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Fun with Capacitors

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Fun with Capacitors Capacitor Composed of two metal plates. Each plate is charged one positive one negative Stores Charge A simple Capacitor INSIDE THE DEVICE Two ... – PowerPoint PPT presentation

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Title: Fun with Capacitors


1
Fun with Capacitors
2
Capacitor
  • Composed of two metal plates.
  • Each plate is charged
  • one positive
  • one negative
  • Stores Charge

SYMBOL
3
A simple Capacitor
TWO PLATES
WIRES
Battery
4
INSIDE THE DEVICE
5
Two Charged Plates(Neglect Fringing Fields)
6
More on Capacitors
Same result from other plate!
7
Device
  • The Potential Difference is APPLIED by a battery
    or a circuit.
  • The charge q on the capacitor is found to be
    proportional to the applied voltage.
  • The proportionality constant is C and is referred
    to as the CAPACITANCE of the device.

8
NOTE
  • Work to move a charge from one side of a
    capacitor to the other is qEd.
  • Work to move a charge from one side of a
    capacitor to the other is qV
  • Thus qVqEd
  • EV/d (Hold this thought.)

9
UNITS
  • A capacitor which acquires a charge of 1 coulomb
    on each plate with the application of one volt is
    defined to have a capacitance of 1 FARAD
  • One Farad is one Coulomb/Volt

10
Continuing
  • The capacitance of a parallel plate capacitor
    depends only on the Area and separation between
    the plates.
  • C is dependent only on the geometry of the device!

11
Units of e0
pico
12
Simple Capacitor Circuits
  • Batteries
  • Apply potential differences
  • Capacitors
  • Wires
  • Wires are METALS.
  • Continuous strands of wire are all at the same
    potential.
  • Separate strands of wire connected to circuit
    elements may be at DIFFERENT potentials.

13
Size Matters!
  • A Random Access Memory stores information on
    small capacitors which are either charged (bit1)
    or uncharged (bit0).
  • Voltage across one of these capacitors ie either
    zero or the power source voltage (5.3 volts in
    this example).
  • Typical capacitance is 55 fF (femto10-15)
  • Question How many electrons are stored on one of
    these capacitors in the 1 state?

14
Small is better in the IC world!
15
TWO Types of Connections
SERIES PARALLEL
16
Parallel Connection
17
Series Connection
The charge on each capacitor is the same !
18
Series Connection Continued
19
More General
20
Example
C112.0 uf C2 5.3 uf C3 4.5 ud
C1 C2
series
(125.3)pf
(125.3)pf
V
C3
21
More on the Big C
  • We move a charge dq from the (-) plate to the ()
    one.
  • The (-) plate becomes more (-)
  • The () plate becomes more ().
  • dWFddq x E x d

22
So.
23
Not All Capacitors are Created Equal
  • Parallel Plate
  • Cylindrical
  • Spherical

24
Spherical Capacitor
25
Calculate Potential Difference V
(-) sign because E and ds are in OPPOSITE
directions.
26
Continuing
Lost (-) sign due to switch of limits.
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