Alkanes

Question 1

Why can carbon form so many compounds?

Answer 1

It can bond with 4 molecules
It can bond with a wide variety of other elements
It can form large structures

Question 2

Define hydrocarbons

Answer 2

An organic compound containing only carbon and hydrogen atoms.

Question 3

Define aliphatic

Answer 3

A non-aromatic carbon containing compound with branched, linear or cyclic structure.

Question 4

Define alicyclic.

Answer 4

A carbon containing compound which forms a non-aromatic, branched or unbranched ring in structure.

Question 5

Define aromatic.

Answer 5

A carbon containing compound which includes a benzene ring.

Question 6

Define saturated.

Answer 6

An organic compound that contains no C=C double bonds, and hence cannot hold any more H atoms.

Question 7

Define unsaturated.

Answer 7

An organic compound that contains at least one C=C double bond.

Question 8

Define homologous series.

Answer 8

a series of organic compounds with the same functional group, with each successive member differing by CH2

Question 9

Define functional group

Answer 9

A group of atoms responsible for the characteristics of a compound in a reaction.

Question 10

Name the first 10 alkanes.

Answer 10

Methane, ethane, propane, butane, pentane, hexane, heptane, octane, nonane, decane.

Question 11

Give the general formula of an alkane.

Answer 11

CnH(2n+2)

Question 12

Give the general formula of a cycloalkane

Answer 12

CnH2n

Question 13

Define general formula

Answer 13

The algebraic ratio between the numbers of atoms of each element in a homologous series.

Question 14

Define empirical formula

Answer 14

The smallest whole number ratio between the number of atoms of each element in a molecule.

Question 15

Define molecular formula

Answer 15

The actual number of atoms of each element in a molecule.

Question 16

Define displayed formula

Answer 16

The arrangement of atoms in a compound in space, including the bonds.

Question 17

Define structural formula

Answer 17

The atoms in a molecule ordered with regards to their position within the molecule to give the complete structure of a molecule as simply as possible.

Question 18

Define skeletal formula

Answer 18

The minimalist representation of the structure of molecules, showing carbon atoms as corners, and not showing hydrogen atoms.

Question 19

What is an alkyne?

Answer 19

A hydrocarbon containing a triple C C bond.

Question 20

Give the functional group and naming of an alkane.

Answer 20

C-C single bond.

-ane

Question 21

Give the functional group and naming of an alkene.

Answer 21

C=C double bond.

-ene

Question 22

Give the functional group and naming of a haloalkane.

Answer 22

-Cl, -Br, -I

chloro-, bromo-, iodo-

Question 23

Give the functional group and naming of an alcohol.

Answer 23

-OH

hydroxy- or -ol

Question 24

Give the functional group and naming of an aldehyde

Answer 24

• CHO (Oxygen attached to end of molecule by double bond)

- al

Question 25

Give the functional group and naming of a ketone

Answer 25

• C(CO)C- (Oxygen attached to middle of molecule by double bond)
• one

Question 26

Give the functional group and naming of a carboxylic acid

Answer 26

• COOH (Oxygen double bond and -OH group on the last C atom)

- oic acid

Question 27

How do you find the stem of an organic compound name.

Answer 27

Based on the number of carbon atoms in the parent chain (the longest carbon chain).
eg. 6 carbons= hex-

Question 28

What is an alkyl side group?

Answer 28

A carbon chain which comes off the parent chain.

Question 29

How are alkyl chains named on organic compounds?

Answer 29

According to their length, with a prefix (eg. di, tri, tetra) to indicate the number of the same type of side chain, and a number to indicate the position of the side chain on the molecule.

Question 30

How should side groups be numbered when naming organic compounds?

Answer 30

In order of the significance of the functional groups, but keeping the numbers as low as possible.

Question 31

In what order should side groups be listed when naming compounds?

Answer 31

Alphabetical order.

Question 32

In what order should side groups be numbered when naming compounds?

Answer 32

Carboxylic acids, amides and esters, aldehydes, ketones, alcohols, amines, halogens.

Question 33

What is a structural isomer?

Answer 33

A compound with the same molecular formula but a different structural formula.

Question 34

What is VSEPR theory?

Answer 34

Valence shell electron pair repulsion (VSEPR) theory is a model to consider bond angles in molecules based on the number of lone and and bonding pairs of electrons around an atom.

Question 35

Describe the effect of branching on the boiling point of a molecule.

Answer 35

The more branched a molecule is, the fewer points of contact it has with surrounding molecules and therefore the weaker the London forces are. Weaker intermolecular forces take less energy to break and so give a lower boiling point.

Question 36

Describe the intermolecular bonding in alkanes.

Answer 36

Alkanes are simple, non-polar, covalent molecules, so contain only relatively weak instantaneous dipole force.

Question 37

What are the products of complete combustion of alkanes?

Answer 37

Water and carbon dioxide.

Question 38

What are the potential products of incomplete combustion of alkanes?

Answer 38

Water and carbon monoxide, or water and carbon.

Question 39

What visual observations can be made during incomplete combustion?

Answer 39

A yellow flame and the production of soot (carbon).

Question 40

Under what conditions do alkanes with react halogens?

Answer 40

In the presence of UV light.

Question 41

What is a radical?

Answer 41

An atom or species with an unpaired electron. Radicals are extremely reactive.

Question 42

What is radical substitution?

Answer 42

The mechanism by which alkanes react with halogens to produce haloalkanes, by substituting halogen radicals for hydrogen atoms.

Question 43

Name the three stages of radical substitution.

Answer 43

1) Initiation
2) Propagation
3) Termination

Question 44

Describe the role of UV light in radical substitution.

Answer 44

UV light provides the energy for a diatomic halogen atom to split apart, forming two halogen radicals:
X2 —> 2X•

Question 45

Describe the initiation stage of radical substitution.

Answer 45

A halogen atom splits to form two radicals in a process called homolytic fission
eg. Br2 —> 2Br•

Question 46

Describe the propagation stage of radical substitution.

Answer 46

A radical reacts with a stable compound, to give a new radical and a new stable molecule:
eg.
CH4 + Br• —> •CH3 + HBr
•CH3 + Br2 —-> Br• + CH3Br

Question 47

Describe the termination step of radical substitution

Answer 47

Two radicals react to give a single, stable molecule:
eg.
2Br• ----> Br2
2•CH3----> C2H6
Br• + •CH3 ----> CH3Br

Question 48

Define homolytic fission

Answer 48

When a covalent bond between two particles breaks apart and each particle takes one of the bonding electrons to form two radicals.

Question 49

What are the issues with the process of radical substitution in producing a desired product.

Answer 49

It is impossible to control
It produces many different waste products, potentially including dihaloalkanes, alkanes with twice the original chain length, and halogen groups in various positions on the carbon chain.