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University Physics Final Exam Overview
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21. Electric Field How is electric field defined?
How to find the electric field arising from a point charge? How to find the force on a charge if the electric field at the point is known?
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Typical Problems + Using superposition principle to find the resultant of electric fields. - The path of a charge being bent in an electric field. Make analogy to projectile motion.
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22. Gauss’s Law Gauss’s law is the integral form of Coulomb’s law.
It provides a versatile path to the finding of electric fields arising from distribution of charges. We only use Gauss’s law on problems of high symmetry.
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Applications of Gauss’s Law
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Typical Problems Electric field inside or outside of a non-conducting sphere Electric field inside or outside of concentric conducting spheres +1 +2 +4 - + a b c d
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23. Electric Potential How is electric potential defined? U = qV
Electric potential V is the energy property (or scalar property) of the space around a source charge, whereas electric field E is the force property (or vector property) of the space around a source charge.
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Relations Between E and V
E -> V V -> E
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E and V Conversions For a point charge For a parallel plate capacitor
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Typical Problems Find the speed of a charge at far distance when released from a stationary charge. Find the potential energy stored in a configuration of charges. Qi + a a + a + Qii Qiii
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24. Capacitors What is a capacitor?
How is capacitance defined in a circuit? C=Q/V How is capacitance determined by the geometry of a capacitor? What is the energy stored in a capacitor?
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The Equivalent Capacitance
Capacitors linked in series Capacitors linked in parallel
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Typical Problems Circuit analysis with composite capacitors A B II I
1.0 A B 2.0 3.0 4.0 5.0 12 18 II I III IV
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25. Current and Resistance
Current is the rate of transfer of charge. Resistance can be measured from Ohm’s law. Resistance is determined by the material and the geometry.
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Electrical Power The electric power consumed on a resistor.
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26. DC Circuits Equivalent resistance for connection in series
Equivalent resistance for connection in parallel
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Kirchhoff’s Point Rule and Loop Rule
Point rule or Kirchhoff’s current rule Loop rule or Kirchhoff’s voltage rule iR2 e1 I e2
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Mesh Analysis Typical problems 5.0 W i2 = 7/3 – i3 i3 + _ e 5.0 W 15 V
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27. Magneticl Field How does magnetic field exert force on a moving charge? How does magnetic field exert force on a current? How does magnetic field exert torque on a current carrying loop? with
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The Potential Energy in a Current Loop
The magnetic potential energy stored in a current-carrying loop is= with
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Circular Motion of a Charge in a B Field
The magnetic force provides the exact amount of centripetal force
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28. Ampere’s Law I B How is magnetic field generated from a loop of current? How is magnetic field generated from a long wire of current?
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The Interaction between two current carrying wires
BI1 BI2 x x Fwire1- BI2 Fwire2-BI1 Wire 1 Wire 2
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Magnetic Field in a Solenoid
How to use Ampere’s law to find the B field inside a solenoid Ampere’s Law
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29. Faraday’s Law How is emf induced from a change of magnetic flux?
How is emf induced in a conducting rod moving across a B field
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Lenz’s Law The key word “opposing” can find two applications:
How to determine the direction of the induced current? The key word “opposing” can find two applications: If Foriginal increases, Binduced directs opposite to Borigial; If Foriginal decreases, Binduced directs in the same direction as Borigial;
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30. Inductance How does inductance relate the rate of change of current to the induced emf? For one coil: For two coils:
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Inductance and Magnetic Flux
For self-inductor For mutual-inductor
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Energy Stored in a Self-Inductor
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31. Alternating Currents How is the resistive effect quantified for R, L, C in an AC circuit? Resistance Inductive reactance Capacitive reactance
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Impedance The effective resistance of the entire circuit is called impedance Z An analog of Ohm’s law holds in the entire circuit as
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Phasor Diagram VL and VC are on the same line and so the net y component is VL – VC The phase angle q can be determined from the phasor diagram as
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Power Expenditure in AC Circuit
The power in an AC circuit is consumed only by the resistor. The consumption rate is P = IrmsVR = IrmsVrms cosq cosq is called the power factor of the circuit
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The Resonance Condition for RLC Circuit
The maximum flow of current occur in an RLC circuit when
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