QUESTION IMAGE
Question
i. \\(\text{h}_2(\text{g}) + \text{i}_2(\text{g}) \
ightleftharpoons 2\text{hi}(\text{g})\\)
\\(k = 54\\) @ \\(700\text{ k}\\)
ii. \\(\text{n}_2(\text{g}) + 3\text{h}_2(\text{g}) \
ightleftharpoons 2\text{nh}_3(\text{g})\\)
\\(k = 1.04 \times 10^{-4}\\) @ \\(700\text{ k}\\)
what is the \\(k\\) 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})\\)
\\(k = ? \times 10^{?}\\)
<pre_analysis>
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"quality": "clear",
"question_count": 1,
"skills_matched": [
"step_cot",
"blank_filling_formatter",
"explain_then_answer",
"tutor",
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],
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"concepts_used": [
"Manipulating Equilibrium Constants"
],
"new_concepts": [],
"current_concepts": [
"Chemical Equilibrium",
"Equilibrium Constant",
"Manipulating Equilibrium Constants"
]
}
</pre_analysis>
<reasoning>
Identify target reaction and given equations
Using the Manipulating Equilibrium Constants knowledge point
Given:
- \(\text{H}_2(g) + \text{I}_2(g)
ightleftharpoons 2\text{HI}(g)\), \(K_1 = 54\)
- \(\text{N}_2(g) + 3\text{H}_2(g)
ightleftharpoons 2\text{NH}_3(g)\), \(K_2 = 1.04 \times 10^{-4}\)
Target:
\[
2\text{NH}_3(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) + \text{N}_2(g)
\]
Manipulate given equations to match target
Using the Manipulating Equilibrium Constants knowledge point
Multiply reaction (1) by 3:
\[
3\text{H}_2(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g), \quad K_1' = K_1^3 = 54^3
\]
Reverse reaction (2):
\[
2\text{NH}_3(g)
ightleftharpoons \text{N}_2(g) + 3\text{H}_2(g), \quad K_2' = \frac{1}{K_2} = \frac{1}{1.04 \times 10^{-4}}
\]
Combine equations and calculate final constant
Using the Manipulating Equilibrium Constants knowledge point
Add the manipulated equations:
\[
K = K_1' \times K_2' = \frac{54^3}{1.04 \times 10^{-4}}
\]
\[
K = \frac{157464}{1.04 \times 10^{-4}} \approx 1.514 \times 10^9
\]
</reasoning>
<answer>
What is the K value for the reaction below?
\(2\text{NH}_3(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) + \text{N}_2(g)\)
\(K =\) <blank>\(1.5\)</blank> \(\times 10^{\text{
</answer>
<post_analysis>
{
"subject": "Natural Science",
"question_type": "Fill-in-the-blank",
"knowledge_point": [
"Natural Science",
"Chemistry",
"Manipulating Equilibrium Constants"
]
}
</post_analysis>
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<pre_analysis>
{
"quality": "clear",
"question_count": 1,
"skills_matched": [
"step_cot",
"blank_filling_formatter",
"explain_then_answer",
"tutor",
"mastery_adaptive_brevity"
],
"needs_drawing": false,
"concepts_used": [
"Manipulating Equilibrium Constants"
],
"new_concepts": [],
"current_concepts": [
"Chemical Equilibrium",
"Equilibrium Constant",
"Manipulating Equilibrium Constants"
]
}
</pre_analysis>
<reasoning>
Identify target reaction and given equations
Using the Manipulating Equilibrium Constants knowledge point
Given:
- \(\text{H}_2(g) + \text{I}_2(g)
ightleftharpoons 2\text{HI}(g)\), \(K_1 = 54\)
- \(\text{N}_2(g) + 3\text{H}_2(g)
ightleftharpoons 2\text{NH}_3(g)\), \(K_2 = 1.04 \times 10^{-4}\)
Target:
\[
2\text{NH}_3(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) + \text{N}_2(g)
\]
Manipulate given equations to match target
Using the Manipulating Equilibrium Constants knowledge point
Multiply reaction (1) by 3:
\[
3\text{H}_2(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g), \quad K_1' = K_1^3 = 54^3
\]
Reverse reaction (2):
\[
2\text{NH}_3(g)
ightleftharpoons \text{N}_2(g) + 3\text{H}_2(g), \quad K_2' = \frac{1}{K_2} = \frac{1}{1.04 \times 10^{-4}}
\]
Combine equations and calculate final constant
Using the Manipulating Equilibrium Constants knowledge point
Add the manipulated equations:
\[
K = K_1' \times K_2' = \frac{54^3}{1.04 \times 10^{-4}}
\]
\[
K = \frac{157464}{1.04 \times 10^{-4}} \approx 1.514 \times 10^9
\]
</reasoning>
<answer>
What is the K value for the reaction below?
\(2\text{NH}_3(g) + 3\text{I}_2(g)
ightleftharpoons 6\text{HI}(g) + \text{N}_2(g)\)
\(K =\) <blank>\(1.5\)</blank> \(\times 10^{\text{
</answer>
<post_analysis>
{
"subject": "Natural Science",
"question_type": "Fill-in-the-blank",
"knowledge_point": [
"Natural Science",
"Chemistry",
"Manipulating Equilibrium Constants"
]
}
</post_analysis>