![]() If Aldehydes lived in New Orleans, their carbonyl group, which leads the hydrocarbon chain, could also be the Grand Marshall of the Mardi Gras parade.īoth Aldehydes and Grand Marshalls are leaders of hydrocarbons and marching bands, respectively. They also contain a carbonyl group, however this group is always found at the ends of the carbon chain, never inside of it. The presence of an oxygen atom in a ketone group allows the hydrocarbon to participate in the hydrogen bonding party.Īldehydes are the first cousin of ketones. The magic key that will let a carbonyl group into a hydrocarbon. Think of it this way, you need a "key" to get inside the hydrocarbon. The hydrocarbon cannot be on the first or last carbon of the chain. Unlike alcohols, ketones can only be found "inside" the hydrocarbon. Naming ketones is beyond the scope of this chapter, but, to satisfy curiosity, this ketone is known as 2-butanone. Carbonyl groups look similar to the hydroxyl groups found in alcohols, except they have a double bond with the oxygen. Double bonds are not exclusive to carbon atoms, however, as the carbonyl group, C=O, shows us. This alcohol goes by the name 1,2 butanol (with the 1 and 2 indicating the carbons the hydroxyl is attached to).Īlkenes introduced us to the double bond. The above alcohol goes by the name propanol. The hydroxyl group makes the hydrocarbon polar, allowing it to participate in hydrogen bonding.īoth polar bears and polar alcohols are able to mix with water through hydrogen bonding.Īlcohols are not above the naming rules, and they introduce us to the suffix - ol. The functional group that defines an alcohol is the hydroxyl group: –OH. Halogens are common functional groups for alkanes, and can be used in reactions to reduce an alkene into an alkane. Halogens are our friends from group 7 in the periodic table: fluorine (F), chlorine (Cl), bromine (Br), and iodine (I). Let's check them out them in more detail. These are the atoms involved in all the wheeling and dealing that causes electrons to shift around and for reactions to take place. Once we start adding ornaments, however, there is no telling how wild and crazy (reactive) the Christmas tree can get.įunctional groups are where the magic takes place. ![]() The tree itself is standard and pretty boring (non-reactive). Think of this in terms of a Christmas tree. When we first met alkanes early in this chapter, we learned that they could be thought of as the things that the more reactive portions (functional groups) of the molecule are attached to. Functional Groups Functional, Yet Stylish ![]()
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