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Gas Laws

Gas Laws. Collisions between particles of a gas and the walls of the container cause the pressure in a closed container of gas Factors that affect the pressure of an enclosed gas are its temperature, its volume, and the number of its particles. Charles’s Law.

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Gas Laws

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  1. Gas Laws

  2. Collisions between particles of a gas and the walls of the container cause the pressure in a closed container of gas Factors that affect the pressure of an enclosed gas are its temperature, its volume, and the number of its particles.
  3. Charles’s Law Charles's law states that the volume of a gas is directly proportional to its temperature in kelvins if the pressure and the number of particles of the gas are constant.
  4. Boyle’s Law Boyle's law states that the volume of a gas is inversely proportional to its pressure if the temperature and the number of particles are constant
  5. Combined Gas Law The combined gas law describes the relationship among the temperature, volume, and pressure of a gas when the number of particles is constant.
  6. A gas has a volume of 5.0 L at a pressure of 50 kPa. What happens to the volume when the pressure is increased to 125 kPa? The temperature does not change. P1=50 kPa V1= 5.0 L P2= 125 kpa V2=
  7. (P1=50 kPa) * (V1= 5.0 L) = (P2= 125 kpa) *V2 Solve for V2 (50*5)=5* V2 5
  8. 2. Gas stored in a tank at 273 K has a pressure of 388 kPa. The safe limit for the pressure is 825 kPa. At what temperature will the gas reach this pressure? T1=273 K P1=388 kPa T2= P2= 825 kPa
  9. P1=388 kPaP2= 825 kPa T1=273 K = T2=? cross multiply (P1=388 kPa) (T2)= (P2= 825 kPa) (T1=273 K)
  10. 3. At 10°C, the gas in a cylinder has a volume of 0.250 L. The gas is allowed to expand to 0.285 L. What must the final temperature be for the pressure to remain constant? (Hint: Convert from degrees Celsius to kelvins using the expression °C + 273 = K.) V1=.250 L T1= 10 + 273 = 283 K V2= .285 L T2
  11. V1=.250 LV2= .285 L T1283 K = T2 cross multiply (V1=.250 L)* (T2) = ( V2= .285 L)* (T1283 K)
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