Aldehydes and ketones

Question 1

What is the IUPAC naming system for an aldehyde?

Answer 1

Change suffix of parent alkane to -al.

Question 2

What is the IUPAC naming system for a ketone?

Answer 2

Change suffix of parent alkane to -one and number from the direction that gives the carbonyl carbon the smaller number.

Question 3

How do you name cyclic aldehydes where the cyclic structure is bonded directly to the carbonyl carbon?

Answer 3

the omlecule is named by adding the suffix -carbaldehyde (e.g. cyclohexanecarbaldehyde). The carbon of the ring that is attached to carbonyl carbon is carbon #1 when numbering.

Question 4

How do you indicate a carbonyl group when there are multiple functional groups?

Answer 4

Use the infix -oxo-

Question 5

What is a phenone?

Answer 5

A ketone in which one of the groups attached to the carbonyl carbon is a phenyl group.

Question 6

How do you derive the common names of aldehydes?

Answer 6

Derived from carboxylic acids; drop the word acid and change the suffix -ic or -oic to -aldehyde.

Question 7

How do you derive the common names of ketones?

Answer 7

Naming the two alkyl or aryl groups bonded to the carbonyl group as separate words, followed by the word ketone.

Question 8

What is the common name for a 1 carbon aldehyde?

Answer 8

(Form)aldehyde

Question 9

What is the common name for a 2 carbon aldehyde?

Answer 9

(Acet)aldehyde

Question 10

What is the common name for a 3 carbon aldehyde?

Answer 10

(Propion)aldehyde

Question 11

What is the common name for a 4 carbon aldehyde?

Answer 11

(Butyr)aldehyde

Question 12

What is the common name for a 6 carbon aldehyde?

Answer 12

(Capro)aldehyde

Question 13

The is the common name for a 3 carbon ketone?

Answer 13

Acetone

Question 14

What is the common name for two phenyl groups attached to a carbonyl group?

Answer 14

Benzophenone

Question 15

What is the common name for a phenyl group and a methyl group attached to a carbonyl group?

Answer 15

Acetophenone

Question 16

What is he common name for two methyl groups attached to a carbonyl group?

Answer 16

Acetone

Question 17

What is special about assigning alpha, beta, gamma (and so forth) to carbons in an aldehyde?

Answer 17

The carbonyl carbon can’t be substituted because there must be a hydrogen, so carbon adjacent to the C=O is the alpha carbon.

Question 18

Rank the boiling points (lowest to highest) for the following 6 functional groups of similar molecular weights: alcohol, aldehyde, alkane, carboxylic acid, ether, ketone

Answer 18

1. Ether
2. Alkane
3. Aldehyde
4. Ketone
5. Alcohol
6. Carboxylic acid

Question 19

Only which aldehyde(s) is/are miscible in water?

Answer 19

Methanal (formaldehyde) and Ethanal (acetaldehyde)

Question 20

Only which ketone(s) is/are miscible in water?

Answer 20

Acetone

Question 21

What is a carbohydrate?

Answer 21

A polyhydroxyaldehyde, a polyhydroxyketone or a substance that gives these compounds on hydrolysis.

Question 22

Carbohydrate chemistry is essentialy the chemistry of what other functional groups?

Answer 22

The chemistry of hydroxyl groups and carbonyl groups and of the acetal bonds formed between these two functional groups.

Question 23

What is a carbohydrate?

Answer 23

A carbohydrate that cannot be hydrolyzed to a simpler carbohydrate.

Question 24

What is an aldose?

Answer 24

A monosaccharide containing an aldehyde group

Question 25

What is a ketose?

Answer 25

A monosaccharide containing a ketone group.

Question 26

How do you indicate that a compound is a carbohydate?

Answer 26

-ose

Question 27

How do you indicate the number of carbons in a carbohydrate?

Answer 27

Tri-, Tetr-, pent-, hex-, hept-, oct-

Question 28

What are the two trioses?

