electric potential and capacitance
DESCRIPTION
Electric Potential and Capacitance. What’s a volt anyway?. Why Potential?. Energy makes some problems easier to solve Energy is a scalar The concept of a potential is useful to have in our physics toolbox. Define Change in Electric Potential Energy. - PowerPoint PPT PresentationTRANSCRIPT
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Electric Potential and Capacitance
What’s a volt anyway?
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Why Potential?
Energy makes some problems easier to Energy makes some problems easier to solvesolve
Energy is a scalarEnergy is a scalar The concept of a potential isThe concept of a potential is
useful to have in our physicsuseful to have in our physics
toolboxtoolbox
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Define Change in Electric Potential Energy When a positive charge released near the When a positive charge released near the
positive plate moves to the right it loses positive plate moves to the right it loses potential energy equal in magnitude to the potential energy equal in magnitude to the work done by the field on the chargework done by the field on the charge
Positive plate
Negative plate
b a
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Electrical Potential Energy
The change in potential energy equals the The change in potential energy equals the negative of the work done by the fieldnegative of the work done by the field
Electrical PE changes to kineticElectrical PE changes to kinetic The positive charge has its greatest PE near The positive charge has its greatest PE near
positive platepositive plate Only Only differences differences in potential energy are in potential energy are
measurablemeasurable
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Electrical Potential
Potential is potential energy per unit chargePotential is potential energy per unit charge Analogous to field which is force per unit Analogous to field which is force per unit
chargecharge Symbol of potential is V; VSymbol of potential is V; Vaa = PE = PEaa/q /q Only potential Only potential differencesdifferences are measurable; are measurable;
zero point of potential is arbitraryzero point of potential is arbitrary VVabab = V = Vaa – V – Vbb = - W = - Wbaba/q/q WWba ba is work done to move q from b to ais work done to move q from b to a
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Units
Unit of electric potential is the Unit of electric potential is the voltvolt AbbreviationAbbreviation V V 1 V = 1 Joule/Coulomb = 1 J/C1 V = 1 Joule/Coulomb = 1 J/C Thus electrical work = qVThus electrical work = qV Potential difference is called Potential difference is called voltagevoltage
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V = 0 Arbitrary
Usually ground is zero point of potentialUsually ground is zero point of potential Sometimes potential chosen zero at infinitySometimes potential chosen zero at infinity + terminal of 12V battery is+ terminal of 12V battery is
said to be at 12V higher said to be at 12V higher
potential than – terminalpotential than – terminal
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Electric Potential and Potential Energy PE = PEPE = PEbb – PE – PEaa = qV = qVbaba
If object with charge q moves through a potential If object with charge q moves through a potential difference Vdifference Vba ba its potential energy changes by qVits potential energy changes by qVbaba
Example: What is the gain of electrical PE when 1 C Example: What is the gain of electrical PE when 1 C of charge moves between the terminals of a 12 volt of charge moves between the terminals of a 12 volt battery?battery?
Water Analogy:Water Analogy: Voltage is like water pressureVoltage is like water pressure
12 joules
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Example: Electron in Computer Monitor An electron is accelerated from rest through An electron is accelerated from rest through
a potential difference of 5000 voltsa potential difference of 5000 volts Find its change in potential energyFind its change in potential energy Find its speed after accelerationFind its speed after acceleration
a b
Vba = 5000 v = Vb - Va
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Example: Electron in Computer Monitor An electron is accelerated from rest through An electron is accelerated from rest through
a potential difference of 5000 voltsa potential difference of 5000 volts Find its change in potential energyFind its change in potential energy Find its speed after accelerationFind its speed after acceleration PE = qV = 1.6x 10PE = qV = 1.6x 10-19 -19 C x 5 x 10C x 5 x 103 3 V =V =
8 x 108 x 10-16-16 J = ½ m v J = ½ m v22
m = 9.11 x 10m = 9.11 x 10-31-31 kg ; v = 4.2 x 10 kg ; v = 4.2 x 1077 m/s m/s
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Questions on Preceding Example
Does the energy depend on the particle’s Does the energy depend on the particle’s mass?mass?
Does the final speed depend on the mass?Does the final speed depend on the mass?
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Electric Potential and Electric Field Can describe charge distribution in terms field or Can describe charge distribution in terms field or
potential. Consider uniform field:potential. Consider uniform field: F = EqF = Eq W = qVW = qVbaba
W = Fd =W = Fd = qE dqE d
Thus VThus Vba ba = Ed or E = V= Ed or E = Vbaba/d/d
Alternate units for E: volts per meter v/mAlternate units for E: volts per meter v/m
Instead of?Instead of? N/C
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Equipotential Lines
An equipotential surface is perpendicular to An equipotential surface is perpendicular to the electric field at any pointthe electric field at any point
If not charges would move along the If not charges would move along the surfacesurface
This contradicts the idea of an equipotentialThis contradicts the idea of an equipotential
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Describe the equipotentials…
……between large oppositely charged between large oppositely charged conducting platesconducting plates
+
-
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Electric Potential Due to Point Charges V = k Q/r derived from CalculusV = k Q/r derived from Calculus Here V = 0 at r = infinity; V represents Here V = 0 at r = infinity; V represents
potential difference between r and infinitypotential difference between r and infinity
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Example: Work to force two point charges together What work is needed to bring a 2What work is needed to bring a 2C charge C charge
from far away to within 10cm of a 5 from far away to within 10cm of a 5 c c charge?charge?
