An ice cube at 0 C melts when placed inside a room at 22 C (295 K). Based on the concepts of enthalpy, entropy, and Gibbs free energy, which of the following best explains why the process is thermodynamically favorable? Melting ice releases energy, AH < 0, and AS < O because the motion of the H20 molecules decreases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K). the term TAS is smaller than AH", resulting in a thermodynamically favorable process with AG < 0. Melting ice releases energy, AH' < 0, and AS' > 0 because the motion of the H20 molecules increases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K), в the term TAS" is greater than AH", resulting in a thermodynamically favorable process with AG > 0. Melting ice requires energy, AH" >0, and AS < O because the motion of the H,O molecules decreases as it transitions from solid to liquid. At a temperature higher than 0"C (273 K), the term TAS is smaller than AH", resulting in a thermodynamically favorable process with AG > 0. Melting ice requires energy, AH' >0, and AS' >0 because the motion of the H20 molecules increases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K), D the term TAS" is greater than AH", resulting in a thermodynamically favorable process with AG" < 0.

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Question 22D
An ice cube at 0°C melts when placed inside a room at 22 C (295 K). Based on the concepts of enthalpy, entropy, and Gibbs free energy, which of the following best explains why the process is
thermodynamically favorable?
Melting ice releases energy, AH < 0, and AS <O because the motion of the H,O molecules decreases as it transitions from solid to liquid. At a temperature higher than 0°C (273 K),
A
the term TAS is smaller than AH", resulting in a thermodynamically favorable process with AG" < 0.
Melting ice releases energy, AH < 0, and AS> 0 because the motion of the H,0 molecules increases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K),
B
the term TAS is greater than AH, resulting in a thermodynamically favorable process with AG > 0.
Melting ice requires energy, AH >0, and AS < 0 because the motion of the H,O molecules decreases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K),
the term TAS is smaller than AH, resulting in a thermodynamically favorable process with AG > 0.
Melting ice requires energy, AH>0, and AS >0 because the motion of the H,0 molecules increases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K),
D
the term TAS is greater than AH, resulting in a thermodynamically favorable process with AG" < 0.
sc
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Transcribed Image Text:22 Question 22D An ice cube at 0°C melts when placed inside a room at 22 C (295 K). Based on the concepts of enthalpy, entropy, and Gibbs free energy, which of the following best explains why the process is thermodynamically favorable? Melting ice releases energy, AH < 0, and AS <O because the motion of the H,O molecules decreases as it transitions from solid to liquid. At a temperature higher than 0°C (273 K), A the term TAS is smaller than AH", resulting in a thermodynamically favorable process with AG" < 0. Melting ice releases energy, AH < 0, and AS> 0 because the motion of the H,0 molecules increases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K), B the term TAS is greater than AH, resulting in a thermodynamically favorable process with AG > 0. Melting ice requires energy, AH >0, and AS < 0 because the motion of the H,O molecules decreases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K), the term TAS is smaller than AH, resulting in a thermodynamically favorable process with AG > 0. Melting ice requires energy, AH>0, and AS >0 because the motion of the H,0 molecules increases as it transitions from solid to liquid. At a temperature higher than 0 C (273 K), D the term TAS is greater than AH, resulting in a thermodynamically favorable process with AG" < 0. sc Q Search or enter website name
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