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4.1: Alkanes—An Introduction

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    Alkanes are organic compounds that consist entirely of single-bonded carbon and hydrogen atoms and lack any other functional groups. Alkanes have the general formula \(C_nH_{2n+2}\) and can be subdivided into the following three groups: the linear straight-chain alkanes, branched alkanes, and cycloalkanes. Alkanes are also saturated hydrocarbons.

    Cycloalkanes are cyclic hydrocarbons, meaning that the carbons of the molecule are arranged in the form of a ring. Cycloalkanes are also saturated, meaning that all of the carbons atoms that make up the ring are single bonded to other atoms (no double or triple bonds). There are also polycyclic alkanes, which are molecules that contain two or more cycloalkanes that are joined, forming multiple rings.

    Molecular Formulas

    Alkanes are the simplest family of hydrocarbons - compounds containing carbon and hydrogen only. Alkanes only contain carbon-hydrogen bonds and carbon-carbon single bonds. The first six alkanes are as follows:

    methane CH4
    ethane C2H6
    propane C3H8
    butane C4H10
    pentane C5H12
    hexane C6H14

    You can work out the formula of any of the alkanes using the general formula CnH2n+2

    Isomerism

    Isomers are molecules that have the same molecular formula, but have a different arrangement of the atoms in space. That excludes any different arrangements which are simply due to the molecule rotating as a whole, or rotating about particular bonds. For example, both of the following are the same molecule. They are not isomers. Both are butane.

    bentbutane.GIF

    All of the alkanes containing four or more carbon atoms show structural isomerism, meaning that there are two or more different structural formulae that you can draw for each molecular formula.

    Example 1: Butane or MethylPropane

    C4H10 could be either of these two different molecules:

    butane.gif

    These are different molecules named butane (left) and 2-methylpropane (right).

    There are also endless other possible ways that this molecule could twist itself. There is completely free rotation around all the carbon-carbon single bonds. If you had a model of a molecule in front of you, you would have to take it to pieces and rebuild it if you wanted to make an isomer of that molecule. If you can make an apparently different molecule just by rotating single bonds, it's not different - it's still the same molecule. In structural isomerism, the atoms are arranged in a completely different order. This is easier to see with specific examples. What follows looks at some of the ways that structural isomers can arise.

    Constitutional isomers arise because of the possibility of branching in carbon chains. For example, there are two isomers of butane, C4H10. In one of them, the carbon atoms lie in a "straight chain" whereas in the other the chain is branched.

    butane.GIF

    Be careful not to draw "false" isomers which are just twisted versions of the original molecule. For example, this structure is just the straight chain version of butane rotated about the central carbon-carbon bond.

    stillbutane.GIF

    You could easily see this with a model. This is the example we've already used at the top of this page.

    bentbutane.GIF

    Example 2: Constitutional Isomers in Pentane

    Pentane, C5H12, has three chain isomers. If you think you can find any others, they are simply twisted versions of the ones below. If in doubt make some models.

    pentane.GIF

    Classification of Carbon and Hydrogen Atoms

    Carbons have a special terminology to describe how many other carbons they are attached to.

    • Primary carbons (1o) attached to one other C atom
    • Secondary carbons (2o) are attached to two other C’s
    • Tertiary carbons (3o) are attached to theree other C’s
    • Quaternary carbons (4o) are attached to four C's

    For example, each of the three types of carbons are found in the 2,2 -dimethyl, 4-methylpentane molecule

    Hydrogen atoms are also classified in this manner. A hydrogen atom attached to a primary carbon atom is called a primary hydrogen; thus, isobutane, has nine primary hydrogens and one tertiary hydrogen.

    • Primary hydrogens (1o) are attached to carbons bonded to one other C atom
    • Secondary hydrogens (2o) are attached to carbons bonded to two other C’s
    • Tertiary hydrogens (3o) are attached to carbons bonded to theree other C’s

    Each of the three types of carbons are found in the 2,2 -dimethyl, 4-methylpentane molecule

    Contributors

    Charles Ophardt (Professor Emeritus, Elmhurst College); Virtual Chembook


    4.1: Alkanes—An Introduction is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by LibreTexts.

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