1. ELECTRICAL CIRCUIT BOARDS

2. SYMBOLS OF THE COMPONENTS
Cells in series & parallel
An open & closed switch
An ammeter
A voltmeter
Resistors in series & parallel
Bulbs in series & parallel
A variable resistor

3. Draw the following circuit:
Three cells are connected in series with a closed switch. An ammeter in series has a reading of 10A. The voltmeter across the battery is 24V. Two bulbs are connected in series with three resistors in parallel.

4. Potential Difference
The chemical reaction comes from a chemical reaction which takes place inside the cell.
The electrical energy produced is measured in VOLTS.
Cells have a potential difference (voltage) marked on the side.
It is the potential difference across the terminals of the cell.
It is a measure of the amount of potential energy stored in the cell.

5. The higher the voltage of the cell the more energy the electrons have available to pass along the conductors in the cell.
We measure the voltage of the cell by connecting a VOLTMETER across its terminals.
We also get a potential difference over any resistors in a circuit.

6. How to calculate Potential Difference (series and parallel)

7. V = W / Q Potential difference measured in volts (V)
Amount of charge measured in Coulomb (C)
V = W / Q
Work done (ENERGY) measured in Joules (J)

8. 120J of work is done in lighting a bulb when a charge of 20C flows through it. What will the potential difference be across the bulb?
How much energy is transferred when a 60V source allows a 6C charge to flow through a conductor?

9. Electrical Current
Electric current strength is the rate which electric charge flows in a circuit.
A source of electrical energy (cell / battery) is necessary for an electric current to flow.

10. A circuit travels from the negative pole to the positive pole
The symbol for current is “I”
The unit is AMPERE (A)

11. Current is measured with an ammeter
Current is measured with an ammeter. The positive terminal of the ammeter is connected so it is closest to the positive terminal of the battery.
An ammeter is connected in series.

12. I = Q/t Current Strength Time Measured in seconds (s)
Measured in Amperes (A)
Time Measured in seconds (s)
I = Q/t
Charge Measured in Coulombs (C)

13. How much current is flowing when 10C of charge moves past a point in 5S?

14. What is the current strength in a circuit if 50C moves past a point in 2 minutes?
In 5 seconds the current run at 1.2A. What is the charge in the circuit?
In a circuit that has 360C, the current is 36A. Calculate the time it would take for the current to pass.
It takes 10 seconds for 55C of charge to circulate. What is the current strength?

15. RESISTANCE
Resistance is the ability of a component in an electrical circuit to oppose the flow of current.
Examples of resistors include the filament in a light bulb and the element in the kettle.

16. The amount of resistance a conductor offers depends on:
A conductor is a material that allows electric current to flow through it, but even it offers some resistance.
The amount of resistance a conductor offers depends on:
The temperature of the conductor.
The length of the conductor
The width of the conductor
The material the conductor is made out of

17. Resistors
A resistor is a component that opposes the flow of electric current in an electrical circuit.

18. Resistors provide useful energy transfer
Resistors are used to control the flow of current in an electric circuit and they provide useful energy transfer.
Example: The element in an electric kettle turns electrical energy into heat energy in order to boil water.

19. Variable resistors
Some resistors can change the value of the resistance offered – like a dimmer light switch.
We call these variable resistors or RHEOSTATS

20. A light-dependent resistor (LDR) is sensitive to the amount of light shinning onto it.
Normally has high resistance in the dark
Example: lights that turn on and off automatically depending on the amount of light around.

21. DIODES
A diode is an electrical component that controls the flow of current in a particular direction.
In one direction it offers a high resistance and in the other direction it offers a low resistance.
EXAMPLE: LED traffic lights

22. RESISTORS IN SERIES Resistors in series: Rs = R1 + R2 + R3
Measured in OHMS (Ω)
When resistors are connected in such away that there is only one path through which the current can flow the resistors are connected in series.

23. RESISTORS IN PARALLEL Let me show you…
1/RT = 1/R1+1/R3