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Bell Ringer Grab the following  1 wire  1 light bulb  1 battery  Using just this material. Light the light bulb.  Draw what you did.

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Presentation on theme: "Bell Ringer Grab the following  1 wire  1 light bulb  1 battery  Using just this material. Light the light bulb.  Draw what you did."— Presentation transcript:

1 Bell Ringer Grab the following  1 wire  1 light bulb  1 battery  Using just this material. Light the light bulb.  Draw what you did.

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3 Bell Ringer What is another term for potential electrical difference? What is the definition of electrical current?

4 Circuits Closed Circuit  Allows a complete path for electrons to travel Open Circuit  Does not allow a complete path for the electrons to travel

5 Flow of Charge Potential Difference: When the ends of an electric conductor are at different electric potentials (voltages) Charge continues to flow until the ends of the conductor has the same voltage

6 Flow of Charge

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8 Electric Current Electric Current: The flow of electric charge  The loosely bound outer electrons of conductors carry the charge through circuits  Protons tightly bound to the nuclei of atoms

9 Electric Current current = charge / time or I = q/t Units: Amps (A)  An amp is the flow of 1 C of charge per second  NOTE: 1 C = the charge of 6,240,000,000,000,000,000 electrons

10 Electric Current Usually the number of electrons entering a wire is the same as the number leaving  This gives the wire a net charge of zero

11 Voltage Sources Voltage Source: A device which provides a potential difference in order to keep current flowing  Dry/Wet Cells: Convert chemical energy to electrical energy  Generators: Convert mechanical energy to electrical energy The voltage available to electrons moving between terminals is called electromotive force, or emf.

12 Voltage Sources Note:  Voltage flows across a circuit  Current flows through a circuit

13 Bell Ringer Which object yielded the highest potential difference? Which arrangement yielded the most potential difference? What are two types of voltage sources?

14 Current vs. Voltage Current – Flow rate  Measured in Amperes  Amount of flowing water Voltage – Potential  Measured in Volts  Water Pressure

15 Electric Resistance Electric Resistance: The ability of a material to resist the flow of charge  Units: Ohms (  )  The amount of charge that flows through a circuit depends on two things:  Voltage provided by source  Electric resistance of the conductor

16 Bell Ringer Why are light bulbs more likely to burn out when they are first turned on as opposed to burning out after being on for a long period of time?

17 Resistors

18 Bell Ringer What is the resistance of this resistor?

19 Resistance in a Wire

20 Electric Resistance Factors Thick wires have less resistance than thin wires Short wires have less resistance than long wires Higher temperatures usually cause more resistance  The resistance in some materials becomes almost zero at very low temperatures

21 Ohm’s Law The current in a circuit is  Directly proportional to the voltage across the circuit  Inversely proportional to the resistance of the circuit Therefore: Current = Voltage/Resistance or I = V/R

22 Ohm’s Law: Sample Problems How much current flows in a 1000-ohm resistor when 1.5 volts are impressed across it? How much resistance allows an impressed voltage of 6 V to produce a current of 0.006 A? What voltage will produce 3 A through a 15-ohm resistor?

23 Voltage Potential difference between two points  Either side of a voltage source is not an eqipotential surface  A wire is an equipotential surface  It has the same potential  If the wire is attached to a voltage source it is still an equipotential surface

24 Current’s Direction Electrons Travel from – to + Current is actually the opposite direction of the flow of electrons

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26 Ohm’s Law and Electric Shock The current flowing through the human body depends on two factors:  Voltage applied to the body  Resistance of the body The resistance of the human body could range from 100  (soaked in salt water) to 500,000  (very dry)  The lower the resistance, the greater the shock

27 Ohm’s Law and Electric Shock CurrentEffect 0.001 A (1 mA) Can be felt 0.005 A (5 mA) Painful 0.010 A (10 mA) Involuntary muscle contractions (spasms) 0.015 A (15 mA) Loss of muscle control 0.070 A (70 mA) If through the heart, serious disruption. More than 1 second, probably fatal

28 Bell Ringer A CD player with a resistance of 40 ohms has a current of 0.1 amps flowing through it. How many volts are supplied to the CD player?

29 Review What is the resistance of this resistor?

30 Electric Power The rate at which electrical energy is converted to other forms Electric Power = Current x Voltage P = IV  Units: Watts (W)  1 kilowatt (kW) = 1000 W

31 Electric Power Kilowatt-Hour (kWh): The amount of energy consumed in 1 hour at a rate of 1 kW  Example: In a place where energy is 5¢ per kWh, a 100 W light bulb can be lit for 10 hours for 5¢

32 Electric Power What is the power when a voltage of 120 V drives a 2-A current through a device? How much current does a100- W lamp draw when connected to 120 V?

33 Electrical Tools Voltmeter  Measures potential difference Ammeter  Measures the flow of charge Ohmmeter  Measures the resistance to the flow of charge

34 Phet Circuit Construction Ohm’s Law Practice

35 Bell Ringer Complete the Big Ideas Table

36 Bell Ringer What is the resistance of a 100W lightbulb as it is attached to a 120V outlet?

37 AC and DC Direct Current (DC)  Flow of charge in one direction  Example: The terminals of a battery do not switch signs  Therefore electrons are always repelled away from the (-) terminal and toward the (+)

38 AC and DC Alternating (AC)  Charges in the circuit first move in one direction, then in the other  Accomplished by alternating the polarity of the voltage source

39 AC and DC

40 Converting AC to DC Wall outlets: AC Battery operated devices: DC AC adaptors have three main components  Transformer: Lowers voltage  Diode: Acts as a one-way valve to allow electron flow in only one direction  AC acts in 2 directions; the diode only allows half of each cycle through

41 Converting AC to DC  Capacitor: Stores charge to smooth the signal between each half cycle  An additional diode can also be used

42 Bell Ringer What three electrical devices are used to convert alternating current to direct current? How much current passes through a device of 15kΩ when attached to a 9V source?

43 The Speed of Electrons in a Circuit At room temperature, electrons in a wire have speeds up to a few million km/hr  This motion does not produce an organized current When a voltage source is connected, an electric field is established through the wire

44 The Speed of Electrons in a Circuit

45 The electric field directs the electrons along, producing a current  Electrons collide with each other along the way

46 The Speed of Electrons in a Circuit The electric field pulses through the wire at nearly the speed of light, however:  In DC circuits, the electrons have a drift speed of about 0.01 cm/s  In AC circuits, the electrons vibrate back and forth, so drift speeds are nearly zero


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