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Organic Chemistry. Part 2: Functional Groups. Added to a H-C chain in place of a H at terminal C in between carbons Determine unique chemical & physical properties. Examples of functional groups alkyls & halogens hydroxyl group alcohols aldehyde group carboxyl group Organic acids
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Organic Chemistry Part 2: Functional Groups
Added to a H-C chain in place of a H at terminal C in between carbons Determine unique chemical & physical properties Examples of functional groups alkyls & halogens hydroxyl group alcohols aldehyde group carboxyl group Organic acids Ketones Ether / Esters Amine / Amide Functional Groups
R - OH hydroxyl group not bases not hydroxide polyatomic ion Alcohols Functional group simply replaces one or more H in the H-C chain Hydroxyl group forms a covalent bond with a carbon atom a.k.a. non-electrolyte In bases the OH- forms an ionic bond with a + cation and will ionize a.k.a. electrolyte
Monohydroxy Alcohols • Only one OH group • Primary alcohols • -OH group is bonded to a C that is bonded to 1 other C. • Secondary alcohols • -OH group is bonded to a C that is bonded to 2 other Cs • Tertiary alcohols • -OH group is bonded to a C that is bonded to 3 other Cs
Structural formula, name and molecular formula? • CH3OH • CH3CH2OH • CH3CHOHCH3 • COHCH3CH3CH3
Dihydroxy alcohols • Alcohols that contain 2 hydroxyl groups • CH2OHCH2OH • structural formula? • molecular formula? • name? 1, 2 - ethanediol • Common name - ethylene glycol • antifreeze
Trihydroxy alcohols • 3 hydroxyl groups per molecule • CH2OHCHOHCH2OH • structural formula? • molecular formula? • Name? 1, 2, 3 - propanetriol • common name = glycerol / glycerine Alcohols with 3 OH groups end in triol
Structural formula, name and molecular formula? • CH2OHCHOHCH3 • CH2OHCH2CH2COHOHCH3 • Structural formula & name? • CHBrOHCHCH3CHBrOH
H C O Aldehydes • Aldehyde group is found at end of H-C chain • no number is needed to designate the aldehyde it is ALWAYS the #1 Carbon • R - CHO • aldehyde name ends in -al Ex. Formaldehyde Methanal
You can add alkyl groups and halogens to an aldehyde, but remember the C=O is always the number one carbon. CH3CHCH3CH2CH2CHO Always #1
Structural Formulas & Names • HCHO • CH3CH2CHO • CH3CH3CH3CCHO • CHBrBrCHO
Molecular Formulaof Aldehydes • When writing the molecular formula count all C’s & H’s together and keep the functional group separate • They will all end in CHO • Ex. c.s.f. = CH3CH2CH2CHO molec. f. = C3H7CHO
O C Ketones • Functional group found in middle of H-C chain • R - CO - R’ • ketone names end in - one Ex. Acetone Propanone Used as solvents
Ketones Methanone Don’t exist Ethanone Propanone 2- Butanone 2- Pentanone
O C Naming ketones • Designate where the functional group and side chains are located with lowest possible number given to the functional group
Practice • 2-methyl-3-pentanone • 3,3-dimethyl-2-butanone • 4-methyl-3-hexanone • 5,5-dibromo-4-methyl-3-hexanone
ALKYL groups O Ethers • Functional group found inside H-C chain • R - O - R’ • naming ethers • name R groups in alphabetical order • put spaces between alkyl groups and add “ether” as your ending
Structural formula & name? diethyl ether a.k.a. Ether • CH3OCH3 • CH3CH2OCH2CH3 • Molecular formula? C2H5OC2H5 • CH3OCH2CH3 • Molecular formula? CH3OC2H5 • CH3CH2CH2OCH2CH2CH2CH3 • Molecular formula? C3H7OC4H9
O C O H Carboxylic Acids • Functional group found at end of H-C chain • R - COOH • carboxyl group • naming • drop “e” of alkane name and add - oic acid
Structural formula & name • CHOOH • methanoic acid • A.k.a. formic acid • CH3COOH • ethanoic acid • A.k.a. acetic acid • CH3CH2COOH
6,6,7-trichloro-4-methylheptanoic acid H H H Cl Cl H C H H O | | | | | | 1 H - C - C - C - C - C - C - C | | | | | | H Cl H H H H OH More complex naming • If the H-C chain contains halogen substitutions and methyl side chains number your carbons from the functional group
