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Our first exam is next Tuesday - Sep 27. It will cover everything I have covered in class including material covered today. There will be two review sessions.

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Presentation on theme: "Our first exam is next Tuesday - Sep 27. It will cover everything I have covered in class including material covered today. There will be two review sessions."— Presentation transcript:

1 Our first exam is next Tuesday - Sep 27. It will cover everything I have covered in class including material covered today. There will be two review sessions Monday, Sep 26 - at 12:30 PM and at 3:00 PM in the same room as the problem solving session: FN 2.212. I have put several (37) review questions/problems on Mastering Physics. These are not for credit but for practice. I will review them at the review session Monday.

2 Example: A positively charged (+q) metal sphere of radius r a is inside of another metal sphere (-q) of radius r b. Find potential at different points inside and outside of the sphere. +q+q -q-q 1 2 a) Total V=V 1 +V 2 b) c) Electric field between spheres

3 Equipotential Surfaces Equipotential surface—A surface consisting of a continuous distribution of points having the same electric potential Equipotential surfaces and the E field lines are always perpendicular to each other No work is done moving charges along an equipotential surface –For a uniform E field the equipotential surfaces are planes –For a point charge the equipotential surfaces are spheres

4 Equipotential Surfaces Potentials at different points are visualized by equipotential surfaces (just like E-field lines). Just like topographic lines (lines of equal elevations). E-field lines and equipotential surfaces are mutually perpendicular

5 Definitions cont Electric circuit—a path through which charge can flow Battery—device maintaining a potential difference V between its terminals by means of an internal electrochemical reaction. Terminals—points at which charge can enter or leave a battery

6 Definitions Voltage—potential difference between two points in space (or a circuit) Capacitor—device to store energy as potential energy in an E field Capacitance—the charge on the plates of a capacitor divided by the potential difference of the plates C = q/V Farad—unit of capacitance, 1F = 1 C/V. This is a very large unit of capacitance, in practice we use  F (10 -6 ) or pF (10 -12 )

7 Capacitors A capacitor consists of two conductors called plates which get equal but opposite charges on them The capacitance of a capacitor C = q/V is a constant of proportionality between q and V and is totally independent of q and V The capacitance just depends on the geometry of the capacitor, not q and V To charge a capacitor, it is placed in an electric circuit with a source of potential difference or a battery

8 CAPACITANCE AND CAPACITORS Capacitor: two conductors separated by insulator and charged by opposite and equal charges (one of the conductors can be at infinity) Used to store charge and electrostatic energy Superposition / Linearity: Fields, potentials and potential differences, or voltages (V), are proportional to charge magnitudes (Q) (all taken positive, V-voltage between plates) Capacitance C (1 Farad = 1 Coulomb / 1 Volt) is determined by pure geometry (and insulator properties) 1 Farad IS very BIG: Earth’s C < 1 mF

9 Calculating Capacitance 1.Put a charge q on the plates 2.Find E by Gauss’s law, use a surface such that 3.Find V by (use a line such that V = Es) 4.Find C by

10 Energy stored in a capacitor is related to the E-field between the plates Electric energy can be regarded as stored in the field itself. This further suggests that E-field is the separate entity that may exist alongside charges. Parallel plate capacitor Generally, we find the potential difference V ab between conductors for a certain charge Q Point charge potential difference ~ Q This is generally true for all capacitances

11 Capacitance configurations Cylindrical capacitor Spherical Capacitance

12 Definitions Equivalent Capacitor—a single capacitor that has the same capacitance as a combination of capacitors. Parallel Circuit—a circuit in which a potential difference applied across a combination of circuit elements results in the potential difference being applied across each element. Series Circuit—a circuit in which a potential difference applied across a combination of circuit elements is the sum of the resulting potential differences across each element.

13 Capacitors in Series

14 Capacitors in Parallel Example: Voltage before and after


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