Physics 9702 · AS & A Level · Discharging a capacitor

Discharging a capacitor — practice question

A capacitor with capacitance $470\,\mu\text{F}$ is joined to a battery with electromotive force (e.m.f.) $24\,\text{V}$ in the circuit shown in Fig. 5.1. The two-way switch $S$ starts at position $X$. $P$ and $Q$ are identical long straight wires, each having a resistance of $5.6\,\text{k}\Omega$. The wires are positioned close to one another and run parallel. Wire $Q$ is attached to a voltmeter. At time $t = 0$, switch $S$ is changed to position $Y$, causing the capacitor to discharge through wire $P$.
(a(i))[2]

Calculate the capacitor charge $Q_0$ at time $t = 0$.

(a(ii))[1]

Calculate the current $I_0$ in wire $P$ at time $t = 0$.

(a(iii))[2]

Calculate the time constant $\tau$ for the discharge circuit.

(a(iv))[2]

On Fig. 5.2, sketch a line to show how the current $I$ in wire $P$ varies with $t$ as the capacitor discharges.

(b(i))[3]

Explain why an induced e.m.f. appears across wire $Q$ while the capacitor is discharging.

(b(ii))[1]

On Fig. 5.3, sketch a line to indicate how the voltmeter reading $V$ changes with $t$.

Worked solution & mark scheme

This 11-mark question has a full step-by-step worked solution and mark scheme. One marking point: $Q = CV$

  • Full mark scheme, point by point
  • Step-by-step worked solution
  • Write your answer & get it marked instantly by AI