QUESTION IMAGE
Question
i. \\(\text{h}_2(\text{g}) + \text{i}_2(\text{g}) \
ightleftharpoons 2\text{hi}(\text{g})\\) \\(\delta h_1\\)
ii. \\(\text{n}_2(\text{g}) + 3\text{h}_2(\text{g}) \
ightleftharpoons 2\text{nh}_3(\text{g})\\) \\(\delta h_2\\)
what is the \\(\delta h\\) value for the reaction below?
\\(2\text{nh}_3(\text{g}) + 3\text{i}_2(\text{g}) \
ightleftharpoons 6\text{hi}(\text{g}) + \text{n}_2(\text{g})\\)
enter the answer choice number.
- \\(\delta h = 3(\delta h_1) + -1(\delta h_2)\\)
- \\(\delta h = (\delta h_1)^3 \times -1(\delta h_2)\\)
- \\(\delta h = (\delta h_1)^3 + \frac{1}{\delta h_2}\\)
- \\(\delta h = 3(\delta h_1) \times \frac{1}{\delta h_2}\\)
<pre_analysis>
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</pre_analysis>
<reasoning>
Analyze the target chemical reaction
Using the Hesss Law for Equilibrium knowledge point
We need to find the enthalpy change \(\Delta H\) for the target reaction:
\[
2\text{NH}_3(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) + \text{N}_2(g)
\]
Express target reaction using given steps
Using the Hesss Law for Equilibrium knowledge point
We are given two reference reactions with their respective enthalpy changes:
- \(\text{H}_2(g) + \text{I}_2(g)
ightleftharpoons 2\text{HI}(g) \quad \Delta H_1\)
- \(\text{N}_2(g) + 3\text{H}_2(g)
ightleftharpoons 2\text{NH}_3(g) \quad \Delta H_2\)
To construct the target reaction:
- We need \(2\text{NH}_3(g)\) on the reactant side. We reverse reaction II:
\[
2\text{NH}_3(g)
ightleftharpoons \text{N}_2(g) + 3\text{H}_2(g) \quad \Delta H = -\Delta H_2
\]
- We need \(6\text{HI}(g)\) on the product side. We multiply reaction I by 3:
\[
3\text{H}_2(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) \quad \Delta H = 3(\Delta H_1)
\]
Combine the modified reactions
Using the Hesss Law for Equilibrium knowledge point
Adding the two modified equations:
\[
\]
The overall enthalpy change \(\Delta H\) is the sum of the modified enthalpies:
\[
\Delta H = 3(\Delta H_1) + (-1)(\Delta H_2)
\]
This matches option 1.
</reasoning>
<answer>
<mcq-correct>1. \(\Delta H = 3(\Delta H_1) + -1(\Delta H_2)\)</mcq-correct>
<mcq-option>2. \(\Delta H = (\Delta H_1)^3 \times -1(\Delta H_2)\)</mcq-option>
<mcq-option>3. \(\Delta H = (\Delta H_1)^3 + \frac{1}{\Delta H_2}\)</mcq-option>
<mcq-option>4. \(\Delta H = 3(\Delta H_1) \times \frac{1}{\Delta H_2}\)</mcq-option>
</answer>
<post_analysis>
{
"subject": "Natural Science",
"question_type": "Multiple Choice",
"knowledge_point": [
"Natural Science",
"Chemistry",
"Hess's Law"
]
}
</post_analysis>
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<pre_analysis>
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"tutor",
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"needs_drawing": false,
"concepts_used": [
"Hesss Law for Equilibrium"
],
"new_concepts": [
"Hesss Law for Enthalpy"
],
"current_concepts": [
"Hesss Law for Equilibrium",
"Hesss Law for Enthalpy",
"Chemical Equilibrium"
]
}
</pre_analysis>
<reasoning>
Analyze the target chemical reaction
Using the Hesss Law for Equilibrium knowledge point
We need to find the enthalpy change \(\Delta H\) for the target reaction:
\[
2\text{NH}_3(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) + \text{N}_2(g)
\]
Express target reaction using given steps
Using the Hesss Law for Equilibrium knowledge point
We are given two reference reactions with their respective enthalpy changes:
- \(\text{H}_2(g) + \text{I}_2(g)
ightleftharpoons 2\text{HI}(g) \quad \Delta H_1\)
- \(\text{N}_2(g) + 3\text{H}_2(g)
ightleftharpoons 2\text{NH}_3(g) \quad \Delta H_2\)
To construct the target reaction:
- We need \(2\text{NH}_3(g)\) on the reactant side. We reverse reaction II:
\[
2\text{NH}_3(g)
ightleftharpoons \text{N}_2(g) + 3\text{H}_2(g) \quad \Delta H = -\Delta H_2
\]
- We need \(6\text{HI}(g)\) on the product side. We multiply reaction I by 3:
\[
3\text{H}_2(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) \quad \Delta H = 3(\Delta H_1)
\]
Combine the modified reactions
Using the Hesss Law for Equilibrium knowledge point
Adding the two modified equations:
\[
\]
The overall enthalpy change \(\Delta H\) is the sum of the modified enthalpies:
\[
\Delta H = 3(\Delta H_1) + (-1)(\Delta H_2)
\]
This matches option 1.
</reasoning>
<answer>
<mcq-correct>1. \(\Delta H = 3(\Delta H_1) + -1(\Delta H_2)\)</mcq-correct>
<mcq-option>2. \(\Delta H = (\Delta H_1)^3 \times -1(\Delta H_2)\)</mcq-option>
<mcq-option>3. \(\Delta H = (\Delta H_1)^3 + \frac{1}{\Delta H_2}\)</mcq-option>
<mcq-option>4. \(\Delta H = 3(\Delta H_1) \times \frac{1}{\Delta H_2}\)</mcq-option>
</answer>
<post_analysis>
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"subject": "Natural Science",
"question_type": "Multiple Choice",
"knowledge_point": [
"Natural Science",
"Chemistry",
"Hess's Law"
]
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