Series: Organic Chemistry: Full Course

sound is not there poor quality video pl inves...

03/01/2013

~ kakilan

No sound at all after few minutes

dr akilan

not very good

01/09/2012

~ seamus

very, very basic and not fully explained for a 12.46 minute video supposed to explain c13..

waste of money.

Mass Spectrometry

09/28/2011

~ RONALD23

Very confusing when it comes to the interpretation of the Spectra. The difference between the parent ion and base ion is not at all clear. I would have expected more from this lesson. In fact U-Tube has some really interesting and engaging lessons on Mass Spectrometry and that too for free.
Also I would have expected more explanation on the principles of MS. The explanation by the Dr is at best vague

Works like a charm...

12/15/2010

~ Alyssa3

I was doing poorly (for my standards) in organic chemistry until I found these videos...95 on the last quiz! Life saver.

Stereochemistry Simplified

12/04/2009

~ John39

This is an excellent review of stereochemistry in a very concise and understandable format. I would recommend this to any teacher who would like to refresh his or her memory prior to teaching this concept.

Below are the descriptions for each of the lessons included in the series:

• Organic Chemistry Lesson: Intro to Organic Chem

  Introduction to Organic Chemistry addresses the concept of organic chemistry and a review of selected studies normally found in the freshman chemistry course. These topics include bonding, polarity, Lewis dot structures, formal charges, methods of writing organic structures, isomers, acid-base theories, and empirical and molecular formula determination.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Molecules

  This lesson, Characteristics of Organic Molecules, addresses the nature and importance of sigma and pi bonds, hybridization, forces of attraction, solubility influences, and classification of compounds.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alkanes 1

  This lesson, Organic Chemistry: Alkanes, begins the study of the first homologous group and addresses nomenclature (including cyclics and bicyclics), physical properties, reactions, Baeyer Strain theory, types of isomers, and conformations.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alkanes 2

  This lesson, Organic Chemistry: Alkanes, begins the study of the first homologous group and addresses nomenclature (including cyclics and bicyclics), physical properties, reactions, Baeyer Strain theory, types of isomers, and conformations.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Chemical Reactions

  The lesson Organic Chemistry: Chemical Reactions introduces the nature of free-radical reactions and addresses such topics as chlorination, bromination, energy factors, the Hammond Postulate, isotopic effects, and other reactive intermediates.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alkyl Halides

  The lesson Organic Chemistry: Alkyl Halides introduces the structure of the halogenated hydrocarbons, their common uses, nomenclature, physical properties, preparations, and reactions. It is in this unit that the concept of devising syntheses is introduced.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Stereochemistry 1

  The lesson Organic Chemistry: Stereochemistry addresses the characteristics of the chiral carbon, the concept of polarimetry, assigning configurations, the nature of the racemic mixture, molecules with multiple chiral carbons, resolving a racemic modification, and reactions generating asymmetric centers.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Stereochemistry 2

  The lesson Organic Chemistry: Stereochemistry addresses the characteristics of the chiral carbon, the concept of polarimetry, assigning configurations, the nature of the racemic mixture, molecules with multiple chiral carbons, resolving a racemic modification, and reactions generating asymmetric centers.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry: Substitution vs Elimination 1

  Organic Chemistry: Substitution vs. Elimination Reactions 1 addresses commonly used terms, SN2 and SN1 reactions, E1 and E2 reactions, and competition among these types of reactions. Other related reactions are also studied.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry: Substitution vs Elimination 2

  This lesson Organic Chemistry: Substitution vs. Elimination Reactions 2 addresses commonly used terms, SN2 and SN1 reactions, E1 and E2 reactions, and competition among these types of reactions. Other related reactions are also studied.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alkenes 1

  This lesson Organic Chemistry: Alkenes I is the first of a two-part study of the compounds containing a double bond. It addresses the structure of alkenes, degrees of unsaturation, nomenclature, the physical properties of these compounds, the nature of the carbocation, and alkene preparations.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alkenes 2

  The lesson Organic Chemistry: Alkenes II continues the study of the hydrocarbons containing a double bond. Topics addressed in this unit include structure and bonding, reactions at the double bond and near the double bond, polymers and polymerization, stereochemical aspects of alkenes, and chemical analysis.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alkynes

  The lesson Organic Chemistry: Alkynes introduces the student to the second type of unsaturation, the triple bond. The unit on alkynes addresses the structure around this functional group, nomenclature, physical properties, preparations, reactions, and analysis.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alcohols 1

  The lesson Organic Chemistry: Alcohols I is the first of a two part study of compounds containing the OH functional group. It includes structure and naming of alcohols, common alcohols and their usage, physical properties and preparations of alcohols. A section addressing thiols is included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Alcohols 2

  The lesson Organic Chemistry: Alcohols II continues the study of this class of compounds and includes an extensive list of alcohol reactions and analysis. A section addressing balancing organic oxidation-reduction reaction techniques is included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry: Infrared Spectroscopy

  The lesson Organic Chemistry: Infrared Spectroscopy addresses an overview of the electromagnetic spectrum, particularly that portion utilized in most IRs. It includes a study of molecular vibrations, areas of the spectrum, and techniques used in reading an IR.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: HNMR

