define capacitance, as applied to both isolated spherical conductors and to parallel plate capacitors
recall and use C = Q/V
derive, using C = Q/V, formulae for the combined capacitance of capacitors in series and in parallel
use the capacitance formulae for capacitors in series and in parallel
19.2 Energy stored in a capacitor
determine the electric potential energy stored in a capacitor from the area under the potential–charge graph
recall and use W = 1/2QV = 1/2CV2
19.3 Discharging a capacitor
analyse graphs of the variation with time of potential difference, charge and current for a capacitor discharging through a resistor
recall and use Ï„ = RC for the time constant for a capacitor discharging through a resistor
use equations of the form x = x0 e–(t/RC) where x could represent current, charge or potential difference for a capacitor discharging through a resistor