At constant temperature, pressure and volume are inversely related.

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Multiple Choice

At constant temperature, pressure and volume are inversely related.

The key idea here is that, for a fixed amount of gas at the same temperature, pressure and volume move in opposite directions. This is Boyle’s law: P times V stays constant when temperature and the amount of gas don’t change. If you squeeze the gas into a smaller volume, the gas molecules collide with the container more often, so the pressure goes up. If you let the gas expand to a larger volume, those collisions become less frequent, and the pressure drops. So pressure is inversely related to volume under these conditions.

Directly proportional would mean both increase together, which isn’t what happens. They aren’t independent, because changing one affects the other. They aren’t both constant, because changing the volume changes the pressure to keep P V constant.

At constant temperature, pressure and volume are inversely related.

Prepare for the Aviation Machinist Mate (AD) Exam. Access flashcards and multiple choice questions, each with hints and explanations. Start your exam preparation today!

At constant temperature, pressure and volume are inversely related.

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