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Electric Fields. 2006 P.1 Concept: Forces between charges are action- reaction pairs (N3L)

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Presentation on theme: "Electric Fields. 2006 P.1 Concept: Forces between charges are action- reaction pairs (N3L)"— Presentation transcript:

1 Electric Fields

2 2006 P.1 Concept: Forces between charges are action- reaction pairs (N3L)

3 Spring 2005 P.3

4 2006 P.2 Concept: Superposition (Vector sum) of E-fields

5 2006 P.3 Concept: E Fields from charge distributions

6 Electric Flux & Gauss’s Law Non-uniform E Uniform E

7 2006 P.5 Category: Gauss’s Law & Electric Flux Concept: Net flux on Gaussian surface is generated by net enclosed charge

8 2005 P.5 Category: Gauss’s Law & Electric Flux Concept: Net flux on Gaussian surface is generated by net enclosed charge

9 2006 P.6 Category: Gauss’s Law & Electric Flux Concept: Definition of vector dot product E  A E

10 Electric potential of charge systems

11 2005 P.7 Category: Electric Potentials Concept: Superposition (not vectors!! Just add them up!!)

12 2005 P.8 Category: Electric Potentials Concept: Delta V is the line integral of E

13 2005 P.11 Category: Electric Potentials Concept: E is – dV/dx

14 Capacitance

15 2006 P.10 Concept: Physical Capacitor w/ dielectric

16 2005 P.12&13 Concept: Series Caps= Same charge; Parallel Caps= Same Voltage

17 Current & Circuits

18 2006 P.11 Current & Circuits Concept: Resistance of a conductor changes w/ temp. Strategy: Make a ratio

19 2005 P.17 Current & Circuits Concept: Current continuity and Ohm’s Law

20 2006 P.11 Current & Circuits

21 Magnetic Fields

22 2005 P.23 & 24 Magnetic Fields Concept: Net B is superposition (vector sum) of B from each current

23 Induction & Inductance

24 2005 P.28 Induction & Inductance Concept: Lenz’s Law- Induced current opposes the CHANGE in flux

25 2006 P.23 Induction & Inductance Concept: Lenz’s Law- Induced current opposes the CHANGE in flux

26 Maxwell’s EQ & EM Waves

27 2006 P.30 Maxwell’s EQ & EM Waves Concept: Displacement current behaves like a current in a conductor and generates B-field

28 2005 P. 32 & 33 EM Waves Concept: EM waves carry energy (@ speed c), transmit power and exert pressure

29 Optics

30

31 2006 P.35 & 36 Small angle approximation: Sin(  ) ~ d/L

32 2006 P.35 & 36 Small angle approximation: Sin(  ) ~ d/L

33 2006 P.36 Interference Concept: Small angle approximation: Sin(  ) ~ d/L

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