6. (a) Define the octane number of a fuel. (b) (i) Compound A is obtained from the fractional distillation of crude oil and is converted to compound B by isomerisation. (ii) Give the systematic (IUPAC) names for A and B. (iii) Explain the term isomerisation. (iv) Draw the structural formula of another isomer of A and B. (v) Predict whether A or B has the higher octane number. Justify your answer. (c) Ethyne is produced from calcium carbide and water according to the following balanced equation: CaC₂(s) + 2H₂O(l) → C₂H₂(g) + Ca(OH)₂(s) Calculate the heat change for this reaction given that the heats of formation of calcium carbide, water, ethyne and calcium hydroxide are −59.8, −285.8, 227.4 and −985.2 kJ mol⁻¹ respectively. (d) Describe the structure of benzene in terms of (i) the bonding between the carbon atoms and the hydrogen atoms, (ii) the bonding between the carbon atoms.

Leaving Cert Chemistry Fuel & Thermochemistry: 6. (a) Define the octane number

6. (a) Define the octane number of a fuel - Leaving Cert Chemistry - Question 6 - 2013

Question 6

6. (a) Define the octane number of a fuel. (b) (i) Compound A is obtained from the fractional distillation of crude oil and is converted to compound B by isomerisa... show full transcript

Worked Solution & Example Answer:6. (a) Define the octane number of a fuel - Leaving Cert Chemistry - Question 6 - 2013

Step 1

Define the octane number of a fuel.

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Answer

The octane number of a fuel is a measurement of its tendency to resist auto-ignition, with higher values indicating greater resistance. Specifically, it reflects the fuel's behavior under compression in an engine, where a higher octane number signifies a greater ability to withstand 'knocking' or 'pinging' during combustion.

Step 2

Give the systematic (IUPAC) names for A and B.

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Answer

Compound A: 2,2,4-trimethylpentane Compound B: 2-methylbutane

Step 3

Explain the term isomerisation.

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Answer

Isomerisation is a chemical process whereby a compound is transformed into its isomer. This involves rearranging the atoms within the compound to form a new structural configuration without changing the molecular formula. This process is often used to improve the octane rating of fuels.

Step 4

Draw the structural formula of another isomer of A and B.

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Answer

Another isomer of A (2,2,4-trimethylpentane) and B (2-methylbutane) could be 3-methylpentane. The structural formula is:

        CH3
         |
    CH3--C--CH2--CH3
         |
        CH2--CH3

Step 5

Predict whether A or B has the higher octane number. Justify your answer.

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Answer

A (2,2,4-trimethylpentane) is expected to have a higher octane number than B (2-methylbutane). The larger and more branched structures of A reduce the likelihood of premature ignition compared to B, which has a more linear structure. The octane number tends to increase with the level of branching.

Step 6

Calculate the heat change for this reaction.

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Answer

Using the provided heats of formation:

riangle H = ext{(Products)} - ext{(Reactants)}

riangle H = [227.4 + (-985.2)] - [(-59.8) + 2 	imes (-285.8)]

riangle H = [-757.8] - [-631.4]

riangle H = -126.4 	ext{ kJ}

Step 7

Describe the structure of benzene in terms of the bonding between the carbon atoms and the hydrogen atoms.

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Answer

Benzene consists of a cyclic structure with six carbon atoms connected through alternating double bonds. Each carbon forms a sigma bond with two neighboring carbon atoms. Additionally, each carbon atom is bonded to one hydrogen atom via a sigma bond, resulting in a planar structure.

Step 8

Describe the structure of benzene in terms of the bonding between the carbon atoms.

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Answer

In benzene, each carbon atom participates in sigma bonding through sp² hybrid orbitals, forming strong σ bonds with adjacent carbon atoms. The remaining p orbitals of each carbon atom overlap to create a delocalized π system, which is responsible for the stability and unique reactivity of benzene.

6. (a) Define the octane number of a fuel - Leaving Cert Chemistry - Question 6 - 2013

Worked Solution & Example Answer:6. (a) Define the octane number of a fuel - Leaving Cert Chemistry - Question 6 - 2013

Define the octane number of a fuel.

Give the systematic (IUPAC) names for A and B.

Explain the term isomerisation.

Draw the structural formula of another isomer of A and B.

Predict whether A or B has the higher octane number. Justify your answer.

Calculate the heat change for this reaction.

Describe the structure of benzene in terms of the bonding between the carbon atoms and the hydrogen atoms.

Describe the structure of benzene in terms of the bonding between the carbon atoms.

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