Catalog Search Results
Author
Series
Great Courses volume 5
Language
English
Description
Focus on the first of several fundamental classes of reactions you'll encounter throughout this course: the proton transfer reaction. You'll learn the three classifications of acids and bases; the Arrhenius, Bronsted-Lowry, and Lewis definitions; how chemists predict proton transfer reaction outcomes; two kinds of intramolecular proton transfer reactions; and more.
Author
Series
Great Courses volume 25
Language
English
Description
Probe the connections between biology and metals with this lecture on some compounds and reactions in the field of organometallic chemistry. As you'll quickly learn, organometallics have a range of practical applications; one example you'll encounter is Dotarem, an organometallic compound used to help detect tumors in cancer patients.
Author
Series
Great Courses volume 34
Language
English
Description
Discover how solubility makes for an extremely effective tool for isolating non-volatile organic compounds through liquid-liquid and solid-liquid extractions (part of a larger phenomenon known as partitioning). As you delve into these processes, you'll learn one way to better understand extractions: making a perfect cup of tea.
Author
Series
Great Courses volume 16
Language
English
Description
Carboxylic acids and esters are two oxygen-containing compounds that possess multiple oxygen atoms with different hybridization states. First, look at two ways to prepare carboxylic acids. Then, examine how Fischer esterification produces esters. Finally, learn about retrosynthetic analysis, a tool that helps organic chemists address synthetic challenges.
Author
Series
Great Courses volume 11
Language
English
Description
Investigate substitution reactions: one of the fundamental mechanisms by which one compound becomes another. The simple molecules you've encountered so far can be altered in targeted ways and once you understand how these reactions work, Professor Davis says you've reached "a palpable threshold in the study of organic chemistry."
Author
Series
Great Courses volume 12
Language
English
Description
Cover the second class of organic reaction: eliminations, the primary method for producing alkenes. As you'll learn, elimination reactions proceed with the production of a byproduct formed by the leaving group; in contrast to substitution reactions, they involve a significant increase in entropy because they make more molecules than they consume.
Author
Series
Great Courses volume 10
Language
English
Description
Explore alkyl halides, hydrocarbons where one or more hydrogen atoms are replaced by a halogen atom. You'll examine how larger halogen atoms decrease the volatility of alkyl halides compared to their alkane counterparts (which radically changed the science of refrigeration). You'll also learn about the reactivity of alkyl halides and the phenomenon of carbocation rearrangements.
Author
Series
Great Courses volume 30
Language
English
Description
Visit the radio portion of the electromagnetic spectrum for insights into how tiny, atom-sized magnets in organic molecules interact with radio waves (and each other) to produce a complex set of magnetic resonances - which are one of the gold-standard identification tools used in modern organic chemistry. Topics include Zeeman splitting, magnetic spin-spin coupling, and multiplets.
Author
Series
Great Courses volume 7
Language
English
Description
Start examining various classes of organic compounds with alkanes, whose hydrocarbons consist entirely of hydrogen and carbon. How can a few simple carbon atoms lead to millions of possible alkane structures? How does structure affect their physical properties? And what curious role did they play in 19th-century whaling?
Author
Series
Great Courses volume 17
Language
English
Description
Turn now to nitrogen, which has played an important role in the chemistry of life since it began. Learn the chemistry of primary, secondary, and tertiary amines, the simplest of nitrogen-containing compounds. Also, consider imines (containing a pi-bond to nitrogen) and nitriles (where two pi bonds are present), including the simplest and most well-known nitrile: hydrogen cyanide.
Author
Series
Great Courses volume 21
Language
English
Description
Build on your understanding of aromatics by investigating a very useful class of reactions: electrophilic aromatic substitution. What's the general mechanism by which these reactions occur? What are some of the many modifications chemists can make to benzene? What role did this reaction play in the synthesis of one of the most infamous organic compounds of all time, DDT?
Author
Series
Great Courses volume 6
Language
English
Description
Make sense of a crucial concept in organic chemistry: the handedness of molecules, or, as chemists call it, "chirality." Topics include the definition of chiral tetrahedral centers; the creation of stereoisomer sets via inversion of handedness; and intriguing examples of stereoisomers (including enantiomers and double-bonded stereoisomers) and their unique chiral centers.
Author
Series
Great Courses volume 33
Language
English
Description
Another purification method is distillation, used for producing potable water, refining oil, and more. First, examine the fundamental laws governing this influential chemical technique. Then, get a closer look at distillation apparatuses commonly used for vaporization and condensation. Finally, learn about azeotropes - mixtures of liquids that are impossible to distill.
Author
Series
Great Courses volume 3
Language
English
Description
Investigate some of the key methods scientists employ to communicate the right structural information about molecular compounds, including their identity, the ratio of elements that comprise them, and their connectivity. Explore Fischer projections, Newman projections, and stereoimages - all of which help us overcome the challenges of conveying the three-dimensional positions of atoms.
Author
Series
Great Courses volume 18
Language
English
Description
Nitroglycerine, dynamite, TNT. What do these explosives have in common? They all contain highly reactive compounds that combine nitrogen and oxygen in organics. Look closely at these and other materials in this in-depth lecture on functional groups containing nitrogen and oxygen that covers everything from nitrate esters to trinitrotoluene to amino acids.
Author
Series
Great Courses volume 9
Language
English
Description
How can pi bonds change the chemistry of hydrocarbons? How did one of the greatest rivalries in chemistry lead to an understanding of trends in stability among regio- and stereoisomers with the same molecular formula? Why do terminal alkynes have such unusual acidity? Professor Davis has the answers to these and other questions.
Author
Series
Great Courses volume 27
Language
English
Description
How do organic chemists actually prove the behavior of molecules and chemical structures you've learned about in the preceding lectures? The answer: spectroscopy, which entails the observation of the interaction between matter and light. In the first of several lectures on the topic, focus specifically on observations made with the UV-visible spectrum.
Author
Series
Great Courses volume 4
Language
English
Description
You've learned how to depict molecules as they exist at a single point in time. How about as time passes? The answer: much like a cartoonist. Here, learn about this scientific art form, including writing reaction schemes, expanding them into elementary steps, using curved arrows to chart molecular progress, and more.
Author
Series
Great Courses volume 1
Language
English
Description
Start exploring organic chemistry's foundations with a review of the basic science of chemistry (including atomic structure and the periodic table). Then, get an engaging introduction to organic chemistry: its origin, its evolution, its relationship to carbon, and its fascinating applications in everything from food to fuel to medicine.
Author
Series
Great Courses volume 31
Language
English
Description
In this final lecture on spectroscopic techniques, discover the importance of modern NMR spectrometers, which use superconducting magnets and radio receivers to collect spectra with more speed and precision (and in different ways) than other techniques. Also, get an intriguing lesson in the human element - and limitations - involved in spectroscopy.
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