a) (i) What term is used to describe compounds like A, B and C below that have the same molecular formula but different structural formulae? H₃C─CH₂─CH₂─CH₃ H₃C─C─CH₃ A B C (ii) Why do A, B and C separate in the same fraction in the distillation of crude oil? (iii) Explain which of A, B and C is most likely to auto-ignite in a petrol engine. (iv) Give the systematic IUPAC names for A, B and C. (v) Name the oil refining process in which one molecule of alkane W was converted into one molecule of octane and two propene molecules. (vi) Deduce the formula of W. (b) Tetrahymethyldiphenyl was a petrol additive, now used only in some aeroplane engines. (i) What is the advantage of adding tetraethyl lead? (ii) Why was its use in car engines discontinued? (c) Tetrahymethyldiphenyl burns completely according to the equation: 2(C₈H₉Pb) + 270° → 16CO₂ + 16H₂O + 2PbO The heats of formation of tetraethyllead, carbon dioxide, water and lead(II) oxide are -527.3, -393, -285.8 and -219.0 kJ respectively. Calculate the heat of reaction for the combustion of one mole of tetraethyllead.

Leaving Cert Chemistry Organic Chemistry: a) (i) What term is used to desc

a) (i) What term is used to describe compounds like A, B and C below that have the same molecular formula but different structural formulae? H₃C─CH₂─CH₂─CH₃ H₃C─C─CH₃ A B C (ii) Why do A, B and C separate in the same fraction in the distillation of crude oil? (iii) Explain which of A, B and C is most likely to auto-ignite in a petrol engine - Leaving Cert Chemistry - Question 6 - 2019

Question 6

$a)-(i)-What-term-is-used-to-describe-compounds-like-A,-B-and-C-below-that-have-the-same-molecular-formula-but-different-structural-formulae?--H₃C─CH₂─CH₂─CH₃--------------------H₃C─C─CH₃-------------------A-------------------------------B---------C--(ii)-Why-do-A,-B-and-C-separate-in-the-same-fraction-in-the-distillation-of-crude-oil?--(iii)-Explain-which-of-A,-B-and-C-is-most-likely-to-auto-ignite-in-a-petrol-engine-Leaving Cert Chemistry-Question 6-2019.png$

a) (i) What term is used to describe compounds like A, B and C below that have the same molecular formula but different structural formulae? H₃C─CH₂─CH₂─CH₃ ... show full transcript

Worked Solution & Example Answer:a) (i) What term is used to describe compounds like A, B and C below that have the same molecular formula but different structural formulae? H₃C─CH₂─CH₂─CH₃ H₃C─C─CH₃ A B C (ii) Why do A, B and C separate in the same fraction in the distillation of crude oil? (iii) Explain which of A, B and C is most likely to auto-ignite in a petrol engine - Leaving Cert Chemistry - Question 6 - 2019

Step 1

What term is used to describe compounds like A, B and C below that have the same molecular formula but different structural formulae?

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Answer

These compounds are called structural isomers. They have the same molecular formula but differ in the arrangement of atoms.

Step 2

Why do A, B and C separate in the same fraction in the distillation of crude oil?

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Answer

A, B and C separate in the same fraction because they have similar molecular masses and boiling points due to their structural similarities.

Step 3

Explain which of A, B and C is most likely to auto-ignite in a petrol engine.

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Answer

Compound A is likely to auto-ignite because it has the longest carbon chain, making it less branched and therefore more stable under compression.

Step 4

Give the systematic IUPAC names for A, B and C.

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Answer

A: pentane; B: 2-methylbutane; C: 2,2-dimethylpropane.

Step 5

Name the oil refining process in which one molecule of alkane W was converted into one molecule of octane and two propene molecules.

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Answer

Catalytic cracking.

Step 6

Deduce the formula of W.

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Answer

The formula for W can be deduced as C₈H₁₈, which is octane.

Step 7

What is the advantage of adding tetraethyl lead?

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Answer

The advantage of adding tetraethyl lead is to increase the octane rating of the fuel, which reduces knocking and enhances engine performance.

Step 8

Why was its use in car engines discontinued?

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Answer

Its use in car engines was discontinued due to the toxic and carcinogenic nature of lead, which poses environmental and health risks.

Step 9

Calculate the heat of reaction for the combustion of one mole of tetraethyllead.

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Answer

To calculate the heat of reaction:

Use the reaction equation:

$2(C₈H₉Pb) + 270° → 16CO₂ + 16H₂O + 2PbO$
Apply the formula:

$\Delta H = \Sigma H_{f, products} - \Sigma H_{f, reactants}$
Substitute the heats of formation:

$\Delta H = [16(-393) + 16(-285.8) + 2(-219)] - [2(-527.3)]$
Calculate:
$= -6,277.7 \, kJ \, mol^{-1}$$$

What term is used to describe compounds like A, B and C below that have the same molecular formula but different structural formulae?

Why do A, B and C separate in the same fraction in the distillation of crude oil?

Explain which of A, B and C is most likely to auto-ignite in a petrol engine.

Give the systematic IUPAC names for A, B and C.

Name the oil refining process in which one molecule of alkane W was converted into one molecule of octane and two propene molecules.

Deduce the formula of W.

What is the advantage of adding tetraethyl lead?

Why was its use in car engines discontinued?

Calculate the heat of reaction for the combustion of one mole of tetraethyllead.

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