1. CHAPTER 17 ELECTRICITY

2. ELECTRIC CHARGE Charges Exert Force Atoms are composed of particles with ­charges. The law of electric charges states that like charges repel and opposite charges attract.

3. THE FORCE BETWEEN PROTONS AND ELECTRONS Protons and electrons have opposite charges, they are attracted to each other

4. THE ELECTRIC FORCE AND THE ELECTRIC FIELD Electric force- the force of attraction or repulsion on a charged particle that is due to an electric field Electric field – the space around a charged object in which another charged object experiences an electric force

5. CHARGE IT! Friction Friction- occurs when electrons are “wiped” from one object to another Conduction Conduction – electrons move from one object to another by direct contact.

6. CHARGE IT! Induction – charges in an uncharged metal object are rearranged without direct contact with a charged object

7. CONSERVATION OF CHARGE When you charge something by any method, no charges are created or destroyed. The numbers of electrons and protons stay the same. Detecting Charge You can use a device called an electroscope to see if something is charged

8. MOVING CHARGES Conductors- a material in which charges can move easily Examples: copper, aluminum Insulators- a material in which charges cannot move freely Examples: plastic, rubber, wood

9. STATIC ELECTRICITY Static electricity- electric charge at rest; produced from friction or induction Electric Discharge – the release of electricity stored in a source

10. 17.2 ELECTRIC CURRENT & ENERGY Electric Current (I) – rate at which charges pass a given point When you flip a switch, an electric field is set up in the wire at the speed of light. The electric field causes the electrons in the wire to move. This electric field is created so quickly that all electrons start moving through the wire instantly. Think of the electric field as a command to the electrons to charge ahead.

11. TYPES ELECTRIC CURRENT Direct Current (DC) Direct Current (DC) – charges always flow in one direction. Ex: batteries used in appliances Alternating Current (Ac) Alternating Current (AC) – charges shift from flowing in one direction to flowing in the reverse direction EX: Wiring in house

12. VOLTAGE AND ENERGY Voltage – the potential difference between points SI unit : Volts (V) You can think of voltage as the amount of energy released as a charge moves between two points in the path of a current. As long as there is a voltage between 2 points, charges will flow in the wire. The size of the current depends on the voltage.

13. Varying Nature of Voltage Different devices need different levels of voltage. 1.5 V 9 V 12 V

14. Resistance Resistance (R) – opposition to the flow of electric charge SI unit: ohm’s (Ω) Good conductors, such as copper, have low resistance Poor conductors, such as iron, have high resistance Resistance depends on thickness, length, & temperature Thick, short wires have less resistance than long, thin wires. The resistance of metals increases as temperature increases

15. Resistance Resistance (R) – opposition to the flow of electric charge SI unit: ohm’s (Ω) Good conductors, such as copper, have low resistance Poor conductors, such as iron, have high resistance Resistance depends on thickness, length, & temperature Thick, short wires have less resistance than long, thin wires. The resistance of metals increases as temperature increases

16. Resistance

17. Generating Electrical Energy Remember energy is not created or destroyed – it only changes forms Parts of a Cell A cell contains a mixture of chemicals called an electrolyte. Every cell also has a pair of electrodes made from conducting materials

18. Types of Cells There are 2 types of cells: Wet – have an electrolyte Example: batteries – sulfuric acid is the electrolyte Dry – have a dry electrolyte Example: small radios or flashlights

19. Generating Electrical Energy Cells change chemical or radiant energy into electrical energy. Batteries are made of one or more cells. Thermocouple can take thermal energy and transfer it to electrical energy. Photocell convert light energy into electrical energy.

20. 17.3 ELECTRICAL CALCULATIONS How fast is a nanosecond? A nanosecond (ns) is one-billionth of a second. Electrical signals travel at 30 cm/ns. Calculate how far electrical signals travel in 1 second.

21. CONNECTING CURRENT, VOLTAGE, AND RESISTANCE Georg Ohm Ohm (1789 –1854) studied the resistance of materials. He measured the current that resulted from different voltages applied to a piece of metal wire. Ohm’s Law – the ratio or voltage (V) to current (I) is the resistance (R) of a material V = I x R UnitSI Unit Voltage (V)V - volt Current (I)A- Amps Resistance (R) Ohm - Ω Electric Power

22. OHM’S LAW CALCULATIONS Ex: 1 What is the voltage if the current is 2 A and the resistance is 12 Ω ? Ex: 2 Find the voltage if the current is 0.2 A and the resistance is 2 Ω

23. OHM’S LAW CALCULATIONS Ex 3: The resistance of an object is 4 Ω. If the current in the object is 9 A, what is the voltage used? Ex 4: An object has a resistance of 20 Ω. Calculate the voltage needed to produce a current of 0.5 A.

24. ELECTRIC POWER Electrical Power (P) – the rate at which electrical energy is converted into other forms of energy Si Unit: Watts (W) Power = voltage x current P = V x I UnitSI Unit Voltage (V)V - volt Current (I)A- Amps Power (P)W - Watts

25. ELECTRICAL POWER CALCULATIONS Ex 1: A toaster draws approximately 10 A of current. A home receives 120 V at each electrical outlet. What is the power of the toaster? Ex 2: A car uses a 12 V battery. One headlight draws 3.0 A. What is the power of the headlight?

26. ELECTRICAL POWER CALCULATIONS EX 3: A light bulb draws a 0.5 A current at a voltage of 120 V. What is the power rating of the light bulb?

27. ELECTRICAL ENERGY Measuring Household Energy Use Different amounts of electrical energy are used each day in a home. Electric companies usually calculate electrical energy by multiplying the power in kilowatts by the time in hours.

28. 17.4 ELECTRIC CIRCUIT Just like a roller coaster, an electric circuit always forms a loop— it starts and ends at the same place Parts of an Electric Circuit Energy source (Battery) Wires Load (light bulb, appliance)

29. SWITCHES Sometimes, a circuit also contains a switch Switch – opens or closes a circuit Closed – electrons can flow Open – electrons cannot flow

30. TYPES OF CIRCUITS Series Circuit – a circuit in which the parts are joined one after another such that the current in each part is the same. One path for charges to follow – charges must flow through each part of the circuit The voltage across each load is different Series circuits are useful in wiring burglar alarms. If any part of the circuit fails, there will be no current in the system and the alarm will sound.

31. TYPES OF CIRCUITS Parallel Circuits - a circuit in which the parts are joined in branches so that the voltage (potential difference) across each part is the same Loads do not have the same current Charges have more than one path to follow Parallel Circuits are used in almost all appliances and decorative string lights

32. HOUSEHOLD CIRCUIT SAFETY Circuits can fail if they are overloaded or a wire breaks or has water damage. To prevent fire: Fuses A thin strip of metal in circuit that the charges flow through. If the current is too high, the metal will melt and the circuit is broken Circuit Breakers A switch that automatically opens if the current is too high. A metal strip heats up, bends, and opens the switch stopping the flow of current