| A | B |
|---|
| Charles' Law relates _____ | volume and temperature |
| In Charles' Law, _____ and _____ are constant. | moles; pressure |
| In Charles' law, there's _____ proportion between volume and temperature | a direct |
| In a direct proportion, as one variable increase, the other variable will _____ | increase |
| V1/T1 = V2/T2 is _____ Law | Charles' |
| Boyle's Law relates _____ | pressure and volume |
| In Boyle's Law _____ and _____ are constant. | moles; temperature |
| In Boyle's Law, there's _____ proportion between pressure and volume. | an indirect |
| In an indirect proportion, as one variable increases, the other variable will _____ | decrease |
| P1V1 = P2V2 is _____ Law. | Boyle's |
| Gay-Lussac's Law relates _____ | pressure and temperature |
| In Gay-Lussac's Law, _____ and _____ are constant. | moles; volume |
| In Gay-Lussac's Law, there's _____ between pressure and temperature. | a direct |
| P1/T1 = P2/T2 | Gay-Laussac's Law |
| Ideal Gas Law relates _____ | all four variables into one equation |
| The Ideal Gas Law is used to describe _____ | a gas under one set of conditions (constant conditions) |
| PV = nRT | Ideal Gas Law |
| R = _____ | universal gas constant |
| R = _____ L-kPa/mol-K | 8.314 |
| R = _____ L-atm/mol-K | 0.0821 |
| The Ideal Gas Law can be combined with _____ | stoiochiometry |