Work required = change in potential energyWork required = change in potential energy
W = qVW = qVbaba = q{kQ/r = q{kQ/rbb – kQ/r – kQ/raa} = qkQ/r} = qkQ/rbb0.90 J
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Potential at an Arbitrary Point Near Several Point Charges Add the potentials due to each point chargeAdd the potentials due to each point charge Use the right sign for the chargeUse the right sign for the charge Relax; potential isn’t a vectorRelax; potential isn’t a vector
What is true about the mid-plane between What is true about the mid-plane between two equal point charges of opposite sign?two equal point charges of opposite sign?Potential everywhere zero
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Find…
The potential due to a microcoulomb charge The potential due to a microcoulomb charge at a point one meter away at a point one meter away
The potential energy of two microcoulomb The potential energy of two microcoulomb charges one meter apartcharges one meter apart
9000 volts
9 x 10-3 J
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The Electron Volt The energy acquired by a particle carrying a The energy acquired by a particle carrying a
charge equal to that of the electron when charge equal to that of the electron when accelerated through one voltaccelerated through one volt
1 eV = 1.6 x 101 eV = 1.6 x 10-19-19 joules joules
It’s about It’s about ENERGYENERGY 1 KeV = 1000 eV = 1.6 x 101 KeV = 1000 eV = 1.6 x 10-16-16 joules joules
1 MeV = 101 MeV = 1066 eV eV 1 Gev = 101 Gev = 1099 eV eV
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Capacitance
Stores chargeStores charge Two conducting platesTwo conducting plates NOT touchingNOT touching May have insulatingMay have insulating
material betweenmaterial between
Q = CVQ = CV
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Capacitance
Symbol CSymbol C Unit: coulombs per volt = faradUnit: coulombs per volt = farad 1 pf = 1 picofarad = 101 pf = 1 picofarad = 10-12-12 farad farad 1nf = 1 nanofarad = 101nf = 1 nanofarad = 10-9-9 f f 11f = 1 microfarad = 10f = 1 microfarad = 10-6-6 f f
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C is Constant for a Given Capacitor Does not depend on Q or VDoes not depend on Q or V Proportional to areaProportional to area Inversely proportional to distance between plates Inversely proportional to distance between plates
C = C = 00 A/d A/d If dielectric like oil or paper between plates use If dielectric like oil or paper between plates use
= K= K00; K is called dielectric constant; K is called dielectric constant isiscalled permittivity. called permittivity. 0 0 is permittivity of free is permittivity of free
spacespace
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Find the Capacitance
A capacitor can hold 5 A capacitor can hold 5 C of charge at a C of charge at a potential difference of 100 volts. What is potential difference of 100 volts. What is its capacitanceits capacitance
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Q = CV
C = Q/V = 5 x 10C = Q/V = 5 x 10-6-6 C/ 100V = C/ 100V =
5 x 105 x 10-8-8 f = 50000 pf = 0.05 f = 50000 pf = 0.05 ff
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Why is the Electric Field inside the dielectric less than outside? Less since fewer field lines
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Capacitors
Photos courtesy Illinois Capacitor, Inc
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Supercapacitors -
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Supercapcitors use double layer electrolyte technology, usually with activated carbon and sulfuric acid. The carbon has huge surface area
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Applications
In automotive ignitionsIn automotive ignitions In strobe lightsIn strobe lights In electronic flashIn electronic flash In power suppliesIn power supplies In nearly all electronicsIn nearly all electronics
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Supercapacitor applications
Power motor vehicles for short burstsPower motor vehicles for short bursts Backup power for computersBackup power for computers Operate emergency doors and slides in Operate emergency doors and slides in
commercial aircraftcommercial aircraft
Lower energy density but greater power Lower energy density but greater power density than batteriesdensity than batteries
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A Capacitor Stores Electric Energy A battery A battery producesproduces electric energy bit by bit electric energy bit by bit A capacitor is NOT a type of batteryA capacitor is NOT a type of battery A battery can be used to charge a capacitorA battery can be used to charge a capacitor
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Energy in a Capacitor Holding Charge Q at Voltage V U = QV/2 = CVU = QV/2 = CV22/2 = Q/2 = Q22/2C/2C Derivation: the work needed to charge a Derivation: the work needed to charge a
capacitor by bringing charge onto a plate capacitor by bringing charge onto a plate when some is already there (use W =QV)when some is already there (use W =QV)
Initially V = 0Initially V = 0 Average voltage during the charging Average voltage during the charging
process is V/2process is V/2
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Example
A 20 A 20 f capacitor stores 20 millijoules of f capacitor stores 20 millijoules of energy. What is the voltage across it?energy. What is the voltage across it?
U = CVU = CV22/2/2 V = (2U/C)V = (2U/C)1/2 1/2 = (2x20 x 10= (2x20 x 10-3-3J/20x10J/20x10-6-6F)F)1/2 1/2 ==
44.7 V44.7 V