Answer 28

1. Glyceraldehyde

2. Dihydroxyacetone

Question 29

Draw glyceraldehyde (give IUPAC name)

Answer 29

2,3-dihydroxypropanal

Question 30

Draw dihydroxyacetone (give IUPAC name)

Answer 30

1,3-dihydroxypropanone

Question 31

What is the purpose of the D,L- configuration system?

Answer 31

D- and L- glyceraldehyde (enantiomers) serve as a reference points for the assignment of relative configuration to all other aldoses and ketoses.

Question 32

What is the penultimate carbon?

Answer 32

The stereocenter furthest from the carbonyl group; the second to last carbon.

Question 33

What is a D-monosaccharide?

Answer 33

A monosaccharide that, when written as a Fischer projection, has the -OH on its penultimate carbon to the right.

Question 34

What is an L-monosaccharide?

Answer 34

A monosaccharide that, when written as a Fischer projection, has the -OH on its penultimate carbon to the left.

Question 35

Draw the Fischer projection of D-glyceraldehyde

Answer 35

North: CHO
East: OH
South: CH2OH
West: H

Question 36

Draw the Fischer projection of L-glyceraldehyde

Answer 36

North: CHO
East: H
South: CH2OH
East: OH

Question 37

What do prefixes such as Rib-, arabin- and gluc- indicate?

Answer 37

The configuration of all other chiral enters in the monosaccharide.

Question 38

What are the three most abundant hexoses in the biological world?

Answer 38

D-glucose, D-galactose, D-fructose

Question 39

The disaccharide sucrose is composed of what two monosaccharides?

Answer 39

D-fructose and D-glucose

Question 40

The disaccharide lactose is composed of what two monosaccharides?

Answer 40

D-galactose and D-glucose

Question 41

The disaccharide maltose is composed of what two monosaccharides?

Answer 41

Two molecules of D-glucose

Question 42

Draw the Fischer projection of D-glucose

Answer 42

CHO (Right, Right, Left, Right)
H (-) OH
HO (-) H
H (-) OH
H (-) OH
CH2OH

Question 43

Draw the Fischer projection of D-galactose

Answer 43

CHO (Right, Left, Left, Right)
H (-) OH
HO (-) H
HO (-) H (Differs from glucose only at C-4)
H (-) OH
CH2OH

Question 44

Draw the Fischer projection of D-Fructose

Answer 44

CH2OH (Right, Right, Left)
C=O
HO (-) H
H (-) OH
H (-) OH
CH2OH

Question 45

The terms alpha and beta refer to what carbon in carbohydrates?

Answer 45

Alpha and beta refer to the configuration at the anomeric carbon.

Question 46

Define an anomeric carbon

Answer 46

The carbon that becomes a stereocenter from cyclic hemiacetal/acetal formation of a carbohydrate.

Question 47

Define anomers

Answer 47

Carbohydrates that differ in configuration only at their anomeric carbons

Question 48

What is a furanose?

Answer 48

A five-membered cyclic form of a monosaccharide

Question 49

What is a pyranose?

Answer 49

A six-membered cyclic form of a monosaccharide

Question 50

How do you predict the product of hemiacetal formation?

Answer 50

Attach the oxygen of the alcohol group to the carbonyl carbon and reduce the C=O bond to an alcohol (using the hydrogen from the former -OH bond)

Question 51

Groups on the right of a Fischer projection, in general, point in which direction in a Haworth projection?

Answer 51

Down

Question 52

Groups on the left of a Fischer projection, in general, point in which direction in a Haworth projection?

Answer 52

Up

Question 53

When hemiacetal bond is formed, what direction does a D-hydroxyl point if its not part of the ring?

Answer 53

Down

Question 54

When hemiacetal bond is formed, what happens to the D-hydroxyl and terminal carbon if the hydroxyl becomes part of the ring?

Answer 54

The terminal carbon points up

Question 55

When a hemiacetal bond is formed, what happens to the L-hydroxyl and terminal carbon if the hydroxyl becomes part of the ring?

Answer 55

The terminal carbon points down

Question 56

How do you designate an anomer as alpha or beta?

Answer 56

Alpha means the new -OH is opposite the terminal carbon of the penultimate carbon. Beta means the same side. Whether the terminal carbon is up or down is determined by if its a D or L carbohydrate.

