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6. Capacitance and capacitors 6.1 Capacitors +Q -Q +Q -Q +Q 6.2 Capacitance [C]= 1 F = 1 C / V Definition:Units: Symbol: C is independent from: Q and ΔV.

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Presentation on theme: "6. Capacitance and capacitors 6.1 Capacitors +Q -Q +Q -Q +Q 6.2 Capacitance [C]= 1 F = 1 C / V Definition:Units: Symbol: C is independent from: Q and ΔV."— Presentation transcript:

1 6. Capacitance and capacitors 6.1 Capacitors +Q -Q +Q -Q +Q 6.2 Capacitance [C]= 1 F = 1 C / V Definition:Units: Symbol: C is independent from: Q and ΔV (ΔV is always proportional to Q) C depends on: the geometry of the system the dielectric between the conductors

2 6.3 Parallel plate capacitor -Q +Q d a b 6.3a Cylindrical capacitor: 6.3b Spherical capacitor: Large plates of area A separated by a small distance d, can be considered as infinite planes.

3 Example (Variable capacitor): A parallel plate capacitor is connected to a battery that produces a constant potential difference across its plates. If we push the plates of the capacitor together so that the distance between them is halved, the charge on the capacitor changes by: battery -+-+ C d  d/2 V - const Q = CV C  2C Q  2Q A. ½B. 1C. 2 Example: Now, we disconnect the capacitor from the battery, and then push the plates together so that the distance between them is halved. What happened with charge and with potential difference between plates?

4 6.4 Capacitors with dielectrics +Q-Q -q +q If V=const The molecules in a dielectric tend to become oriented in a way that reduces the external field. 6.5 Dielectrics Overall, there is a slight accumulation of positive charge on one side and negative on the other side, but it’s much smaller than in conductors (with induction)

5 What happens if you bring a charged rod near a neutral insulator? Glass of pure water H H O “Normal” molecule of water Charges are not free to move. They can move a little… Molecule of water near a positively charged rod (polarized molecule) Glass of polarized pure water Positive Negative Neutral

6 6.6 Energy stored in an electric field a) Energy stored in a capacitor V +Q -Q b) Energy density

7 6.7 Capacitors in parallel C2C2 C1C1 +Q 1 Q1Q1 +Q 2 Q2Q2 A●A● B●B● C eq A ● B ● +Q eq  Q eq

8 6.8 Capacitors in series And remember that: Note that Use series connection to decrease capacitance C1C1 C2C2 C3C3 …

9 A C D Example: Which of the circuits has the largest capacitance? All capacitors are identical. B

10 A.3.33 pF B.6.67 pF C.15.0 pF D.30.0 pF E.All of the above Example: Which of the following capacitances can be achieved with series or parallel combinations of three 10 pF capacitors? See previous slide!

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