gas-law Word Scramble
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Question | Answer |
States pressure is inversely proportional to volume @ constant temperature | Boyles Law |
During expiration, intrapulmonary pressure increases & volume decreases | Boyles Law |
P1,V1=P2,V2 | Boyles Law |
Volume increases, pressure decreases | Boyles Law |
Explains why a large volume of a gas is released from a pressurized cylinder | Boyles Law |
Volume is directly proportional to the absolute temperature @ constant pressure | Charles Law |
temperature increases, volume increases | Charles Law |
V1/T1=V2/T2 | Charles Law |
Inflatable cuff of an LMA expands when placed into an autoclave for sterilization. Examples of what law? | Charles Law |
Pressure is directly proportional to absolute temperature if volume is constant | Gay-Lussac's Law |
As temperature in a gas in a container increase, pressure increases | Gay-Lussac's |
P1/T1=P2/T2 | Gay-Lussac's |
P1 V1= P2 T2T1 T2 | Combined Gas Laws |
Ideal Gas law states | amount of gas is determined by its Pressure, Volume & temperature |
Combined Law states | Product of the volume of gas & its pressure over temperature is equal to a constant |
How do you change the state of a molecule/atom? | Add heat, it increases the molecular vibration |
the number of molecules in 1 mole of a substance | Avogadro's numvber |
1 mole of gas at standard temperature & pressure occupies a certain volume | Avogadro's hypothesis |
Avogadro's number | 6.022X10 e23 |
Avagadro's hypothesis | 22.4 liters |
Avogadro's law | Describes the relationship between the amount of gas & volume of gas |
total pressure in a mixture of gasses is equal to the sum of the partial pressures of the individual gases, assuming the gases DO NOT react w/ each other | Dalton's Law of Partial Pressure |
According to Boyle's Law: If volume increases you would expect | pressure decreases |
According to Charle's Law: If Temperature increases, you would expect | Volume decreases |
According to Gay-Lussac's Ideal Law: If temperature increases, you would expect | Pressure to increase |
Ideal Gas Law | PV=nRT |
According to Ideal Gas Law: as number of moles(n) decreases | Pressure decreases |
Gas constant of ideal gas law is equal to? #In the equation: PV=nRT | 0.0821 L atm |
Created by:
p.wagner@wolford.edu
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