Which equation relates pressure, volume, and temperature for a fixed amount of gas when conditions can change, i.e., the combined gas law?

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Multiple Choice

Which equation relates pressure, volume, and temperature for a fixed amount of gas when conditions can change, i.e., the combined gas law?

For a fixed amount of gas, pressure, volume, and temperature are all linked as the gas changes state. The two-state form P1V1/T1 = P2V2/T2 captures this relationship by comparing an initial state to a final state while the amount of gas remains the same. It comes from the ideal gas law PV = nRT with n constant, so PV/T is constant between states.

The other forms are single-state relations or apply only when temperature or volume is held constant. PV = nRT or P = nRT/V describe pressure, volume, and temperature at one state, not how they change from one state to another. Boyle’s law (P1V1 = P2V2) assumes temperature is constant, which isn’t the general changing-condition case described here.

Which equation relates pressure, volume, and temperature for a fixed amount of gas when conditions can change, i.e., the combined gas law?

Prepare for the United Airlines Flight Simulator Technician Test. Explore flashcards and multiple choice questions with explanations. Ace your exam!

Which equation relates pressure, volume, and temperature for a fixed amount of gas when conditions can change, i.e., the combined gas law?

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