. I have also published several research papers of National and International repute. 

Dr. Neeraj Kumar Fuloria
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0 Reviews
4 Students
1 Course

Hi, I am, Dr. Neeraj Kumar Fuloria, M. Pharm (Pharmaceutical Chemistry), Ph.D., M.B.A., P.D.C.T.M. Presently, I am working as an Associate Professor, in Faculty of Pharmacy, AIMST University, Malaysia. At present, I have an experience of more than 16 years in academics, research and industry. I have authored three international books in the field of spectroscopy, Industrial management, and Alternative Medicine. I have also published several research papers of National and International repute.