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Hess' Law: Combustion of Ethanol

Given the following thermochemical equations:

[tex]\[
\begin{array}{l}
1: C + O_2 \rightarrow CO_2, \Delta H = -394 \, \text{kJ} \\
2: H_2 + \frac{1}{2} O_2 \rightarrow H_2O, \Delta H = -286 \, \text{kJ} \\
3: C_2H_5OH \rightarrow 2C + 3H_2 + \frac{1}{2} O_2, \Delta H = +278 \, \text{kJ}
\end{array}
\][/tex]

The goal is to use Hess's Law to calculate the standard reaction enthalpy, [tex]\(\Delta H ^{\circ}\)[/tex], for the reaction below:

[tex]\[
C_2H_5OH + 3O_2 \rightarrow 2CO_2 + 3H_2O
\][/tex]

Considering the given and goal reactions, how is REACTION 2 manipulated to match the overall reaction?

A. It remains the same.
B. It is reversed.
C. It is doubled.
D. It is tripled.

Sagot :

GinnyAnswer
To solve the given problem using Hess's Law, let’s follow these steps systematically:

### Given Reactions:
1. [tex]\( C + O_2 \rightarrow CO_2 \)[/tex], [tex]\( \Delta H = -394 \)[/tex] kJ \\
2. [tex]\( H_2 + \frac{1}{2} O_2 \rightarrow H_2O \)[/tex], [tex]\( \Delta H = -286 \)[/tex] kJ \\
3. [tex]\( C_2H_5OH \rightarrow 2C + 3H_2 + \frac{1}{2} O_2 \)[/tex], [tex]\( \Delta H = +278 \)[/tex] kJ

### Goal Reaction:
[tex]\( C_2H_5OH + 3O_2 \rightarrow 2CO_2 + 3H_2O \)[/tex]

### Steps to achieve the goal reaction:

1. Reverse Reaction 3:
[tex]\[ 2C + 3H_2 + \frac{1}{2} O_2 \rightarrow C_2H_5OH \quad \Delta H = -278 \text{ kJ} \][/tex]

2. Manipulate the individual reactions to match the goal reaction:

- Use Reaction 1 as is:
[tex]\[ C + O_2 \rightarrow CO_2 \quad \Delta H = -394 \text{ kJ} \][/tex]

- Use Reaction 2 as is:
[tex]\[ H_2 + \frac{1}{2} O_2 \rightarrow H_2O \quad \Delta H = -286 \text{ kJ} \][/tex]

3. Combine the reactions:
- We need 2 moles of Reaction 1:
[tex]\[ 2(C + O_2 \rightarrow CO_2) \quad \Delta H = 2 \times -394 = -788 \text{ kJ} \][/tex]

- We need 3 moles of Reaction 2:
[tex]\[ 3(H_2 + \frac{1}{2} O_2 \rightarrow H_2O) \quad \Delta H = 3 \times -286 = -858 \text{ kJ} \][/tex]

- We also include the reversed Reaction 3:
[tex]\[ 2C + 3H_2 + \frac{1}{2} O_2 \rightarrow C_2H_5OH \quad \Delta H = -278 \text{ kJ} \][/tex]

### Combine and sum the enthalpies:
Combining these modified equations:

1. [tex]\( 2C + 2O_2 \rightarrow 2CO_2 \)[/tex] \quad ([tex]\( \Delta H = -788 \text{ kJ} \)[/tex])
2. [tex]\( 3H_2 + \frac{3}{2} O_2 \rightarrow 3H_2O \)[/tex] \quad ([tex]\( \Delta H = -858 \text{ kJ} \)[/tex])
3. [tex]\( 2C + 3H_2 + \frac{1}{2} O_2 \rightarrow C_2H_5OH \)[/tex] \quad ([tex]\( \Delta H = -278 \text{ kJ} \)[/tex])

By summing the reactions, the undesired products (2C, 3H_2, [tex]\(\frac{1}{2} O_2\)[/tex]) cancel out:

[tex]\[ -788 + -858 + -278 = -1924 \quad \text{(but this is a common mistake in adding, correct should be -1368 is sum of -788, -858 and +278.)} \][/tex]

Therefore, the standard enthalpy change for the reaction is:

[tex]\[ \Delta H^\circ = -1368 \text{ kJ} \][/tex]

### How is Reaction 2 manipulated to match the overall reaction?

- Reaction 2 remains the same.
- It is not reversed, doubled, or tripled.

The final answer is:
It remains the same.
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