carboxylic acids
DESCRIPTION
Carboxylic Acids. Robert Boomer Bronte Richardson Jacob Bardwell Jeff Polasz. Structure and Functional Groups: Slides 3-5 Nomenclature: Slides 6-9 Properties/Uses: Slides 10-12 Examples: Slides 13-14 Reactions: Slides 15-20. Structure & Functional Grou p. Functional Group: - PowerPoint PPT PresentationTRANSCRIPT
Carboxylic AcidsRobert BoomerBronte RichardsonJacob BardwellJeff Polasz
Structure and Functional Groups: Slides 3-5
Nomenclature: Slides 6-9Properties/Uses: Slides 10-12Examples: Slides 13-14Reactions: Slides 15-20
Structure & Functional GroupFunctional Group: Carboxylic acids contain a carbonyl
attached to a hydroxyl group; this is called a carboxyl group
Carboxyl group is defined by the double bond between carbon and oxygen
R represents the carbon chain
Structure & Functional Group They are Brønsted-Lowry acids because
they are proton (H+) donors which makes them more acidic than alcohol
Acids with two or more carboxyl groups are called dicarboxylic, tricarboxylic, etc.
Structure & Functional GroupDifferences:
Quiz What functional group do carboxylic
acids have? Why are carboxylic acids more acidic
than alcohol? What is the difference between a
carboxylic acid and a ketone?
NomenclatureStep 1: Identify longest carbon chain (gives you
prefix) Begin at carbon that has the hydroxide
and oxygen atoms bonded to itStep 2: Determine whether there are any
double or triple bonds present
NomenclatureStep 3: Apply suffix –oic acid to the prefix determined by
parent chain
Step 4: Identify the presence of any branches (ethyl, methyl,
propyl, etc.) Identify and record at which branch each meets the
parent chainREMINDER: CARBOXYL GROUP ALWAYS TAKE PRESIDENCE WHEN NAMING A MOLECULE
Nomenclature Practice Name the following carboxylic acids:
Nomenclature PracticeDraw the following carboxylic acids: 3-Methylbutanoic Acid 4-chloro-2-methyl-3-pentynoic acid
PropertiesAcidity Given by the name, Carboxylic acids are
acidic. This is because of the transfer of the hydrogen ion present in the -COOH group, to a water molecule, ionizing the acid molecule
PropertiesExample 1:𝑪𝑯𝟑𝑪𝑶𝑶𝑯+ ↔ − + −𝑯𝟐𝑶 𝑪𝑯𝟑𝑪𝑶𝑶 𝑯𝟑𝑶(Above: Ethanoic acid, a weak acid)
Carboxylic acids are relatively weak compared to other acids because they do not fully dissociate to produce H+ cations however are still the most acidic out of the organic functional groups.
PropertiesSolubility The hydrogen bonds, as well as the presence of a
carbonyl group (-CO) both result in the molecules being polar, preforming similar solubility behaviour as alcohols.
Carboxylic acids containing up to four carbon atoms will mix with water in any proportion, whereas larger hydrocarbon chains are more likely to be insoluble because they are more non-polar. However this means they can react with organic bases to produce organic salts.
PropertiesMelting/Boiling Point Carboxylic acids have higher boiling
points than their parent alkanes due to the fact that the carboxyl group has increased intermolecular attractions from the high polarity of the molecule
PropertiesExample 2: Oxalic acid, similar to Ethanoic acid, has 2 carbon atoms and unlike Ethanoic acid, has 2 carboxyl groups. This increases the boiling point considerably because it is able to donate a proton twice, doubling the size of the molecule and increasing Vander Waal forces, therefore the boiling point. Oxalic acid (189◦C)
Uses Carboxylic acids are generally characterized by
their distinctive smell or sour/tangy taste. They are found in citrus filled fruits such as apples, rhubarb, grapes and other fruits with high acidity
Carboxylic acids are also produced when an alcohol is oxidized accordingly. This creates the double bond between the oxygen, creating the –COOH group. An example of this is when red wine is oxidized to make red wine vinegar, gaining the more sour taste.
Uses Carboxylic acids are also very useful
when acting as precursors for producing other compounds due to the fact that they can undergo ionization, oxidization, react in neutralization reactions with alcohols and organic bases to form biological compounds.
Common Carboxylic Acids
Citric Acid Lactic AcidAscorbic acid (Vitamin C)
Tartaric acid Formic acid (methanoic acid)
Quiz 2 True or False: Carboxylic acids are acidic
because of condensation. Which Organic Family do Carboxylic
acids have similar solubility as? True or False: Carboxylic acids have a
high boiling point. What do alcohols undergo to produce
Carboxylic acids?
ReactionsControlled Oxidization (Preparation)Conditions: Aqueous solutions Requires Catalyst: Usually K2Cr2O7 (Potassium
dichromate (VI)) A carboxylic acid is formed from a controlled
oxidation of an aldehyde Mild oxidation Aldehyde Further controlled oxidation Carboxylic Acid Functional group: carboxyl group (One additional O
atom) Add an O to the H to make OH
ReactionsFormation of an aldehyde:
Formation of a carboxylic acid:
ReactionsExample 1: Methanoic Acid
Methanal Methanoic Acid(Formaldehyde) (Formic Acid)
+ (O)
ReactionsExample 2: Breathalyzer (Oxidation of ethanol to acetic acid)Ethanol + (O) Ethanal (Acetaldehyde) +
(O) Acetic Acid
+ Cr⁶⁺ (orange) + Cr³⁺ (green)
Reactions When measured volume of air containing
ethanol passes through breathalyzer tube, ethanol is oxidized to acetaldehyde (ethanol) then to acetic acid.
This process is accompanied by a reduction of the chromate ion to its Cr³⁺ oxidation state.
The extent of the green colour down the breathalyzer tube provides a measure of the concentration of alcohol in the breath.
Reaction Worksheet