Asked by 1
Which sequence represents the relationship between temperature and volume as explained by the kinetic-molecular theory?
higher temperature mc009-1.jpg more kinetic energy mc009-2.jpg more space between particles mc009-3.jpg higher volume
higher temperature mc009-4.jpg less kinetic energy mc009-5.jpg less space between particles mc009-6.jpg higher volume
higher temperature mc009-7.jpg more kinetic energy mc009-8.jpg less space between particles mc009-9.jpg lower volume
higher temperature mc009-10.jpg less kinetic energy mc009-11.jpg more space between particles mc009-12.jpg lower volume
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Answer: higher temperature → more kinetic energy → more space between particles → higher volume.
Reason: According to the kinetic‑molecular theory, raising temperature increases particles' average kinetic energy, so they move apart (at constant pressure) and the volume increases.
Reason: According to the kinetic‑molecular theory, raising temperature increases particles' average kinetic energy, so they move apart (at constant pressure) and the volume increases.
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