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C 0 AdC 0 Ad C Q VC Q V Capacitors:Store Electric Energy To calculate: 1)Put on arbitrary ±Q 2)Calculate E 3)Calculate V Parallel Plate Capacitor: P8 -
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Batteries & Elementary Circuits P8 - 2
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Ideal Battery Fixes potential difference between its terminals Sources as much charge as necessary to do so Think:Makes a mountain P8 - 3
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Batteries in Series V1V1 P8 - 4 V2V2 Net voltage change is V = V 1 + V 2 Think: Two Mountains Stacked
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BatteriesinParallel Net voltage still V Don’t do this! P8 - 5
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Capacitors in Parallel P8 - 6
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Capacitors in Parallel Same potential! C Q 1,C Q 2 1 V 2 V P8 - 7
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Equivalent Capacitance ? Q Q 1 Q 2 C 1 V C 2 V C 1 C 2 V C Q C C 12eq VV P8 - 8
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CapacitorsinSeries Different Voltages Now What about Q? P8 - 9
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CapacitorsinSeries P8 - 10
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Equivalent Capacitance 1212 C1C2C1C2 V Q,V QV Q,V Q V V 1 V 2 (voltage adds in series) V Q Q Q C1C2C1C2 C eq C1C2C1C2 1 1 1 C eq P8 - 11
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PRS Question: Capacitors in Series and Parallel When capacitors are combined, they behave in an opposite way comparing to resistors. P8 - 13
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Dielectrics P8 - 14 A dielectric is a non-conductor or insulator Examples: rubber, glass, waxed paper When placed in a charged capacitor, the dielectric reduces the potential difference between the two plates HOW???
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Molecular View of Dielectrics Polar Dielectrics : Dielectrics with permanent electric dipole moments Example: Water P8 - 15
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Molecular View of Dielectrics Non-Polar Dielectrics Dielectrics with induced electric dipole moments Example: CH 4 P8 - 16
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Dielectric in Capacitor Potential difference decreases because dielectric polarization decreases Electric Field! P8 - 17
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Gauss’sLawforDielectrics Upon inserting dielectric, a charge density ’ is induced at its surface 0000 S inside q E dA EA E dA EA E '0E '0 ' A ' A P8 - 18 What is ’?
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Dielectric Constant Dielectric weakens original field by a factor E ' E0 0E ' E0 0 00 ' 1 1 ' 1 1 P8 - 19 Bound charge = free charge (1-1/ Total net charge = free charge – bound charge = free charge/
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Dielectric Constant Dielectric weakens original field by a factor Very often, people use instead of to represent dielectric constant. Dielectric constants P8 - 20 Vacuum1.0 Paper3.7 Pyrex Glass5.6 Water80 For a vacuum(air)-filled capacitor For a dielectric-filled capacitor for vacuum. for other insulators (dielectrics).
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Dielectric in a Capacitor Q 0 = constant after battery is disconnected Upon inserting a dielectric: Q0Q0 Q0 C Q0 C 0 00 C Q VV/ C Q VV/ V P8 - 21 Dielectric filling will increase C by a factor of when free charge Q is unchanged, E field and V will reduce by a factor of E and V reduces due to bounded charges.
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Dielectric in a Capacitor V 0 = constant when battery remains connected Upon inserting a dielectric: Q Q 0 C Q C Q0C Q C Q0 P8 - 22 0 V0V0 V Dielectric filling increases C by a factor of When V is constant, Q increase by a factor of
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PRS Questions: Dielectric in a Capacitor P8 - 23
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Capacitors & Dielectrics To calculate: 1)Put on arbitrary ±Q 2)Calculate E 3)Calculate V C QC Q V V Energy 2 Capacitance 2 1212 Q 12C2Q 12C2 C VC V P10 - Q VQ V U U 2 33 2 o E EE udrudr drdr Dielectrics When V is fixed, adding dielectric filling increases U by a factor of . When Q (free charge) is unchanged, adding dielectric filling decreases U by a factor of .
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For a vacuum(air)-filled capacitor 2 1212 Q 12C2Q 12C2 C VC V Q VQ V U U 3 E udr= u E Ad For a dielectric-filled capacitor
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