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Electricity Part 2: Electric Current. Definition of current Electric current is the amount of charge moving through a surface in a time interval I = current.

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Presentation on theme: "Electricity Part 2: Electric Current. Definition of current Electric current is the amount of charge moving through a surface in a time interval I = current."— Presentation transcript:

1 Electricity Part 2: Electric Current

2 Definition of current Electric current is the amount of charge moving through a surface in a time interval I = current  Q = amount of charge that passes point.  t = time for charge to pass by.

3 Current Positive or negative charges Convention: positive charge carriers Same current

4 Units of Current 1 Ampere (Amp) = 1 Coulomb/second

5 Electric currents only flow in wires A.True B.False

6 Examples of Currents Aurora Aurora Coronal mass ejection Coronal mass ejection Switch opening Switch opening

7 3 electron beams in a color TV

8 Tokamak Fusion Experiments JET discharge JET discharge JET discharge

9 Simple circuit When a charged particle passes through the battery, it gains energy. When the particle passes through the light bulb it gives up the energy as heat.

10 Ohm’s Law V = IR V= Voltage of the Battery. I=current in circuit. R=Resistance in the bulb/resistor. (Depends on materials and geometry.)

11 Units of Resistance R = V/I (volts/amps) R = V/I (volts/amps) By definition, 1 Ohm = 1 volt/amp, By definition, 1 Ohm = 1 volt/amp,or 1  = 1 V/A.

12 Water system analogy for circuit Pressure  voltage Rate  current Restriction  resistance

13 Water system analogy for circuit Water  charge Pipe  wire Restriction  resistance Pump  battery (emf) Without closed loop flow stops

14 Water circuit analogy

15 Example problem How many amps of current would flow in a light bulb that has a resistance of 60  if it is connected to a 12 V battery.

16 Current through 60  resistor with 12 V potential A.0.2 A B.5 A C.720 A D.0.0013 A

17 Example problem How many amps of current would flow in a light bulb that has a resistance of 60  if it is connected to a 12 V battery.

18 Power in a circuit When a charge Q passes through the battery it gains an amount of energy E = Q×V (This is the amount of work the battery does on the charge.)

19 If the charge takes an amount of time  t to pass through the battery, the battery supplies a power of (does work at a rate of)

20 The power supplied by the battery must be dissipated in the resistor. We also know the V = IR. Power dissipated in resistor

21 The power supplied by the battery must be dissipated in the resistor. We also know the V = IR. Power dissipated in resistor

22 Example Which light bulb has a higher resistance, a 100 W bulb or a 60 W bulb?

23 How much current does a 1500 W hairdryer draw? A.12.5 A B.0.08 A C.9.6 A D.216 A

24 Which light bulb has a higher resistance: a 100 W or a 60 W bulb? A.100 W bulb B.60 W bulb C.Both have the same resistance D.Neither

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