Organic 2: Alkanes & Cycloalkanes - Intro to Hydrocarbons

Question 1

Hydrocarbons

Answer 1

2 classes - alliphatic & aromatic

Question 2

Alkanes

Answer 2

hydrocarbons in which all the bonds are single bonds; general formula = CnH2n+2

Question 3

Alkenes

Answer 3

hydrocarbons with at least one carbon-carbon double bond

Question 4

Alkynes

Answer 4

hydrocarbons with at least one carbon-carbon triple bond

Question 5

Arenes

Answer 5

another name for aromatic hydrocarbons

Question 6

Benzene

Answer 6

most important aromatic hydrocarbon

Question 7

Constructive interference

Answer 7

occurs when 2 waves combine so as to reinforce each other (in phase)

Question 8

Destructive interference

Answer 8

occurs when 2 waves oppose each other (out of phase)

Question 9

Valence Bond Model

Answer 9

bases the connection between 2 atoms on the overlap between half-filled orbitals of the 2 atoms; pictures a covalent bond between 2 atoms in terms of an in-phase overlap of a half-filled orbital of 1 atom with a half-filled orbital of the other

Question 10

Molecular Orbital Model

Answer 10

assembles a set of molecular orbitals by combining the atomic orbitals of all of the atoms in the molecule; rests on the notion that, as electrons in atoms occupy atomic orbitals, electrons in molecules occupy molecular orbitals

Question 11

Sigma bond

Answer 11

a bond in which the orbitals overlap along a line connecting the atoms (the internuclear axis); electron distribution is cylindrically symmetrical

Question 12

Linear Combination of Atomic Orbitals-Molecular Orbital Method (LCAO-MO)

Answer 12

representing molecular orbitals as combinations of atomic orbitals

Question 13

Bonding Orbital

Answer 13

the additive combination (of 2 wave functions)

Question 14

Antibonding Orbital

Answer 14

the subtractive combination (of 2 wave functions)

Question 15

Alkane Boiling Point Rule

Answer 15

as the number of carbon atoms increases, so does the boiling point

Question 16

Sp3 hybrid orbitals

Answer 16

4 new orbitals coming from 1 s orbital and 3 p orbitals

Question 17

Methyl groups

Answer 17

the group -CH3

Question 18

n-butane

Answer 18

four carbons are joined in a continuous chain; n = normal (carbon chain is unbranched)

Question 19

Isobutane

Answer 19

common name for 2-methylpropane (CH3)3CH; 2nd isomer - has a branched carbon chain

Question 20

Methylene

Answer 20

-CH2 group

Question 21

Methine

Answer 21

-CH group

Question 22

Homologous series

Answer 22

series in which successive members differ by a -CH2- group

Question 23

IUPAC rules

Answer 23

International Union of Pure and Applied Chemistry; alkane names form the foundation of the system

Question 24

Common names

Answer 24

names not derived from a set of rules

Question 25

Systematic names

Answer 25

names derived according to a prescribed set of rules

Question 26

Preferred IUPAC Name (PIN)

Answer 26

2004 IUPAC recommendations established this concept suitable for use in formal communications (patents, international commerce, occupational health/safety, environmental regulation, etc); distinguished from “general” IUPAC names

Question 27

Generic drug names

Answer 27

not derived from systematic nomenclature; US Adopted Names Council (USAN), a private organization founded by the American Medical Association, the American Pharmacists Association, and the US Pharmacopeial Convention; International Proprietary Names (INN) are designated by the World Health Organization

Question 28

Locants

Answer 28

in IUPAC nomenclature, a prefix that designates the atom that is associated with a particular structural unit; most often a number; structural unit is usually an attached substituent as in 2-chlorobutane

Question 29

Alkyl group

Answer 29

lacks one of the hydrogens of an alkane

Question 30

Primary carbon

Answer 30

a carbon directly attached to one other carbon

Question 31

Secondary carbon

Answer 31

a carbon directly attached to 2 other carbons

Question 32

Tertiary carbon

Answer 32

a carbon directly attached to 3 other carbons

Question 33

Quaternary carbon

Answer 33

a carbon directly attached to 4 other carbons

Question 34

Cycloalkanes

Answer 34

alkanes that contain a ring of 3 or more carbons

Question 35

Refining

Answer 35

conversion of crude oil to useful materials, especially gasoline

Question 36

Cracking

Answer 36

increases the proportions of hydrocarbons at the expense of higher-molecular-weight ones by processes that involve the cleavage of carbon-carbon bonds induced by head (thermal ____) or with the aid of certain catalysts (catalytic ____)

Question 37

Reforming

Answer 37

converts the hydrocarbons in petroleum to aromatic hydrocarbons and highly branched alkanes, both of which show less tendency for knocking than unbranched alkanes and cycloalkanes

Question 38

Intermolecular attractive forces

Answer 38

forces, either attractive or repulsive, between 2 atoms or groups in separate molecules; greater in the liquid than in the gas phase

Question 39

van der Waals forces

Answer 39

intermolecular forces that do not involve ions (dipole-dipole, dipole/induced-dipole, and induced-dipole/induced-dipole forces)

Question 40

Induced-dipole/induced-dipole attractive force

Answer 40

force of attraction resulting from a mutual and complementary polarization of one molecule by another; also referred to as London forces or dispersion forces

Question 41

van der Waals radius

Answer 41

distance of closest approach characteristic

Question 42

Hydrophobic effect

Answer 42

the exclusion of nonpolar molecules, such as alkanes, from water

Question 43

Paraffin hydrocarbons

Answer 43

older name for alkanes; “with little affinity” - testifies to the low level of reactivity of alkanes

Question 44

Combustion

Answer 44

burning in air is the best known and most important example of alkanes participating in redox reactions; exothermic, gives CO2 and H20 as products

Question 45

Heat of combustion

Answer 45

heat released on combustion of a substance

Question 46

Enthalpy

Answer 46

heat content of a compound in its standard state

Question 47

Heat of formation

Answer 47

enthalpy change for formation of 1 mole of a compound directly from its elements; 1 type of heat of reaction

Question 48

Potential energy

Answer 48

comparable with enthalpy; it is the energy a molecule has exclusive of its kinetic energy; a molecule with more of this is less stable than an isomer with less of this

Question 49

Intramolecular forces

Answer 49

forces, either attractive or repulsive, between 2 atoms or groups within the same molecule

Question 50

Oxidation-reduction

Answer 50

a reaction in which an electron is transferred from 1 atom to another so that each atom undergoes a change in oxidation number

Question 51

Oxidation number (oxidation state)

Answer 51

the formal charge an atom has when the atoms in its covalent bonds are assigned to the more electronegative partner

Question 52

Sp2 hybrid orbitals

Answer 52

mixing the 2s orbital with 2 of the 2p orbitals; 1 of the 2p orbitals is left unhybridized

Question 53

Pi bond

Answer 53

a bond in which the electron distribution is concentrated above and below the internuclear axis, rather than along it as in a sigma bond; most often associated with a side-by-side overlap of p orbitals on adjacent atoms that are already connected by a sigma bond

Question 54

Pi electrons

Answer 54

electrons in a pi bond; probability of finding one of these is highest in the region above and below the plane of the molecule

Question 55

sp hybridization

Answer 55

applies when carbon is directly bonded to 2 atoms (ex. acetylene)