Adding components to a parallel circuit
I can use the rules for current and potential difference in a parallel circuit and explain the effects of adding a component.
Adding components to a parallel circuit
I can use the rules for current and potential difference in a parallel circuit and explain the effects of adding a component.
Lesson details
Key learning points
- The p.d. across each branch of a parallel circuit is the same as the p.d. across the battery.
- The current through each branch of a parallel circuit adds up to the current through the battery.
- Adding a component in a new branch of a parallel circuit reduces the resistance of the circuit.
- Adding a component to an existing branch of a parallel circuit increases the resistance of the circuit.
- The p.d. across the terminals of a battery does not change when components are added to a circuit.
Common misconception
To solve circuits you need only to put numbers into equations.
Talk through circuits with pupils before analysing them in order to develop an intrinsic understanding of how circuits work; research shows this improves pupils’ problem solving ability for electric circuits.
Keywords
Electric charge - an electrical property; it can either be positive or negative
Parallel circuit - a circuit with separate branches connected to the battery
Electric field - the invisible field around a charged object that causes other charges to experience a force
Potential difference (p.d.) - the voltage or a measure of the ‘push’ on electrons in a circuit
Electric current - a measure of the amount of charge passing a given point in one second
Equipment
1.5 V cells, identical bulbs in holders, ammeters and electrical leads
Content guidance
- Risk assessment required - equipment
Supervision
Adult supervision required
Licence
This content is © Oak National Academy Limited (2024), licensed on Open Government Licence version 3.0 except where otherwise stated. See Oak's terms & conditions (Collection 2).
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