Section D19: Alkanes, Alkenes and Alcohols

... 3.2 recall that alkanes have the general formula CnH2n+2 3.3 draw displayed formulae for alkanes with up to five carbon atoms in a molecule, and name the straight-chain isomers 3.4 recall the products of the complete and incomplete combustion of alkanes 3.5 describe the substitution reaction of meth ...

organic lab questions

... Write descriptive organic equations for all reactions. If no reaction occurred, write N.R. for the products of the reaction. Under each alcohol, write the common name of the alcohol. Under each carboxylic acid write the I.U.P.A.C. name of the carboxylic acid. Finally, write the name of the ester und ...

Chapter #21 Notes

... one or more hydroxyl groups (-OH) Name the parent compound. Locate the longest continuous chain that contains the hydroxyl group. Change the ending –ol. If there are more than one OH –diol, -triol,… Number the carbon atoms in the parent chain. Number the carbon atoms in the chain so that the -OH has ...

LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034 PART-A

... 06. Does hydroboration of alkene follow Markonikov’s addition? Justify your answer with suitable example. 07. How is catalytic hydrogenation different from dissolving metal reduction? Give reasons. 08. What are natural synthons? Give suitable examples. 09. What are protecting groups? How is carbonyl ...

alkene structure, naming, stereochemistry & preparation

... And – the “take-home message” is: The more substituted (or the fewer H atoms there are on) the C=C atoms the more stable the alkene. ...

Amines - Chemistry Geek

... Example: ...

Chemistry: The Central Science, 12e (Brown et al

... 6) How many structural isomers (include all types except optical) can be drawn for C5H10? A) 5 B) 6 C) 7 D) 10 E) 12 7) Which statement about hydrocarbons is false? A) The smallest alkane to have structural (constitutional) isomers has 4 carbon atoms. B) Cyclic alkanes are structural isomers of alke ...

슬라이드 1

... Conjugate addition to a,b-unsaturated esters can often be effected by copper catalyzed reaction with Grignard reagent. Other reactions, such as epoxide ring opening, can also be carried out under catalytic conditions. (Scheme 8.5) ...

Exam 2 Review Sheet for Friday, March 2 Exam Chem 1120, Spring

... • Define and use the following terms: catenation, hybridization, homologous, saturated, unsaturated, condensed structural formula, general structural formula, radicals, isomers. • Explain why there are so many carbon compounds. • List and explain the different types of hybridization that carbon unde ...

Chapter 7: Alkenes and Alkynes – Properties and Synthesis

... Ch 7.9–7.11: Synthesis of alkynes, vic-dihalide, gem-dihalide Terminal alkynes and their use in synthesis Ch 7.12–7.115: Hydrogenation, Reduction, Syn/Anti addition Dissolving metal reduction, Index of hydrogen deficiency ...

EXPERIMENT 3: Preparation and Reactivity of Alkyl Halides

... The most common of the variety of methods available for preparing alkyl halides is the replacement of the hydroxyl group of an alcohol. This type of reaction is representative of an important class of reactions in organic chemistry called nucleophilic aliphatic substitution reactions. There are nume ...

Unit 15 Organic Chemistry Notes

... Low melting points (weak IMFs) Slow reaction rates High Ea needed Catalysts used Covalent bonds are strong (harder to break) ...

sources - critical chemistry

... the general formula CνH2ν+2 and in the alkenes with general formula CνH2ν-2. At the same time we have alcohols with the functional groups hydroxyl radical which have the general formula CνH2ν+2O. Next, another classification is based on isomerism of carbon, containing compounds that are either isome ...

Organic Chemistry Fifth Edition

... Classification of Alkyl Halides Alkyl halides are defined as primary if the carbon that the halogen is attached to is directly attached to one other carbon. Similarly if the carbon that the halogen is attached to is directly attached to two carbons then it is a secondary alkyl halide. In tertiary a ...

19_12_13rw

... This ketone then goes on to react with a R second mole of the Grignard reagent to give a tertiary alcohol. ...

Chemistry - NTU.edu - Nanyang Technological University

... Periodicity of chemical properties of the elements in the third period (a) Reaction of the elements with oxygen, chlorine and water (b) Variation in oxidation number of the oxides (sodium to sulphur only) and of the chlorides (sodium to phosphorus only) (c) Reactions of these oxides and chlorides wi ...

