10: The Ideal Gas Laws Flashcards
Velocity Formula
Velocity = distance/time
Acceleration formula
Acceleration = change in velocity/time
Potential energy
1) define
2) formula
3) When it is gained
1) The energy of a body by virtue of it’s position above the ground
2) Potential energy = mass x acceleration (gravity) x height
3) as a parcel rises through atmosphere
Work for a parcel of air
1) Define
2) Formula
1) Done when air is compressed into a smaller volume or expanded to a large volume
2) work = force x distance
The Gas Laws Name them (6)
Boyle's law (P & V) Charles's law (V & T) Gay-Lussac's law (P & T) Avogadro's law (V & n) Ideal gas law (P,V,T & n) Dalton's Law
Boyle’s Law
1) Define
2) formula
3) When does it apply
1) Pressure & Volume are inversely related
2) P1 V1 = P2 V2
3) When temperature is constant & no change in amount of gas (n)
Charles’s Law
1) Define
2) Formula
3) When does it occur
1) Volume is directly proportional to temperature
2) V1 / T1 = V2 / T2
3) At constant pressure & number of molecules (n)
Gay-Lussac’s Law
1) Define
2) Formula
3) When does it applied
1) Pressure is directly proportional to temperature
2) P1 / T1 = P2 / V2
3) At constant volume & number of molecules
Avogadro’s Law
1) Formula
2) When it is applied
1) V1 / N1 = V2 / N2
2) Volume of a gas at constant temperature & pressure is proportional to the number of molecules/moles (n)
Ideal Gas Law
1) Formula
2) How to get P
3) How to get R
6) What denotes R
1) PV = nRT
2) P = nRT / V
3) PV / nT = R
4) Universal gas constant
Universal Gas Constant (R)
287.05 J kg-1 K-1
Dalton’s Law
1) Define
2) What is the partial pressure
3) Formula
4) When it is applied
1) Total pressure of a mixture of gases is the sum of the partial pressures of each gas
2) the pressure it would exert if it were the only gas present
3) Pt = (n1 + n2) RT / V
4) When the known of V & T of mixture & n, to find P
