6.3.2 Reactions of Alkanes

Cards (50)

What is the defining characteristic of alkanes?
Single covalent bonds
Alkanes are generally unreactive due to the presence of strong, non-polar single covalent bonds.
What are the two types of combustion that alkanes can undergo?
Complete and incomplete
Steps in the complete combustion of alkanes
1️⃣ Sufficient oxygen is present
2️⃣ Alkanes react with oxygen
3️⃣ Carbon dioxide and water are produced
The products of complete combustion of alkanes are carbon dioxide and water
What are the products of incomplete combustion of alkanes?
Carbon monoxide, carbon, water
Alkanes are saturated hydrocarbons connected by single covalent bonds.
Alkanes are unreactive because their single covalent bonds are strong and non-polar
Under what conditions does incomplete combustion of alkanes occur?
Insufficient oxygen
In complete combustion of methane, the products are carbon dioxide and water
The products of incomplete combustion include carbon monoxide, carbon, and water
Match the combustion type with its oxygen availability and products:
Complete Combustion ↔️ Sufficient oxygen, $CO_{2}$ , $H_{2}O$
Incomplete Combustion ↔️ Insufficient oxygen, $CO$ , $C$ , $H_{2}O$
Steps involved in the complete combustion of alkanes:
1️⃣ Alkane reacts with oxygen
2️⃣ Heat and light are released
3️⃣ Carbon dioxide and water are produced
The general equation for complete combustion of alkanes is C_{n}H_{2n + 2} + \frac{3n + 1}{2}O_{2} \rightarrow nCO_{2} + (n + 1)H_{2}O
Incomplete combustion of alkanes produces toxic carbon monoxide.
Substitution reactions in alkanes require UV light or heat
The free radical mechanism for substitution reactions involves three main steps.
Steps in the free radical mechanism for substitution reactions:
1️⃣ Initiation: Formation of free radicals
2️⃣ Propagation: Free radicals react with alkanes
3️⃣ Termination: Free radicals combine to form stable molecules
The chlorination of methane is an example of a substitution reaction in alkanes that produces CH_{3}Cl
During initiation, UV light breaks the bond in $Cl_{2}$ to form two radicals
In propagation, a chlorine radical abstracts a hydrogen atom from methane.
The chlorination of methane follows the free radical mechanism
Cracking of alkanes is used to break larger molecules into smaller, more useful hydrocarbons
Thermal cracking and catalytic cracking are two methods used in the cracking of alkanes.
Cracking decane produces octane and ethene
Match the characteristic with its description in alkanes:
Saturated Hydrocarbons ↔️ Compounds with single covalent bonds between carbon atoms
General Formula ↔️ $C_{n}H_{2n + 2}$
Example ↔️ $CH_{4}$
Alkanes have limited reactivity due to strong, non-polar covalent bonds.
What are alkanes composed of?
Carbon and hydrogen atoms
Alkanes are saturated hydrocarbons
The general formula for alkanes is $C_{n}H_{2n + 2}$ .
What is the simplest alkane with one carbon atom?
Methane
Alkanes have limited reactivity due to the strong and non-polar single covalent bonds between carbon and hydrogen atoms.
What type of bonds contribute to the low reactivity of alkanes?
Strong and non-polar
Complete combustion of alkanes occurs with sufficient oxygen
The general equation for complete combustion of alkanes is C_{n}H_{2n + 2} + \frac{3n + 1}{2}O_{2} \rightarrow nCO_{2} + (n + 1)H_{2}O</latex>.
What are the products of the complete combustion of methane?
Carbon dioxide and water
Incomplete combustion of alkanes occurs with insufficient oxygen
What are the products of the incomplete combustion of alkanes?
Carbon monoxide, carbon, water
The example equation for incomplete combustion of methane is 2CH_{4} + 3O_{2} \rightarrow 2CO + 4H_{2}O</latex>.
Steps in the free radical mechanism of substitution reactions in alkanes
1️⃣ Initiation
2️⃣ Propagation
3️⃣ Termination