#C5.4.1
identify the difference between qualitative and quantitative analysis
#C5.4.2
explain how the mass of a solute and the volume of the solution is related to the concentration of the solution and calculate concentration using the formula:
\(\text{concentration } (g/dm^3) = \dfrac{\text{mass of solute } (g)}{\text{volume } (dm^3)}\)
#C5.4.3
explain how the concentration of a solution in mol/dm3 is related to the mass of the solute and the volume of the solution and calculate the molar concentration using the formula :
\(\text{concentration } (mol/dm^3) = \dfrac{\text{moles of solute}}{\text{volume } (dm^3)}\)
#C5.4.4
describe neutralisation as acid reacting with alkali to form a salt plus water including the common laboratory acids hydrochloric acid, nitric acid and sulfuric acid and the common alkalis, the hydroxides of sodium, potassium and calcium
#C5.4.5
recall that acids form hydrogen ions when they dissolve in water and solutions of alkalis contain hydroxide ions
#C5.4.6
recognise that aqueous neutralisation reactions can be generalised to hydrogen ions reacting with hydroxide ions to form water
#C5.4.7
describe and explain the procedure for a titration to give precise, accurate, valid and repeatable results
PAG6
#C5.4.8
Evaluate the quality of data from titrations
#C5.4.9
explain the relationship between the volume of a solution of known concentration of a substance and the volume or concentration of another substance that react completely together