Inductor, Resistor, Battery, Switch

Inductor, Capacitor, Battery, Switch

Inductor, Resistor, Capacitor, Switch

Capacitor, Resistor, Battery, Switch

It equals the sum of the resistances

It equals zero

It equals the EMF of the battery

It equals the sum of the inductances

The energy stored in the capacitor

The power dissipated by the resistor

The energy stored in the inductor

The power added by the battery

1/2 times capacitance times voltage squared

Current squared times resistance

Inductance times current

1/2 times inductance times current squared

Capacitors can store energy without current, inductors cannot

Both store energy in the magnetic field

Inductors can store energy without current, capacitors cannot

Inductors store energy in the electric field, capacitors in the magnetic field

Inductance times current squared

1/2 charge times voltage

1/2 capacitance times voltage squared

Charge squared divided by two times capacitance

Because the inductor is disconnected from the circuit

Because the resistance is too high

Because the charges stop moving

Because the electric field is too weak