1. Understanding Electricity

2. Electric Current Electric current: the flow of electrons through a conductor (like silver, copper, gold, or aluminum) Electrons move in no particular direction, therefore there is no electric current Electrons move in one direction, therefore there is an electric current

3. Magnets & Electricity An electric current is produced when a magnet is moved into a coil of wire in a circuit

4. Magnets & Electricity http://www.youtube.com/watch?feature=pl ayer_embedded&v=P3kJd3MDeukhttp://www.youtube.com/watch?feature=pl ayer_embedded&v=P3kJd3MDeuk

5. Open Circuit

6. Closed Circuit

7. Power Power = energy ÷ time Ex: –There is more energy in 1 kg of coal than 1 kg of TNT –But, TNT delivers more power because it releases its energy in much less time

8. Electric Power Power is the rate that energy is generated or consumed A watt is 1 Joule per second –Ex: lifting a small apple 1 meter in 1 second

9. Scale of Electricity Kilowatt = 1,000 watts –Enough to power an average American home at any one time Megawatt = 1 million watts –Enough to light a stadium at night Gigawatt = 1 billion wattsGigawatt –Enough to power a major city

10. Power Plants Limerick’s two reactors produce 2,345 megawatts of electricity in total Enough energy to power more than 2 million average American homes

11. Electrical Consumption Power is the rate that energy is generated or consumed, not the amount of energy The rate of energy that a light bulb uses at any moment would be measured in watts The amount of energy a light bulb uses over an entire day would be measured in watt-hours

12. Electrical Consumption Electricity is typically sold by the kilowatt hour (kWh) 1 kWh = 1 kW of power used for 1 hour 1 kWh = 1,000 W of power used for 1 hour

13. Relationship Between Energy & Power Energy = power x time kWh = kW x h kWh = energy kW = power h = time

14. Relationship Between Energy & Power A 10 kW wind turbine can generate 10 kW of power under optimal conditions It would be foolish to ask, “How long does it take to generate 10 kW?” –It’s similar to asking, “How long does it take to travel 10 miles per hour?” –10 kW is the rate that it can generate energy, not the amount of energy it can generate in a period of time

15. Relationship Between Energy & Power Energy is like distance – it’s an amount Power is like speed – it’s a rate

17. Energy Calculation Problems 1.How much energy (in Joules) does a 75 Watt light bulb use when it is turned on for 25 minutes? 75 W × (1 J/s / 1 W) × (60 sec/1 min) × (25 min) = 112,500 J

18. Energy Calculation Problems 2. A 100 Watt light bulb is 20% efficient. a) How many Joules does it use in 12 hours of operation? 100 W × (1 J/s / 1 W) × (60 sec/1 min) × (60 min/ 1 hr) × 12 hr = 4,320,000 J

19. Energy Calculation Problems b) How much energy (in Joules) does the bulb convert to light during 12 hours? 4,320,000 J × 0.2 = 864,000 J light

20. Energy Calculation Problems c) How many kWh does it use in 12 hours of operation? 100 W × (1 kW/1,000 W) × 12 hr = 1.2 kWh

21. Energy Calculation Problems 3. An electric clothes dryer has a power rating of 4000 W. Assume a family does 5 loads of laundry each week for 4 weeks. Each dryer load takes 1 hour to complete. a)Find the energy used in Joules and kWh. 4000W × (1 J/s / 1 W) × (3600 s/hr) × (1 hr/load) × (5 loads/week) × (4 weeks) = 288,000,000 J 288,000,000W× (1 Wh/3,600s) = 80,000 Wh = 80 kWh

22. Typical Wattages of Various Appliances Clock radio = 10W Clothes washer = 350–500W Clothes dryer = 1800–5000W Dishwasher = 1200–2400W Hair dryer = 1200–1875W Clothes iron = 1000–1800W Microwave = 750–1100W Refrigerator (frost-free, 16 cubic feet) = 725W Toaster = 800–1400W DVD = 20–25W Vacuum cleaner = 1000–1440W Water heater (40 gallon) = 4500–5500W Laptop = 50W

24. Electricity Bill