CLASSIFICATION OF ORGANIC ISOMERS
If two different substances with different chemical and/or physical properties have the same molecular formula they are said to exhibit isomerism and to be isomers of one another. This phenomenon is of interest because one can easily write the formula of one compound without realizing that it can also represent others. Isomerism is frequently encountered in organic compounds, although there are some inorganic compounds which exhibit isomerism. There are two general types of isomers: (1) constitutional isomers and (2) stereoisomers. Each general isomer class can be further subdivided into different types.
Constitutional Isomers
Constitutional isomerism arises when a formula represents compounds in which the atoms are attached to one another in different ways-i.e. bonding is different. Constitutional isomers are molecules that have the same molecular formula but different spatial arrangements of the atoms. A structural formula shows the order in which atoms are bonded together. There are three main kinds of constitutional isomers: 1) skeletal isomers 2) positional isomers 3) functional group isomers.
1. Skeletal isomerism:
The hydrocarbon chain may be arranged in different ways i.e. the carbon ‘skeletons’ differ, i.e. different structural ‘backbones’. The isomers possess the same functional group, and belong to the same homologous series.
The Term Paper on Isomers
3.2 Lots of carbon compounds seem to be isomers. What is an isomer? In organic chemistry, there are many examples of different compounds which have the same molecular formula as each other, but different arrangements of the atoms in their molecules, (different structural formulae). These compounds are said to be isomers of one another. Isomerism also occurs in inorganic chemistry, but it is less ...
Examples:
i) Pentane
ii. C6H12 cyclohexane Methylcyclopentane 1,1-dimethylcyclobutane
Only the physical properties differ in these cases. Compounds of branched chain molecules always have lower boiling point than that of the related straight chain compound. The straight chain molecule can have greater areas in contact with one another, therefore, increase in intermolecular forces (LDF) than the branched chain molecules (in the same way as pieces of rope in contact with one another would have more area touching than would footballs placed together).
As branching increases, boiling point decreases : van-der-Waal’s forces are weaker due to smaller effective surface area.
2. Positional isomers There are two types of position isomerism: (i) Positional isomers are compounds with the same structural ‘backbone’ but different positions of substituents or functional groups. Example: C5 H11Cl 1-chloropentane Example: C8H10 2-chloropentane
1,3-dimethylbenzene (m-xylene)
3-chloropentane
1,4-dimethylbenzene
1,2-dimethylbenzene (o-xylene)
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There are two alcohol isomers C3H8O
1-propanol (b.p 97 0C) Example: 1,2-dichlorobenzene 1,3-dichlorobenzene
2-propanol (b.p 82 0C) 1,4-dichlorobenzene
(ii) Functional group forms part of the chain, and the hydrocarbon radicals on each side are different. CH3CH2CH2OCH3 CH3CH2OCH2CH3 1-methoxypropane ethoxyethane CH3CH2COOCH3 methylpropanoate CH3COOCH2CH3 ethylethanoate
The isomers are chemically similar because they possess the same functional group. 3. Functional Group Isomers
These are compounds with the same molecular formula but the atoms are arranged so as to give different functional groups, thus belonging to different homologous series.
Examples:
C2H6O C3H6O C3H6O2 CH3CH2OH ethanol CH3CH2CHO propanal CH3CH2-COOH propanoic acid CH3-CO-CH3 propanone CH3-COOCH3 methyl ethanoate CH3-O-CH3 methoxymethane H2C =CH – CH2(OH) prop-2-en-1-ol
Note that every ether has alcohols as isomer, every ketone has aldehydes, every acid has an ester.
Both physical and chemical properties are quite different in these cases.
STEREO -ISOMERS
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Isomers that possess the same molecular formula and also identical atoms in the same arrangement with respect to one another, (i.e. identical connectivity), but still differ because of the spatial arrangement of their atoms. These are stereo-isomers. The atoms are arranged differently in space, i.e. they have different configurations. There are two types of stereo-isomers: (1) diastereoisomers (2) optical (See Later Notes)
1. diastereoisomers
If one bond of a molecule is not free to rotate, as in the case of a double bond, then two spatial arrangements are possible. The compounds differ only in the relative spatial position of the groups and are called diastereomers. The C = C bond of an alkene is a rigid structure that produces diastereomers. The substituents attached are ‘locked’ in place and cannot be interchanged without breaking and making bonds.
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There is normally free rotation about a C – C single bond, but there is no free rotation about a C = C bond. Since such a rotation would require the breaking of the weaker π- bond to allow free rotation without breaking the σ – bond and thus rotate from time to time. This would require more energy than is available at ordinary temperatures, there is therefore a temperature above which diastereomers can change from one form into another.