  The lesson Organic Chemistry: HNMR or Proton NMR is addresses a series of topics including an overview, the number and position of signals, utilization of peak areas, splitting of signals, the coupling constant, and reading the NMR.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: CNMR or C-13

  The lesson Organic Chemistry: CNMR or C-13 NMR covers comparison to the HNMR, number of peaks, chemical shifts, splitting of signals, and interpretation of spectra.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Mass Spectrometry

  Mass Spectrometry is introduced in this unit. Instrumentation, fragmentation patterns, isotopic influence, and identification techniques are addressed.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Ethers & Epoxides

  Ethers, Epoxides, and Thioethers addresses the typical topics of structure, nomenclature, physical properties, preparations, reactions, and chemical analysis. A unit addressing thioethers is included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Conjugated Systems

  In this lesson Organic Chemistry: Conjugated Systems addresses the types of unsaturated systems, preparations of conjugated systems, as well as reactions, the impact of conditions, and the molecular orbital picture.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Aromatics 1

  The lesson Organic Chemistry: Aromatics I is the first of a two part introduction to the study of aromatic compounds. This first unit addresses the historical perspectives, the elucidation of benzene’s structure, standards for aromaticity, and nomenclature.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Aromatics 2

  The lesson Organic Chemistry: Aromatics II continues the study by addressing monosubstitution reactions, disubstitution reactions specifically addressing the nature of the ortho/para and meta directors, and other reactions. Included in this study is benzyne, preparations and reactions of arenes. A section addressing UV-VIS spectra is included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Phenols

  The lesson Organic Chemistry: Phenols covers naming these compounds, physical properties, preparations, reactions, and chemical and spectroscopic analysis.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Aldehydes & Ketones

  The lesson Organic Chemistry: Aldehydes and Ketones addresses carbonyl structure, nomenclature, and physical properties of these two related families. In a special topics section, the characteristics and usage of some of the small aldehydes and ketones are addressed. Preparation of aldehydes and ketones, their reactions, and chemical and spectroscopic analysis are also included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Amines

  The lesson Organic Chemistry: Amines introduces the first of the nitrogen-containing groups. In this unit structure, nomenclature, physical properties, preparations, reactions, and both chemical and spectroscopic analysis are included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Carboxylic Acids

  The lesson Organic Chemistry: Carboxylic Acids addresses the usual topics covered in the introduction of a new family: structure, common and formal nomenclature, physical properties, preparations, reactions, chemical and spectroscopic analysis. Characteristics and nomenclature of salts is included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Derivatives of Acids

  The lesson Organic Chemistry: Acid Derivatives introduces five classes of organic compounds: acid chlorides, amides, acid anhydrides, esters, and nitriles. The structure, preparation, and reactions of these five are studied, as well as chemical and spectroscopic analysis. The unit concludes with presentation of the organic group nomenclature priorities.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Carbanions

  The lesson Organic Chemistry: Carbanions introduces the characteristic reactions occurring at the alpha hydrogen of carbonyls. Reactions studied include bromination, aldol and crossed aldol condensation, the Cannizzaro reaction, the Wittig reaction, the Claisen and crossed Claisen reactions, the malonic ester synthesis, and the acetoacetic ester synthesis.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Amino Proteins

  The lesson Organic Chemistry: Amino Acids and Proteins describes the amino acid structure and preparations, as well as the isoelectric pH and electrophoresis. Formation of proteins, protein structure, sequencing proteins, detection and denaturation of proteins are also addressed.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Carbohydrates

  The lesson Organic Chemistry: Carbohydrates introduces the organic student to the classification of these compounds. Also included are cyclic structures, D & L, d & l designations, reducing sugars, reactions, polysaccharides, and a brief overview of tooth decay.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

• Organic Chemistry Lesson: Lipids

  The lesson Organic Chemistry: Lipids addresses the classification and characteristics of the major groups: fatty acids, glycerides, non-glyderide lipids, and complex lipids. Steroid structure is included.

  This lesson is part of a full course, Organic Chemistry that is available through the series listed above or in DVD format from the Chemistry Professor’s website at http://chemistryprofessor.com/organic_chemistry.htm. The full course addresses those topics recommended for inclusion in a college-level organic chemistry course. The essential topics addressed are: characteristics of organic molecules, alkanes, chemical reactions, alkyl halides, stereochemistry, alkenes, alkynes, alcohols, substitution reactions, elimination reactions, infrared spectroscopy, mass spectrometry, HNMR or Proton NMR, CNMR or C-13 NMR, ethers, epoxides, thioethers, conjugated systems, aromatics, phenols, aldehydes, ketones, amenes, carboxylic acids, acid derivatives, carbanions, carbohydrates, amino acids, proteins, and lipids. These topics are all addressed at the college level, with the understanding that students have a solid college-level chemistry background. Those students without this background should consider Professor Etheridge’s college-level Chemistry I and Chemistry II lessons lessons or full course prior to undertaking this organic chemistry course. The course is designed for college students who may need further assistance with their organic chemistry courses and for chemistry teachers and professors who could benefit from refresher lessons or are looking to alter their approach to a subject.

Supplementary Files:

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