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Electric flux, Gauss’s law

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1 Electric flux, Gauss’s law
Carl Friedrich Gauss Physics 122 11/14/2018 Lecture IV

2 Concepts Primary concepts: Electric flux 11/14/2018 Lecture IV

3 Laws Gauss’s law 11/14/2018 Lecture IV

4 Definition of electric flux
Flux means flow Nothing is actually flowing Other than that thinking of flow really helps to understand the flux 11/14/2018 Lecture IV

5 Electric flux If electric field is rain – electric flux is the amount of water in a bucket accumulated per unit of time: Only component of the field perpendicular to the area A contributes to the flux 11/14/2018 Lecture IV

6 Electric flux Alternatively we can define a vector A, which equals to the area A and is directed perpendicularly to the area Flux is proportional to the number of field lines going through the surface 11/14/2018 Lecture IV

7 Compare fluxes Which flux is larger?
2 1 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture IV

8 Compare fluxes Which flux is larger?
2 1 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture IV

9 Compare fluxes Which flux is larger?
1 2 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture IV

10 Compare fluxes Which flux is larger?
1 2 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture IV

11 Compare fluxes Which flux is larger?
1 2 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture IV

12 Compare fluxes Which flux is larger?
2 1 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture IV

13 Non-uniform field, irregular surface
Closed surface Influx <0 Outflux>0 Don’t worry, we’ll only deal with simple surfaces Complex surfaces can be handled using numeric integration by a computer. 11/14/2018 Lecture IV

14 Why do we need flux? Gauss’s law: 11/14/2018 Lecture IV

15 Gauss Coulomb Calculate E of point like (+) charge Q
Consider sphere radius r centered at the charge Spherical symmetry: E is the same everywhere on the sphere, perpendicular to the sphere 11/14/2018 Lecture IV

16 Sinks and sources What goes in – goes out unless
there is a source (positive charge) or a sink (negative charge) + - 11/14/2018 Lecture IV

17 What’s the flux? F1=? F2=? 11/14/2018 Lecture IV

18 Respect the symmetry Find electric field for the following configurations: Uniformly charged sphere. Charge Q, radius R. Long uniform line of charge. Charge per unit length l. Infinite plane of charge. Charge per unit of area s 11/14/2018 Lecture IV

19 Field near conductor Infinite plane of charge. Charge per unit of area s Field inside conductor is zero, outside perpendicular to the surface. 11/14/2018 Lecture IV

20 Respect the symmetry Find electric field for the following configurations: Uniformly charged sphere. Charge Q, radius R. Long uniform line of charge. Charge per unit length l. Infinite plane of charge. Charge per unit of area s 11/14/2018 Lecture IV

21 Two parallel plates + - Infinite plates One positive, one negative,
Same charge density s + - 11/14/2018 Lecture IV

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