Question 57

Is glucose an aldose or a ketose?

Answer 57

Aldohexose

Question 58

Is galactose an aldose or a ketose?

Answer 58

Aldohexose

Question 59

Is fructose an aldose or a ketose?

Answer 59

Ketohexose

Question 60

Draw the fischer projection of D-Ribose

Answer 60

CHO (Right, Right, Right)
H (-) OH
H (-) OH
H (-) OH
CH2OH

Question 61

Is ribose an aldose or a ketose?

Answer 61

Aldopentose

Question 62

What type of ring do aldopentoses and ketohexoses form?

Answer 62

5-membered rings (furanoses)

Question 63

What are three (5) steps when converting from a Fischer projection to a Haworth projection?

Answer 63

1. Identify the type of monosaccharide and the ring it will form. Aldohexoses form pyranoses and aldopentoses and ketohexoses form furanoses.
2. Draw the structure base structure. The Oxygen atom is at the point of a five membered ring or in the back right of six membered ring.
3. On the carbon to the left of the oxygen (the penultimate carbon), draw the terminal carbon (pointing up if D, down if L)
4. On the carbon to the right of the oxygen [carbon 1], draw the -OH (opposite the terminal carbon if alpha, same side if beta)
5. Following the Fischer projection, draw in the -Hs and -OHs (right of fisher projection point down, left point up)

Question 64

Define mutarotation

Answer 64

The change in specific rotation that occurs when an alpha or beta hemiacetal form of a carbohydate in aqueous solution is converted to an equilibrium mixture of the two forms.

Question 65

Define glycoside

Answer 65

A carbohydrate in which the -OH on its anomeric carbon is replaced by -OR

Question 66

What is the biochemistry term for a cyclic acetal derived from a monosaccharide?

Answer 66

Glycoside

Question 67

What is a glycosidic bond?

Answer 67

The bond from the anomeric carbon of a glycoside to an -OR group.

Question 68

What happens when a glycoside is placed in aqueous acid?

Answer 68

It hydrolyzes to an alcohol and a monosaccharide.

Question 69

How are glycosides named?

Answer 69

Listing the alkyl or aryl group bonded to oxygen followed by the name of the carbohydrate in which the ending -e is replaced by -ide (e.g. methyl alpha-D-glucopyranoside)

Question 70

Define aldonic acid

Answer 70

The product formed when the aldehyde function of an aldose is oxidized to a carboxylic acid.

Question 71

Define aldaric acid

Answer 71

The product formed when the hydroxyl function of terminal carbon and aldehyde function are oxidized to a carboxylic acid.

Question 72

Define uronic acid

Answer 72

The product formed when the hydroxyl function of terminal carbon is oxidized to a carboxylic acid.

Question 73

Describe (draw) the structure of sucrose

Answer 73

Carbon 1 of alpha-D-glucopyranose is joined to carbon 2 of beta-D-fructofuranose by an alpha-1,2-glycosidic bond.

Question 74

Describe (draw) the structure of lactose

Answer 74

Carbon 1 of beta-D-galactopyranose is joined to carbon 4 of beta-D-glucopyranose by a beta-1,4-glycosidic bond.

Question 75

Describe (draw) the structure of maltose

Answer 75

Carbon 1 of alpha-D-glucopyranose is joined to carbon 4 of alpha-D-glucopyranose by an alpha-1,4-glycosidic bond.

Question 76

Is sucrose a reducing sugar? Why or why not?

Answer 76

No. The anomeric carbons of both the monosaccharides are involved in the formation of the glycosidic bond.

Question 77

Is lactose a reducing sugar? Why or why not?

Answer 77

Yes. The hemiacetal group on glucose exists in equilibrium with the open chain aldehyde and can be oxidized to a carboxylic acid.

Question 78

Is maltose a reducing sugar? Why or why not?

Answer 78

Yes. The hemiacetal group on the glucose exists in equilibrium with the open chain aldehyde and can be oxidized to a carboxylic acid.

Question 79

What are four (4) reactions of monosaccharides?

