1. Unit 11: Electric Current Many practical devices and applications are based upon the principles of static electricity. Electricity became an integral part of our daily lives when scientists learn to control the movement of electric charge.

2. Unit 11: Electric Current Electric Current is the rate at which electric charges pass through a given area. Current is measured in amperes which are equivalent to a Coulomb per second.

3. Unit 11: Electric Current Conductors transmit charges easily and are used for electric circuits. Conductor (freely flowing electrons) Insulator (electrons cannot easily flow)

4. Unit 11: Electric Current What makes Copper a good conductor? ◦ Copper has two electrons in the innermost shell, eight in the next shell, eighteen in the third shell, and one in the fourth shell  The first three shells each have as many electrons as they can hold  The fourth shell has one lonely electron  This one lonely electron can easily separate from the rest of the atom and go roaming around

5. Unit 11: Electric Current Example 1: A 100.0 W light bulb draws 0.83 A of current. How long does it take for 1.9x10 22 electrons to pass a given cross- sectional area of filament? (Answer: 3.7x10 3 seconds)

6. Unit 11: Electric Current Batteries [pictures on next slide] provide a chemical reaction between two terminals (cathode and anode) in some form of medium (electrolyte) ◦ In an Alkaline Battery  Cathode: Manganese Dioxide  Anode: Zinc powder  Electrolyte: Potassium hydroxide The chemical reaction causes the build-up of electrons on one terminal, and a deficit of electrons on the other

7. Unit 11: Electric Current Equivalent pictures

8. Unit 11: Electric Current EMF (  ) – Electromotive Force ◦ The maximum potential difference (voltage) a power source can have  The potential difference between the terminals of a battery when it’s not connected to anything  Batteries maintain a constant voltage ◦ Not actually a force ◦ Measured in J/C (Volts)

9. Unit 11: Electric Current Each cell can produce a fixed amount of EMF Bigger cells can produce EMF for a longer time than smaller cells Batteries run out of EMF when all of the free electrons have been moved from the cathode to the anode Rechargeable batteries can reverse the chemical reaction to re-deposit negative charges back on the cathode

10. Unit 11: Electric Current Batteries convert chemical energy into electrical energy The actual voltage of a battery is always slightly less than the EMF ◦ Batteries have internal resistance ◦ Energy is lost as heat

11. Unit 11: Electric Current A basic circuit has three main parts: ◦ A source of energy  Sometimes called a “potential difference”. ◦ A closed path ◦ A device which uses the energy

12. Circuits are very similar to water in a pipe Pumps ◦ There is a pressure difference where the flow begins and ends ◦ A certain amount of flow passes each second Circuits ◦ There is a potential difference (voltage) were the charge begins and ends ◦ The amount of charge that flows per second is called current

13. Unit 11: Electric Current Resistance: The opposition presented to electric current by a material/device. ◦ Units are ohm (Ω) = volt/ampere. Ohm’s Law:

14. Unit 11: Electric Current Resistance depends upon length, area, material and temperature.

15. Unit 11: Electric Current Example 2: The resistance of a steam iron is 19.0 Ω. What is the current in the iron when it is connected across a potential difference of 120.0 V? (Answer: 6.32 A)