The gauge pressure in the tires of your car is 210 kPa (30.5 psi) when the temperature is 25°C (77 °F). Several days later it is much colder. Use the ideal gas equation of state to estimate the gauge pressure in your tires, when the temperature is 0°C. Give your answer both in kilopascals (kPa) and pounds per square inch (psi). (Gauge pressure is the difference between absolute pressure and atmospheric pressure, which is ap - proximately 101.3 kPa.)

Question

Physics

Edith Mercer

3 December, 02:58

The gauge pressure in the tires of your car is 210 kPa (30.5 psi) when the temperature is 25°C (77 °F). Several days later it is much colder. Use the ideal gas equation of state to estimate the gauge pressure in your tires, when the temperature is 0°C. Give your answer both in kilopascals (kPa) and pounds per square inch (psi). (Gauge pressure is the difference between absolute pressure and atmospheric pressure, which is ap - proximately 101.3 kPa.)

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Answers (1)

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Alyson Calhoun · Answer 1

Under the assumption that the tires do not change in volume, apply Gay-Lussac's law:

P/T = const.

P = pressure, T = temperature, the quotient of P/T must stay constant.

Initial P and T values:

P = 210kPa + 101.325kPa

P = 311.325kPa (add 101.325 to change gauge pressure to absolute pressure)

T = 25°C = 298.15K

Final P and T values:

P = ?, T = 0°C = 273.15K

Set the initial and final P/T values equal to each other and solve for the final P:

311.325/298.15 = P/273.15

P = 285.220kPa

Subtract 101.325kPa to find the final gauge pressure:

285.220kPa - 101.325kPa = 183.895271kPa

The final gauge pressure is 184kPa or 26.7psi.