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List of Demos Super VDG Electrometer Voltmeter

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Presentation on theme: "List of Demos Super VDG Electrometer Voltmeter"— Presentation transcript:

1 List of Demos Super VDG Electrometer Voltmeter
Circular parallel plate capacitor Cylindrical capacitor Concentric spherical capacitor Dielectric Slab sliding into demo Show how to calibrate electroscope

2 Show Demo Model, calculate its capacitance , and show how to charge it up with a battery.
Circular parallel plate capacitor r = 10 cm A = r2 = (.1)2 A = .03 m 2 S = 1 mm = .001 m r s p = pico = 10-12

3 Demo Continued Demonstrate As S increases, voltage increases.
2. As S increases, capacitance decreases. 3. As S increases, E0 and q are constant.

4 Spherical capacitor or sphere
Recall our favorite example for E and V is spherical symmetry Q R The potential of a charged sphere is V = (kQ)/R with V = 0 at r =  . The capacitance is Where is the other plate (conducting shell)? It’s at infinity where it belongs, since that’s where the electric lines of flux terminate. k = 1010 and R in meters we have Earth: C = (6x108 cm)PF = 600 F Marble: 1 PF Basketball: 15 PF You: 30 PF Demo: Leyden jar capacitor Demo: Show how you measured capacitance of electroscope

5 Dielectrics The amount that the field is reduced defines the dielectric constant  from the formula E = E0 / , where E is the new field and E0 is the old field without he dielectric. Since the electric field is reduced and hence the voltage difference is reduced (since E = Vd), the capacitance is increased. C = Q / V = Q / (V0 / ) =  C0  is typically between 2 – 6 with water equal to 80 Show demo dielectric slab sliding in between plates. Watch how capacitance and voltage change. Also show aluminum slab.

6 Model of coaxial cable for calculation of capacitance
Outer metal braid Signal wire

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