Answer 79

1. Formation of glycosides (acetals)
2. Reduction to alditols
3. Oxidation to aldonic acids
4. Oxidation to uronic acids

Question 80

What are the reagents for the formation of glycosides from monosaccharides?

Answer 80

H+ (to protonate alcohol so it leaves) and Alcohol (nucleophile, H+ leaves to form stable ion)

Question 81

How do you predict the products for the formation of glycosides from monosaccharides?

Answer 81

Replace the OH at the anomeric carbon with the nucleophilic alcohol, and remove H+ from alcohol.

Question 82

What is an alditol?

Answer 82

The product formed when the C=O group of a monosaccharide is reduced to a CHOH group.

Question 83

What are the reagents for the reduction of monosaccharides to an alditol?

Answer 83

Many reducing agents, including:

1. Sodium borohydride
2. Hydrogen in the presence of transition metal catalyst

Question 84

How do you predict the products for the reduction of monosaccharides to an alditol?

Answer 84

Add an H to both atoms of the C=O and remove the pi bond.

Question 85

What are the reagents for the oxidation of monosaccharides to aldonic acids?

Answer 85

1. Oxidizing agent (including O2)

2. Basic conditions

Question 86

How do you predict the products for the reduction of monosaccharides to aldonic acids?

Answer 86

Replace the C-H of the aldehyde function to a C-OH

Question 87

Define an epimer

Answer 87

Epimers differ at one chiral center, not the anomeric carbon. (Example: Glucose and Galactose differ at C-4)

Question 88

Why do aldehydes and ketones undergo nucleophilic addition reactions but carboxylic acids and their derivatives undergo nucleophilic substitution reactions?

Answer 88

The only possible leaving groups in an aldehyde or ketone are alkyl groups or hydrogen which are both unstable.

Question 89

What are four ways to prepare an aldehyde or ketone?

Answer 89

1. Oxidation processes
2. Reduction processes
3. Organometallic substitution (provide ‘carbanion’)
4. Addition on alkynes and tautomerization

Question 90

What reagents are used to reduce a carboxylic acid derivative to an aldehyde?

Answer 90

Lithium Aluminum Tri Tert-butoxide Hydride (LiAlH[OC(CH3)3]3

Question 91

What are two reagents that can be used to hydrate an alkyne?

Answer 91

1. Hg2+, H2SO4

2. Sia2BH -> H2O2 NaOH

Question 92

What organometallic reagents can be substituted to form a ketone?

Answer 92

1. Organocadmium R2Cd
2. Cuprate R2CuLi

[These can be used to substitute a carboxylic acid chloride!]

Question 93

What test tube test can differentiate aldehydes/ketones from other functional groups?

Answer 93

2,4-dinitrophenylhydrazine

Question 94

What test tube test can differentiate aldehydes from ketones?

Answer 94

Tollen’s Test, Chromic acid test

Question 95

What are five (5) classes of reactions at the carbonyl functional group?

Answer 95

1. Nucleophilic addition
2. Addition of Ammonia derivatives
3. Oxidation (oxygen nucleophiles)
4. Wittig reaction
5. Aldol Condensation

Question 96

How do you predict the product for a nucleophilic addition at an aldehyde or ketone function?

Answer 96

Replace the =O with an -OH and add the nucleophile.

Question 97

How do you predict the product of a wittig reaction?

Answer 97

1. Change the O in the C=O to a C

2. Add the R-groups attached to the carbon of the Ylide to the Carbon of the C=C

Question 98

How do you prepare an ylide for a wittig reaction?

Answer 98

1. A primary or secondary alkyl halide reacts with triphenylphosphine
2. Butyl lithium (strong base) pulls hydrogen off of carbon

Question 99

What is the simplified mechanism for the addition of an ammonia derivative?

Answer 99

1. NH2B adds to carbonyl.
2. H from NH2B+ adds to -O(-) and forms -OH.
3. H from NHB adds to -OH to form H2O and leaves.
4. Double bond forms between C=N

Question 100

How do you predict the product for the addition of an ammonia derivative (NH2B)?

Answer 100

Remove the two Hs from NH2B and the O from C=O. Link the NB and C to form C=NB

Question 101

What is an imine?