Chapter 1--Title

... The relative stabilities of alkenes can be measured using the exothermic heats of hydrogenation ...

Organic Chemistry

7. AS mechanisms

... The rate of these substitution reactions depends on the strength of the C-X bond The weaker the bond, the easier it is to break and the faster the reaction. The iodoalkanes are the fastest to substitute and the fluoroalkanes are the slowest. The strength of the C-F bond is such that fluoroalkanes ar ...

Chapter 25 The Chemistry of Life: Organic Chemistry 25.1 Some

... Hydrocarbons are relatively unreactive; for an organic molecule to be reactive it needs something additional. ...

Alkanes – Molecules w/o functional Groups

... – Ka = K[H20] = [H3O+][A-]/[HA] – pKa = -log Ka ( pKa = pH + pA- -pHA) – pKa = pH where 50% of acid is dissociated [A] = [HA] – “weak acids” pKa > 4 ...

10 IB Chemistry Assessment Statements 2009 Revised

... Equations may be balanced using the symbol [O] to represent oxygen supplied by the oxidizing agent. Include the different conditions needed to obtain good yields of different products, that is, an aldehyde by distilling off the product as it is formed, and a carboxylic acid by heating under reflux. ...

File

... ii) Hydroxide Ion Substitution e.g. alkyl halide + hydroxide ion (from a base)  alcohol + halide ion ...

Organic Functional Groups

... - polar region (less than carboxylic acids) - prepared by a reversible condensation reaction (usually an alcohol and c. acid) with removal of a small molecule such as water - reaction usually needs an acid catalyst and is sometimes called ...

Functional Groups (13 Questions) File

... A list of substances contains a phenyl, an alkyne and an acid. Which substance listed below does not belong on this list. a) b) c) d) ...

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Haloalkane

The haloalkanes (also known, as halogenoalkanes or alkyl halides) are a group of chemical compounds derived from alkanes containing one or more halogens. They are a subset of the general class of halocarbons, although the distinction is not often made. Haloalkanes are widely used commercially and, consequently, are known under many chemical and commercial names. They are used as flame retardants, fire extinguishants, refrigerants, propellants, solvents, and pharmaceuticals. Subsequent to the widespread use in commerce, many halocarbons have also been shown to be serious pollutants and toxins. For example, the chlorofluorocarbons have been shown to lead to ozone depletion. Methyl bromide is a controversial fumigant. Only haloalkanes which contain chlorine, bromine, and iodine are a threat to the ozone layer, but fluorinated volatile haloalkanes in theory may have activity as greenhouse gases. Methyl iodide, a naturally occurring substance, however, does not have ozone-depleting properties and the United States Environmental Protection Agency has designated the compound a non-ozone layer depleter. For more information, see Halomethane. Haloalkane or alkyl halides are the compounds which have the general formula ″RX″ where R is an alkyl or substituted alkyl group and X is a halogen (F, Cl, Br, I).Haloalkanes have been known for centuries. Chloroethane was produced synthetically in the 15th century. The systematic synthesis of such compounds developed in the 19th century in step with the development of organic chemistry and the understanding of the structure of alkanes. Methods were developed for the selective formation of C-halogen bonds. Especially versatile methods included the addition of halogens to alkenes, hydrohalogenation of alkenes, and the conversion of alcohols to alkyl halides. These methods are so reliable and so easily implemented that haloalkanes became cheaply available for use in industrial chemistry because the halide could be further replaced by other functional groups.While most haloalkanes are human-produced, non-artificial-source haloalkanes do occur on Earth, mostly through enzyme-mediated synthesis by bacteria, fungi, and especially sea macroalgae (seaweeds). More than 1600 halogenated organics have been identified, with bromoalkanes being the most common haloalkanes. Brominated organics in biology range from biologically produced methyl bromide to non-alkane aromatics and unsaturates (indoles, terpenes, acetogenins, and phenols). Halogenated alkanes in land plants are more rare, but do occur, as for example the fluoroacetate produced as a toxin by at least 40 species of known plants. Specific dehalogenase enzymes in bacteria which remove halogens from haloalkanes, are also known.

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Haloalkane