1. Simple Electric Circuits

2. Menu Circuit Symbols Current Voltage Resistance Summary Table

3. Circuit Symbols

4. Identify the Circuit Symbols A Cell A Battery of 2 Cells A Battery of a number of cells A Filament lamp/ Bulb A Switch A fixed Resistor

5. Identify the Symbols Variable Resistor Thermistor Heater L.D.R Fuse Loudspeaker

6. Identify the Circuit Symbols A V M Ammeter Voltmeter Motor L.E.D

7. Draw the Circuit Symbols ComponentCircuit Symbol Thermistor L.D.R Fuse L.E.D Return to menu

8. Current

9. Electrons Flow in the Opposite way to the Conventional Current We normally say that the current flows from positive to negative - + Electrons are negatively charged and therefore flow from negative to positive e-

10. Current Current is the FLOW OF ELECTRONS AROUND A CIRCUIT In metals, current is carried by electrons We use an ammeter to measure current The unit of current is the ampere (A)

11. Ampere This is the scientist AMPERE. He studied current in circuits and gave his name to the unit of current

12. Current in a Series Circuit 2A The Current in a Series Circuit is the Same at Every Point

13. In a series circuit the bulbs are all the same brightness If the bulbs are of the same rating!

14. Current Questions ABC 1)The current reading for bulb B is 2A. What are the readings for bulbs A and C? 2) Bulb suddenly fails. What happens to bulbs A and C?

15. What Is the Current at This Point? 6A

16. If a cell is added the current will increase and the bulb gets brighter Brightness of Bulbs in a Series Circuit

17. If a bulb is added the current will decrease as there is greater resistance in the circuit and the bulbs get dimmer Brightness of Bulbs in a Series Circuit

18. Current in a Parallel Circuit A PARALLEL circuit has more than one path for the current to flow through Bulb A Bulb B Assuming both bulbs are the Same…they will be the same brightness

19. Current in a Parallel Circuit Bulb A Bulb B The Advantages of a parallel circuit are: If one bulb fails ….the other will remain on Both bulbs can be switched on separately

20. Current in a Parallel Circuit The total flow of current is equal to the total current from all of the branches 2A 6A

21. What is the ammeter reading? 3A 9A Return to menu 3A

22. Voltage (Potential Difference)

23. Voltage Is the Driving Force That Pushes the Current Around the Circuit We need Energy to push the electrons around the circuit. In this case the energy comes from the lemon (in the form of chemical energy)

24. Potential Difference/ Voltage This is VOLTA. He studied the driving force that pushes current around a circuit. He gave his name to the unit of Potential Difference The unit of Potential Difference is the VOLT (V)

25. Voltage in a Series Circuit 12V The voltage in a series circuit is shared across each component. The sum of the voltages across each component equals the source voltage 4V

26. What Is the Voltage? ?V?V 8V ?V?V

27. Voltage in a Parallel Circuit 6V The voltage is the same across all components in parallel

28. What Is the Voltage? 9V ? V ? V Return to menu

29. Resistance

30. It can be calculated using Ohm’s Law: Resistance = Voltage (V) (Ohms)Current (A) V I x R Resistance is anything in a circuit that restricts the flow of current The unit of Resistance is the Ohm

31. Complete the meter readings V1V1 V2V2 12V 6A A 2 A1A1 V3V3 A3A3

32. Calculate the resistance 12V 3A ?

33. Current-Voltage Graphs Show Resistance I V A Resistor at constant temperature The current through a resistor at constant temperature is proportional to the voltage Different wires have different resistances

34. Current-Voltage Graphs Show Resistance I V A Filament Bulb As the temperature of the filament increases, the resistance increases – hence the curve

35. Current-Voltage Graphs Show Resistance I V A Diode Current will only flow through in ONE DIRECTION (It has very high resistance in the reverse direction)

36. Resistance in Wires – Cross Sectional Area Thin wires have more resistance than thick wires Halving the cross sectional area of a wire doubles its resistance because there is half as much space for the electrons to move

37. Resistance - Length of Wire Doubling the Length of a wire Doubles its resistance because the electrons have twice as far to move

38. Resistance - Material Different materials have different resistances. For Example: A nichrome wire has more resistance than a copper wire of the same size (the atoms in nichrome hold the electrons more tightly than copper atoms)

39. The Light Dependent Resistor 1A Dark 5A Light The resistance of the LDR depends on the amount of light falling on it. Its resistance decreases as the amount of light falling on it increases

40. The Thermistor 1A5ACOLD WARM The resistance of a thermistor depends on its temperature. Its resistance decreases as the temperature of the thermistor increases

41. Explain Fully How the Following Work 1)A Diode 2) A Thermistor 3) A Light Dependent Resistor Return to Menu

42. Summary: Current, Voltage, Resistance, Series & Parallel

43. How are voltmeters & Ammeter connected in a circuit? A Ammeters are always connected in SERIES Voltmeters are always connected in Parallel V

44. Summary Table Current Is the flow of electrons around a circuit Voltage Is the driving force that pushes the current around. Resistance Is anything in a circuit which slows the flow down

45. There is a Balance…. If you increase the Voltage – then more current will flow If you increases the Resistance – then less current will flow

46. Which Is the Series and Parallel Circuit A * Current is THE SAME at any point * Voltage SPLITS UP over each component * Current SPLITS UP down each branch * Voltage is THE SAME across each branch B Return to Menu