QUESTION IMAGE
Question
question 15
during a spontaneous chemical reaction, it is found that \\(\delta s_{\text{sys}} < 0\\). this means _______
\\(\delta s_{\text{surr}} < 0\\) and its magnitude is \\(< \delta s_{\text{sys}}\\).
\\(\delta s_{\text{surr}} < 0\\) and its magnitude is \\(> \delta s_{\text{sys}}\\).
an error has been made, because \\(s_{\text{sys}} > 0\\) by necessity for a spontaneous process.
\\(\delta s_{\text{surr}} > 0\\) and its magnitude is \\(< \delta s_{\text{sys}}\\).
\\(\delta s_{\text{surr}} < 0\\) and its magnitude is \\(= \delta s_{\text{sys}}\\).
<pre_analysis>
{
"quality": "clear",
"question_count": 1,
"skills_matched": [
"step_cot",
"multiple_choice_formatter",
"explain_then_answer",
"tutor",
"mastery_adaptive_brevity"
],
"needs_drawing": false,
"concepts_used": [
"Spontaneous Processes",
"Second Law of Thermodynamics"
],
"new_concepts": [],
"current_concepts": [
"Spontaneous Processes",
"Second Law of Thermodynamics",
"Entropy Change of Surroundings"
]
}
</pre_analysis>
<reasoning>
State the condition for spontaneity
Using the Second Law of Thermodynamics and Spontaneous Processes knowledge points
\[
\Delta S_{\text{univ}} = \Delta S_{\text{sys}} + \Delta S_{\text{surr}} > 0
\]
Analyze the given system entropy change
Using the Spontaneous Processes knowledge point
\[
\]
Determine the sign and magnitude of surroundings entropy change
Using the Second Law of Thermodynamics knowledge point
\[
\]
</reasoning>
<answer>
<mcq-option>\(\Delta S_{\text{surr}} < 0\) and its magnitude is \(< \Delta S_{\text{sys}}\).</mcq-option>
<mcq-option>\(\Delta S_{\text{surr}} < 0\) and its magnitude is \(> \Delta S_{\text{sys}}\).</mcq-option>
<mcq-option>an error has been made, because \(S_{\text{sys}} > 0\) by necessity for a spontaneous process.</mcq-option>
<mcq-correct>\(\Delta S_{\text{surr}} > 0\) and its magnitude is \(> \Delta S_{\text{sys}}\).</mcq-correct>
<mcq-option>\(\Delta S_{\text{surr}} < 0\) and its magnitude is \(= \Delta S_{\text{sys}}\).</mcq-option>
</answer>
<post_analysis>
{
"subject": "Natural Science",
"question_type": "Multiple Choice",
"knowledge_point": [
"Natural Science",
"Chemistry",
"Thermodynamics"
]
}
</post_analysis>
Snap & solve any problem in the app
Get step-by-step solutions on Sovi AI
Photo-based solutions with guided steps
Explore more problems and detailed explanations
<pre_analysis>
{
"quality": "clear",
"question_count": 1,
"skills_matched": [
"step_cot",
"multiple_choice_formatter",
"explain_then_answer",
"tutor",
"mastery_adaptive_brevity"
],
"needs_drawing": false,
"concepts_used": [
"Spontaneous Processes",
"Second Law of Thermodynamics"
],
"new_concepts": [],
"current_concepts": [
"Spontaneous Processes",
"Second Law of Thermodynamics",
"Entropy Change of Surroundings"
]
}
</pre_analysis>
<reasoning>
State the condition for spontaneity
Using the Second Law of Thermodynamics and Spontaneous Processes knowledge points
\[
\Delta S_{\text{univ}} = \Delta S_{\text{sys}} + \Delta S_{\text{surr}} > 0
\]
Analyze the given system entropy change
Using the Spontaneous Processes knowledge point
\[
\]
Determine the sign and magnitude of surroundings entropy change
Using the Second Law of Thermodynamics knowledge point
\[
\]
</reasoning>
<answer>
<mcq-option>\(\Delta S_{\text{surr}} < 0\) and its magnitude is \(< \Delta S_{\text{sys}}\).</mcq-option>
<mcq-option>\(\Delta S_{\text{surr}} < 0\) and its magnitude is \(> \Delta S_{\text{sys}}\).</mcq-option>
<mcq-option>an error has been made, because \(S_{\text{sys}} > 0\) by necessity for a spontaneous process.</mcq-option>
<mcq-correct>\(\Delta S_{\text{surr}} > 0\) and its magnitude is \(> \Delta S_{\text{sys}}\).</mcq-correct>
<mcq-option>\(\Delta S_{\text{surr}} < 0\) and its magnitude is \(= \Delta S_{\text{sys}}\).</mcq-option>
</answer>
<post_analysis>
{
"subject": "Natural Science",
"question_type": "Multiple Choice",
"knowledge_point": [
"Natural Science",
"Chemistry",
"Thermodynamics"
]
}
</post_analysis>