Handout: Naming Organic Compounds Substituents Longest carbon

... with same R groups on N: Treat alkyl groups attached to nitrogen as substituents. For same substituents, use “di” and “tri.” 2°, 3° amines with different R groups on N: Parent amine is the one with largest R group; name other groups as substituents, starting with N-. [Ions derived from a ...

CH 20: Carboxylic Acids and Nitriles

... • Oxidation of a substituted alkylbenzene with KMnO4 or Na2Cr2O7 gives a substituted benzoic acid (see Section 16.9) • 1° and 2° alkyl groups can be oxidized, but tertiary groups are not ...

Chapter 1

... Ti: 0.6% Others: 0.9% ...

CBSE Guess Papers Chemistry Class XII(12th) 2006

... 15.The boiling point of benzene is 353.23K. When 1.80 g of non-volatile solute was dissolved in 90g of benzene, the boiling point is raised to This article is the property of BoardGuess.com. Any unauthorized use is strictly prohibited. Please visit http://www.boardguess.com for more information. ...

Test Review

... Write a complete equation for each of the following reactions using structural formulas. Name the reactants and products when possible. If more than one product is formed, please indicate the major and minor product. 1. Oxidation of cyclopentanol ...

13. amines - WordPress.com

... When the alkyl group is small, there is no steric hindrance to H-bonding. In case the alkyl group is bigger than CH3 group, there will be steric hindrance to H-bonding. Therefore, the size of the alkyl group also determines the order of basic strength. Thus inductive effect, solvation effect and ste ...

Carboxylic Acids 2

... 1° alcohols. • To drive equilibrium to the right, one can use an excess of one of the reactants, either the acid or the alcohol as solvent. • Alternatively, the by-product water can be removed by distillation or a dehydrating agent. Esters can be converted back to acids by aqueous acidic hydrolysis: ...

Alcohols - Structure - University of Nebraska Omaha

... • Ethers are polar molecules. • Each C-O bond is polar covalent. • However, only weak polar forces exist between ether molecules in the pure liquid. ...

Naming organic compounds

... The basic rules There are some general rules which you should remember when naming organic compounds: The longest unbranched chain containing the functional group is the parent molecule or simply the longest unbranched chain for alkanes. Remember that the longest chain can go round a bend. Indicate ...

Diels-Alder Reaction:

... In 1921, Otto Diels and Kurt Alder discovered that certain alkenes and alkynes can undergo a 1,4addition with conjugated dienes to give substituted cyclohexenes or 1,4-cyclohexadienes. In 1950, their work was recognized with a Nobel Prize in chemistry. The mechanism of the reaction involves a cyclic ...

Basic IUPAC Nomenclature V

... IUPAC Nomenclature of alcohols follows these steps: 1) Find the longest chain of continuous carbons that includes the carbon attached to the alcohol. This is now the main chain. Name this chain as if it were a straight chain alkane. a. Drop the –ne ending and add –ol. This works for –enes and – ynes ...

answer

... • Threonine (Y) is an amino acid. On the structure of (Y) below, identify all stereocentres in threonine with an asterisk (*). ...

Alcohols General formula R-OH hydroxyl group Nomenclature

... The low molecular weight alcohols, with 4 carbons or less, are water soluble. The hydrocarbons and aryl halides are not. There are several types of intermolecular bonding: London or dispersion forces, dipole-dipole interactions and hydrogen bonding. Hydrogen bonding is the strongest type of intermol ...

2.10 Assessed Homework Task - A

... Give one advantage and one disadvantage of manufacturing ethanol by fermentation rather than by hydration. Do not include energy consumption or cost. Advantage .................................................................................................... ...

Final Study Guide

... The final exam, on Tuesday June 12th, is a comprehensive exam. It is open to lecture and lab notes but closed to chemistry textbooks. You do not need to rely on memorization as much but have the ability to solve the problems and use provided information. Quizzes, homework problems, practice exams, e ...

167KB - NZQA

... Carboxylic acid (butanoic acid) is obtained by reacting a mixture of butan-1ol with acidified potassium dichromate solution (under reflux conditions) until all of the reactant has been converted to butanoic acid. Observations: orange Cr2O72– to green /, purple MnO4– to colourless / aldehyde condense ...

LC Fuels and Thermochemistry [PDF Document]

... Hazards of Methane Production • extremely explosive ...

NCEA Level 3 Chemistry (91391) 2013

... Carboxylic acid (butanoic acid) is obtained by reacting a mixture of butan-1ol with acidified potassium dichromate solution (under reflux conditions) until all of the reactant has been converted to butanoic acid. Observations: orange Cr2O72– to green /, purple MnO4– to colourless / aldehyde condense ...

MOLECULAR FORMULAS N C H H C N H HHH HH

... PRACTICE EXAMINATION/Exam 1, Fall 1998 ...

Aldehydes Ketones

...  Direct addition (aka 1,2 addition) occurs when a nucleophile attacks the carbon in the carbonyl directly.  Conjugate addition (aka 1,4 addition) occurs when the nucleophile attacks the carbonyl indirectly by attacking the second carbon away from the carbonyl group, called the beta carbon, in an u ...

Reactions of Alcohols - John Carroll University

... Solution This synthesis requires more finesse. The aldehyde is easily over-oxidized to a carboxylic acid, and the double bond reacts with oxidants such as KMnO4. Our choices are limited to PCC or the Swern ...

Slide 1

... an “-OH” group. – The “-OH” group is called a hydroxyl group. – There are three kinds of alcohols: 1). Primary alcohol – one “R” group attached to the C-OH 2). Secondary alcohol – two“R” groups attached to the C-OH 3). Tertiary alcohol – three “R” groups attached to the C-OH ...

All Chemistry Formulas for O levels Chemistry by Ethan Wu

... Alkane + oxygen -> carbon dioxide + water vapour Substitution (under ultraviolet light) E.g. methane + chlorine -> chloromethane + hydrogen chloride Alkenes Combustion Alkene + oxygen -> carbon dioxide + water vapour As alkenes have higher percentage of carbon than alkanes, alkenes will burn with a ...

NAT 5 Unit 2 Natures Chem Booklet 1 Fuels

... State the test for oxygen State that the main components of air are oxygen and nitrogen in proportion of 1:4 State that an exothermic reaction is one in which energy is released State what is meant by finite resource and fuel crisis in relation to the amount of coal, oil and natural gas in the earth ...

ETHER

... Cleavage takes place under vigorous conditions: concentrated acids and high temperatures. ...

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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