For the gas laws they are unlikely to ask you to list out all the different ones learnt in year 11 but you need to be able to use the main one that combines all those theories together which is the ideal gas law. That one you don't need to memorise because the data sheet given during exams has that with the PV = nRT formula, as well as the value of the gas constant R listed below it. That ideal gas law can also be used to derive all the other gas laws from it anyways with some algebra working if in the off chance it came up
For instance, if you rearrange the PV = nRT equation to make 'n' the subject you can get all the other Laws. Why do we make n the subject? that's because the moles of a compound will be the exact same even if the temperature, pressure or volume changes since moles is a measure of how much matter there is and that can't be created or destroyed based on Law of conservation of mass.
So if i make n the subject I get:
n = PV/RT
If we have 2 different equations based on like P, V or T being different we get:
n1 = P1V1 / RT1
n2 = P2V2 / RT2
n1 = n2 because as stated above the moles will be conserved
doing simultaneous equations we get
P1V1 / RT1 = P2V2 / RT2
R will cancel out on both sides because it is the Gas Constant which is a fixed value, so we are left with
P1V1/T1 = P2V2/T2
this is the Combined Gas Law of the Boyle's, Charles' and Gay-Lussac's Laws
Then the rest just come directly from that based on what each says:
Boyle's Law has constant temperature so T1 = T2
P1V1/T1 = P2V2/T1
The T1 will cancel out since it's the same giving us the P1V1 = P2V2 (Boyle's Law)
Charle's Law has constant pressure, so P1 = P2
P1V1/T1 = P1V2/T2
P1 cancels so you get V1/T1 = V2/T2 (Charles' Law)
You can do same thing for the Gay Lussac.
So all you need to actually remember for doing all these gas law questions is PV=nRT (Ideal Gas Law) and P1V1 / T1 = P2V2 / T2 (Combined Gas Law)
