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Chapter 6 & 7: Electricity. Electricity The flow of electric current. The flow of electric energy carried by electrons.

Published byShauna McDowell Modified over 7 years ago

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Presentation on theme: "Chapter 6 & 7: Electricity. Electricity The flow of electric current. The flow of electric energy carried by electrons."— Presentation transcript:

1 Chapter 6 & 7: Electricity

2 Electricity The flow of electric current. The flow of electric energy carried by electrons.

3 Electric Circuits something that provides a path through which electricity travels Made up of wires, switches, resistors, capacitors, etc.

4 Open/Closed Circuits Open Circuit: a circuit in which there is a break in the wire so that current cannot flow,; a switch turned to the "off" position is one way to cause the break in the wire Closed Circuit: a circuit in which the switch is turned to the "on" position, causing there to be no breaks anywhere in the wire

5 Short Circuit Is usually an accidental extra path for current to flow. Can cause excess electrical energy to flow through parts of the circuit causing overheating of wires.

6 Electrical Charge Positive Charge-associated with protons. Negative Charge- associated with electrons. Like charges repel. Opposite charges attract. Amount of charge is measured in coulombs.

7 Static Electricity Build up of electrical charges on an insulator. Electrical charge doesn’t move.

8 Voltage The amount of potential energy that each unit of electrical charge has. The amount of push behind the electrical energy. Measured in volts using a voltmeter

9 Current Is the flow of electric charges. Measured in amperes (amps for short) using an ammeter. –Coulombs per second

10 AC/DC Alternating Current- current in which the direction changes back and forth. Direct Current- current flows in only one direction.

11 Resistance Electrical Conductor: materials which the charge flows very easily Electrical Insulator: materials which block the flow of electricity.

12 Resistance of Wires Larger diameter wires have less resistance than thinner wires. –A smaller gauge wire is thicker than a larger gauge wire. Shorter wires have less resistance than longer wires.

13 Ohm’s Law For a given voltage, the amount of current in a wire is inversely proportional to the resistance. V = I * R Not all materials obey Ohm’s law –Diodes are examples of electrical components that do NOT obey Ohm’s law.

14 Electrical Power P = V * I –substituting I*R for V, –P = I 2 * R

15 Electrical Safety Fuses, circuit breakers, & GFI outlets are used to prevent excessive amounts of current flowing through a circuit. This will prevent wires from overheating and causing a fire. Check the rating on extension cords before using them.

16 Series Circuit The current can only take one path. –I T = I 1 = I 2 = I 3 … The total voltage drop across the circuit is the sum of all the changes in voltage. –V T = V 1 + V 2 + V 3 … The equivalent resistor replacing all the resistors is the sum of the total resistance. –R T = R 1 + R 2 + R 3 …

17 Parallel Circuit The current has multiple paths. –I T = I 1 + I 2 + I 3 … The voltage drop across the circuit is the same across each branch. –V T = V 1 = V 2 = V 3 … The equivalent resistor replacing all the resistors is the sum of the total resistance. – 1 / R T = 1 / R 1 + 1 / R 2 + 1 / R 3 …

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