[The two forms are known as the cis and trans isomer. (Cis: if like groups are on one side of the double
bond and trans: if same groups are on the opposite side) ] The two diastereomers have the same molecular formula, same skeleton, same organization of atoms and bonds but differ in the directions taken by the groups attached to the bonds, i.e. different spatial arrangement of the atoms. The two isomers have different physical properties and many of their chemical properties also differ.
Example :
i)
cis- 1,2-dichloro-prop-1-ene ((Z)-dichloropropene) i
trans- 1,2-dichloro-prop-1-ene ((E)-dichloropropene)
i) cis-but-2-enoic acid
iii) (E)-2-pentene (trans-2-pentene)
(Z)-2-pentene (cis-2-pentene)
iv) cis- and trans- butenedioic acid (maleic acid and fumaric acid).
The physical and chemical properties of cis-trans isomers differ. In general the cis-isomer is generally more reactive, has lower melting point, i.e. lower stability and greater solubility than the trans isomer ( because the large substituent groups have a greater separation from one another in the trans form, therefore are less likely to interfere with one another than in the cis form.) Because of differing physical properties, geometrical isomers may be separated by fractional distillation or by fractional crystallization.
The Essay on Organic Chemistry Covalent Bond
Homologous Series: An homologous series is a set of compounds whose components differ by a single repeating functional group. In the case of (straight chain) alkanes, CH 2. Their general formula is Ch 2 n+2. The chemical properties of the individual members of an homologous series are similar and they show a gradual change in physical properties. Hydrocarbons: Compounds containing only hydrogen ...
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Geometrical isomerism depends not only on the existence of a double bond but also on the groups attached to the C -atoms joined by the C = C bond ( ex. 1,1-dichloroethene : no isomers!) The key feature for geometrical isomerism is the presence of two different groups on each end of the double bond. Thus there can be no cis-trans diastereomers if either of the C -atom supports two identical groups. Each carbon atom of the double bond must have two different substituent groups (one of which is a hydrogen atom).
(Example: 1,1- dichlorooethene) The existence of geometrical isomerism applies to any class of compounds which contains a double bond: -C=N ex. Ring structures also lock out free rotation, geometric isomers of ring compounds are also possible: Carbon rings containing fewer than five carbon atoms are strained because the C— C— C bond angle in the smaller rings must be less than the 109.50 tetrahedral angle. The amount of strain increases as the rings get smaller. In cyclopropane, which has the shape of an equilateral triangle, the angle is only 600; this molecule is therefore much more reactive than either propane, or cyclohexane, which has no ring strain. Example: cis- and trans- 1,2-dimethylcyclopropane cis- and trans-1,2-dimethylcyclohexane [Note that compounds with triple bond do not exhibit isomerism: a-C/ C-b Flat molecule, a and b have free rotation, therefore no geometrical isomers possible, only skeletal isomerism exhibited, ex. 1- butyne or 2- butyne. ] Assignment 1.Write structural formulae for three compounds of formula C5H12. 2. Write the structural formulae of the three structural isomers of the formula C3H8O. 3. The molecular formula C5H10O corresponds to a number of carbonyl compounds, which contain the carbonyl group: — C = O.
The Essay on Determination of the formula unit of a compound
1)The crucible is weighed and the exact mass is recorded. 2)Approximately 0.2g of zinc is placed into the crucible and the crucible with its contain is weighed. The exact mass of zinc is determined. 3)10 ml of 6M HCl solution is poured into a measuring cylinder. 4)The 10 ml of 6M HCl solution is carefully added into the crucible containing zinc powder and the contents is stirred gently using a ...
Write their structural formulae. 4. (a) Explain why cis-trans isomerism: i) does exist for 1,2-dibromoethene ii) does not exist for 1,2-dibromoethane iii) does not exist for 1,1-dibromoethene b) (i) draw displayed formulae for the following compounds: hex-3-ene, butenedioic acid (ii) State and explain which, if either, of hex-3-ene and butenedioic acid can display cis-trans isomerism. (iii)Suggest how these isomers might be distinguished. 5. Explain how the nature of the C = C bond gives rise to cis-trans isomerism. 6. There are both cyclic and non-cyclic isomers of hydrocarbons with a given molecular formula. (a) (i) Draw full structural formulae for cyclopropane, A, and cyclopropene, B. (ii) Draw two non-cyclic structural isomers of A and B: state the class of compound to which each belongs. (iii) A common polymer has the same empirical formula as A. Give the empirical formula, and name of the polymer. (b) 0.54 g of a hydrocarbon, C, were burnt in excess oxygen. The water produced was absorbed by passing through calcium chloride tubes, which gained 0.54 g in mass. The carbon dioxide was absorbed by potassium hydroxide, which gained 1.76 g. (i) Show that the empirical formula of C is C2H3. (ii) Given that 0.01 mol of C was used, derive the molecular formula of C. (iii) Draw the structural formula of one possible isomer of C and comment on the shape around any multiple bond(s), or on other points of interest in its structure.
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