Answer 101

An imine is a functional group containing a carbon–nitrogen double bond, with the nitrogen atom attached to a hydrogen atom or an organic group.

Question 102

What is an oxime?

Answer 102

An oxime is a functional group containing a carbon-nitrogen double bond, with the nitrogen atom attached to a hydroxyl group.

Question 103

What is an osazone?

Answer 103

Phenylhydrazine (C6H5NHNH2) reacts with carbons #1 and #2 of

reducing sugars to form derivatives called osazones.

Question 104

What is a hydrazone?

Answer 104

Hydrazine (NH2NH2) reacts carbonyl carbons to form hydrazones.

Question 105

When is the addition of HCN to an aldehyde or ketone useful?

Answer 105

When an additional C atom must be added

Question 106

After the addition of HCN to an aldehyde or ketone, what are three follow up reactions?

Answer 106

1. LiAlH4
2. H2SO4
3. HCl/H2O

Question 107

What will adding LiAlH4 after the addition of HCN to an aldehyde or ketone do?

Answer 107

Reduce C triple bond N to CH2-NH2

Question 108

What will adding H2SO4 after the addition of HCN to an aldehyde or ketone do?

Answer 108

Oxidize the new carbon to a carboxylic acid and dehydrate the alcohol forming a conjugated double bond with the new carboxylic acid.

Question 109

What will adding HCl/H2O after the addition of HCN to an aldehyde or ketone do?

Answer 109

Oxidize the new carbon to a carboxylic acid. Will not dehydrate the alcohol.

Question 110

What is the Tollen’s reagent?

Answer 110

Ag(NH3)2+

Question 111

What is special about the Tollen’s reagent?

Answer 111

It will only oxidize aldehydes.

Question 112

What are four oxidation reagents?

Answer 112

1. K2Cr2O7/H+
2. KMnO4
3. Ag(NH3)2+
4. Cu2+ Benedict’s reagent

Question 113

What are two special oxidation reactions that can oxidize ketones?

Answer 113

1. Baeyer-Villiger Oxidation

2. Haloform reaction

Question 114

What are the reagents for the Baeyer-Villiger oxidation?

Answer 114

O=C-O-O-H (peroxyacid) and Ch2Cl2 (dichloromethane solvent)

Question 115

How do you predict the products for the Baeyer-Villiger oxidation?

Answer 115

Add an -O between one of the alkyl groups (tertiary > secondary > primary)

Question 116

What are the reagents for the haloform reaction?

Answer 116

X2/OH-

Question 117

How do you predict the products for the haloform reaction?

Answer 117

Replace a methyl group attached to ketone with -OH and form CHX3.

Question 118

What is an enolate ion?

Answer 118

An enolate ion is the anion formed when an alpha hydrogen in the molecule of an aldehyde or a ketone is removed as a hydrogen ion.

Question 119

What base can we use to remove an alpha hydrogen in an aldehyde or ketone?

Answer 119

lithium diisopropylamide (LDA)

Question 120

What is the purpose of aldol condensation?

Answer 120

To couple two aldehydes or ketones

Question 121

How do you predict the products of aldohol condensation (two types of products)

Answer 121

(Alcohol/Carbonyl product)

1. Form the enolate ion by removing an alpha hydrogen.
2. Lone electron pair attacks carbonyl carbon of another molecule. C=O of attacked molecule becomes C-OH

(Alkene/Carbonyl product)
1. Water is eliminated by an alpha-hydrogen and a beta-hydroxyl group. Forms conjugated diene.

Question 122

Grignard reagents can work on what two functional groups?

Answer 122

Carbonyl and Nitriles.

Question 123

How do you predict the product of a grignard reagent on a nitrile?

Answer 123

Replace the triple bond N with a double bonded O, and also add the alkyl group of the grignard reagent to the carbon.

Question 124

What are the reagents of the wolf-kischner reduction reaction, starting with the aldehyde or ketone?

Answer 124

1. Aldehyde or Ketone + Hydrazine = Hydrazone

2. Hydrazone + KOH = Alkane