H O C H OH H O C H O- H C H C hydronium ion 1 of 3 Properties of Carboxylic Acids • Weak ionization in water water + H2O + H3O+ ethanoic acid acetic acid acetate ion Organic acids are weak electrolytes
As carboxylic acid H-C chains increase solubility decreases. #2 Properties . . . . • Solubility of R-COOH • if R = C1 - C3 • completely miscible (soluble) • if R = C4 - C5 • somewhat miscible (3.7g in 100g H2O) • if R > C5 • completely immiscible (insoluble) • fatty acids
H O C H OH H C sodium hydroxide #3 Properties . . . . • Organic acids react with bases to produce salts • neutralization water + NaOH HOH + NaCH3COO sodium acetate (salt) ethanoic acid acetic acid
ester Esters & Esterification • Esterification • Slow, reversible dehydration process • organic acid reacts with an alcohol • Products are an ester and water water alcohol acid
Esters • Functional Group • R - COO - R’ • R groups are alkyl groups Esters have sweet fruity odors
Alcohol Naming Esters 1. Name the R group bonded to the -O 2. Name the R group bonded to the = O drop the e (of the alkane name) • add -oate ACID
Organic Reactions • Combustion • Burning • H-Cs in the presence of O2(g) will burn to produce CO2 and H2O X + O2 CO2 + H2O
Law of Conservation of Matter • Substitution • When one or more hydrogen atoms of a H-C chain is replaced by a halogen. C2H6 + Cl2 C2H5Cl + HCl C2H6 + Cl2 C2H4Cl2 + H2
Addition • Involves breaking a multiple bond • Unsaturated compounds become more saturated • Alkyne becomes an alkene • Alkene becomes an alkane C2H2 + Br2 C2H2Br2 C2H4 + Br2 C2H4Br2
Polymerization • The process of bonding many small molecules (monomers) together to make a very long chain (polymer) • Water must be a product • Examples of polymers • starches • Proteins • nylon
ethyl ethanoate Esterification Reaction Ethanoic acid water ethanol
Structural formula & Naming • CHOOCH3 • What were the alcohol and the acid? • CH3COOCH3 • What were the alcohol and the acid? • CH3COOCH2CH3 • alcohol and acid? • CH3CH2COOCH2CH2CH2CH3 • alcohol and acid?
Esterification must be done in the presence of a catalyst to make the reaction go faster Because Esterification deals with organic MOLECULES the reaction is slow
Reactants Alcohol Carboxylic acid Products Ester Water Ions not involved Slow reaction needs a catalyst Reactants Acid (Org or inOrg) Base Products Salt Water Ions Fast reaction No catalyst Double Replacement Reactions Esterificationresembles Neutralization
Amines • First functional group to contain Nitrogen • N can only make 3 bonds • It has a total of 5 valence electrons • 3 are unpaired
methanamine Naming Amines • Drop the e from the parent chain name and add amine • You must number your carbons to show where the amine group is located
butanamide Amides • Functional group containing a Nitrogen AND a carbonyl group (C=O) at the end of the chain • Carbonyl is always the #1 carbon • Drop the e from the parent chain name and add - amide
Contains Na+ or K+ Looooong carboxylic acid ~ C12 - C 18 Soap • Metallic salt of a higher carboxylic acid • Most common soap • sodiumsalt of stearic acid • CH3(CH)16COONa
Reactants fat or oil ester strong base NaOH KOH Products trihydroxy alcohol 1,2,3-propanetriol a.k.a. glycerol soap sodium stearate Saponification
Saponification Reaction (C17H35COO)3C3H5 + 3NaOH C3H5(OH)3 + 3C17H35COONa Sodium soap = bar soap Potassium soap = liquid
Hard water • Hard water contains metallic ions ex. Ca2+ Mg2+ Fe2+ • When soap is used in hard water the stearate ion combines with these ions and forms a greasy precipitate • soap scum
Charged end is hydrophillic “water loving” Non-polar end is hydrophobic “water hating” How do soaps clean? • Soaps are ionic compounds and will ionize • Na+ and CH3(CH2)16COO-
H2O H2O H2O H2O H2O H2O H2O H2O Grease Greece H2O H2O H2O H2O H2O H2O H2O
Advanced Isomers • Isomers • Same molecular composition • Same number of C, H, and/or O • Different structural formula • Different chemical properties • reactivity • Different physical properties • Melting point, boiling point, vapor pressure, evaporation rate, solubility