EAS Friedel-Crafts Alkylation

... CH3CH2Cl / AlCl3 (0.1 eq.) ...

8th Grade - Chemistry

... A reaction that releases energy in the form of heat. For example, liquid water turning into ice, and the combustion of fuel are exothermic reaction (pg. 221) ...

Document

... readily ...

Functional Groups

... Atoms other than hydrogen or carbon covalently bonded to a carbon atom in an organic molecule.  Most commonly oxygen, nitrogen, or the halogens.  The presence of a functional group drastically changes the chemical properties of a molecule. ...

Hydrocarbon - TeacherWeb

... 7. Branched-chain alkanes must be named differently than straight-chain alkanes. 8. Parent chain: the longest continuous chain of carbon atoms 9. All side branches are called substituent groups because they appear to substitute for a hydrogen atom in the parent chain. 10. Copy the five steps for nam ...

doc

... Why does this reaction work better for primary and secondary alcohols? These reagents are less acidic and less likely to cause acid catalyzed rearrangements. (Mechanisms are covered in Chapter 11.) ...

reactions of the carbonyl group in aldehydes and ketones

... atoms attracted to an electron-deficient centre, where it donates a pair of electrons to form a new covalent bond A curly arrow is a symbol used in reaction mechanisms to show the movement of an electron pair in the braking or forming of a covalent bond ...

Preparation of an Alkyl Halide Nucleophilic Substitution, S

... Mechanism of SN1 Reaction of Alcohols There are three steps in the mechanism for ...

TM - Intro to Organi..

...  Organic chemistry is the study of carbon containing compounds except elemental carbon (diamond, graphite, coal), CO2, CO, carbonates (CO32- group) and cyanides (CN- group); Which are all considered inorganic molecules. ...

Alcohol Synthesis by Electrophilic Hydration

... The reversibility of alkene protonation leads to alkene equilibration. Protonation-deprotonation reactions may interconvert related alkenes and produce an equilibrium mixture of isomers. Under these conditions, a reaction is said to be under thermodynamic control. ...

org test 1

... ASSIGNMENT TYPE: REVISION OF UNITS 11-14 1. Why alkyl halides are generally not prepared in laboratory by free radical halogenation of alkanes? 2. Why is Sulphuric acid not used during reaction of alcohol with KI? 3. Why is preparation of ethers by acid catalysed dehydration of 2° and 3° alcohols no ...

Organic Chemistry

... Contain only carbon and hydrogen Contain one triple bond between carbons Linear geometry Characteristic reactions of alkynes – Addition of hydrogen – Addition of halogens – Addition of hydrogen halides – Addition of water ...

Practice Questions Survey II – 1152 1. The bond angles around the

... 3. The chemical formula of methanol is CH3OH. How many unshared electron pairs are associated with a molecule of methanol? a. 1 c. 4 b. 2 d. 6 4. Which of the following functional groups does not contain a carbonyl group? a. ester c. aldehyde b. alcohol d. Ketone 5. In which of the following classes ...

Chapter 7

... Rearrangements • Only the carbocation rearranges, so dehydration of primary alcohols can not have rearrangements since they are E2 and not carbocation is formed! • However, as we will see in Ch 8, the alkene product can react with the acid by using its pi electrons to abstract a proton from an acid ...

CHE 322

... 3. (8) Give the complete mechanism that shows why the reaction of butanal with a cyclic 2° amine followed by heating with acid produces an enamine that is nucleophilic at butanal’s former α-carbon. ...

C h e m g u i d e ... ALCOHOLS: THE REACTION WITH SODIUM

... a) Why is it important to test the pH of the liquid before adding the sodium? b) What would you observe if the liquid was actually an alcohol? c) Observing this isn’t enough to be sure that you have an alcohol. What else might cause the result you described in part (b)? d) Suppose you added a small ...

Chapter 19

... After studying this chapter you should be able to: 1. Identify alkanes, alkenes, alkynes, alcohols, ethers, amines, carboxylic acids and simple aromatic compounds. 2. Name alkanes, alkenes, alkynes and alcohols. 3. Understand and predict some physical properties of simple organic compounds (water, s ...

Name - TeacherWeb

... When a halogen is attached to an aliphatic chain, it is called an alkyl halide; when attached to an arene ring, it is an aryl halide. Common names of halocarbons begin with the name of the alkyl or aryl group and end with the name of the halogen with an -ide ending. ...

Functional Groups

... • –Primary alcohol, secondary alcohol, tertiary alcohol, primary amine, secondary amine, tertiary amine, • Skills: • –Draw and state names of the compounds containing up to six carbon atoms with the following functional groups: aldehyde, ketone, carboxylic acid, alcohol, amide, amine, ester and halo ...

Organic and Inorganic Esters from Alcohols

... As an alternative to the acid-catalyzed conversions of alcohols into haloalkanes, a number of inorganic reagents can convert the alcoholic hydroxyl group into a good leaving group under milder conditions. ...

Organic Notes #5 - RX`ns - Winston Knoll Collegiate

... which results in stronger van der Waal’s forces and consequently higher boiling points. When branching occurs the molecules are more spherical which results in less contact, weaker van der Waal’s, and lower boiling points. Alcohols follow a similar pattern, however have higher boiling points over al ...

Quiz 8

... ...

South Pasadena • Chemistry Name Period Date 3 · Organic

... 3.2 Isomers ...

Test 12

... Functional Groups (identify, name and draw) Halides Alcohols Mono, di, tri-hydroxy alcohols Primary, Secondary and Tertiary Alcohols Identify glycerol and ethylene glycol Organic Acids – (electrolyte!) Esters Aldehydes Ketones Ethers Amines and Amides Identify an Amino Acid (has amine group and acid ...

C1_5_products_from_oils_crossword

... 11. Polymers that change in response to changes in their environment. 12. A hydrocarbon whose molecules contain at least one carbon-carbon double bond. Down 1. Something that cannot be replaced once it is used up. 2. An alkene with the formula C2H4. 3. The reaction used in the oil industry to break ...

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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