Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fall 2014 Notes 23 ECE 2317 Applied Electricity and Magnetism Prof. David R. Jackson ECE Dept. 1.

Published byJob Rich Modified over 8 years ago

Similar presentations

Presentation on theme: "Fall 2014 Notes 23 ECE 2317 Applied Electricity and Magnetism Prof. David R. Jackson ECE Dept. 1."— Presentation transcript:

1 Fall 2014 Notes 23 ECE 2317 Applied Electricity and Magnetism Prof. David R. Jackson ECE Dept. 1

2 Boundary Value Problem Uniqueness theorem: On boundary: Goal: Solve for the potential function inside of a region, given the value of the potential function on the boundary. (Please see the textbooks for a proof of the uniqueness theorem.) (no charges) 2 As long as our solution satisfies the Laplace equation and the B.C.s, it must be correct!

3 Example: Faraday Cage Effect Guess:  B = V 0 = constant Check: Hollow PEC shell Prove that E = 0 inside a hollow PEC shell (Faraday cage effect). Therefore: The correct solution is V S 3 Note: We can make any guess that we wish, as long as our final solution satisfies Laplace’s equation and the boundary conditions.

4 Example (cont.) Hollow PEC shell V S Hence E = 0 everywhere inside the hollow cavity.  B = V 0 = constant 4 (Faraday cage effect)

5 Example Solve for  ( x, y, z ) Assume: + -+ - rr h x V0V0 5 Ideal parallel-plate capacitor Note: We can make any assumptions that we wish, as long as our final solution satisfies the boundary conditions.

6 Example (cont.) Hence Solution: 6

7 Example (cont.) Hence we have The solution is then 7

8 Example (cont.) Calculate the electric field: From previous notes: so 8 Hence

9 Example Assume 9 + - V0V0 Wedge Insulating gap

10 Example (cont.) Hence 10

11 Example (cont.) Hence Find the electric field: We then have 11

12 Example (cont.) 12 Flux plot + - V0V0 Insulating gap

13 Example (Four unknowns) + - r1r1 h1h1 h2h2 x r2r2 V0V0 h 13 Two-layer capacitor

14 Example (cont.) Hence: so We need two more equations: use interface boundary conditions. BC #1 The potential is continuous across the boundary. 2 1 Now there are two unknowns ( c 1 and d 1 ). (The path length is zero!) 14

15 Example (cont.) BC #2: To calculate E x, use Hence we have Therefore 15 The normal component of flux density is continuous.

16 Example (cont.) Therefore or Hence we have Also, 16

17 Example (cont.) We now find the electric fields and flux density: 17

18 Example (cont.) We now find the surface charge densities on the plates. Use 18 + - r1r1 h1h1 h2h2 x r2r2 V0V0 h ++++++++++++++++ - - - - - - - -

Download ppt "Fall 2014 Notes 23 ECE 2317 Applied Electricity and Magnetism Prof. David R. Jackson ECE Dept. 1."

Similar presentations

VEKTORANALYS Kursvecka 6 övningar. PROBLEM 1 SOLUTION A dipole is formed by two point sources with charge +c and -c Calculate the flux of the dipole.

VEKTORANALYS Kursvecka 6 övningar. PROBLEM 1 SOLUTION A dipole is formed by two point sources with charge +c and -c Calculate the flux of the dipole.
Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 26 ECE 6340 Intermediate EM Waves 1.

Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 26 ECE 6340 Intermediate EM Waves 1.
Physics 2102 Lecture 4 Gauss’ Law II Physics 2102 Jonathan Dowling Carl Friedrich Gauss 1777-1855 Version: 1/23/07 Flux Capacitor (Operational)

Physics 2102 Lecture 4 Gauss’ Law II Physics 2102 Jonathan Dowling Carl Friedrich Gauss Version: 1/23/07 Flux Capacitor (Operational)
EE3321 ELECTROMAGENTIC FIELD THEORY

EE3321 ELECTROMAGENTIC FIELD THEORY
Applied Electricity and Magnetism

Applied Electricity and Magnetism
Prof. D. Wilton ECE Dept. Notes 22 ECE 2317 Applied Electricity and Magnetism Notes prepared by the EM group, University of Houston. (used by Dr. Jackson,

Prof. D. Wilton ECE Dept. Notes 22 ECE 2317 Applied Electricity and Magnetism Notes prepared by the EM group, University of Houston. (used by Dr. Jackson,
Microwave Engineering

Microwave Engineering
Applied Electricity and Magnetism

Applied Electricity and Magnetism
Prof. David R. Jackson ECE Dept. Fall 2014 Notes 18 ECE 2317 Applied Electricity and Magnetism 1.

Prof. David R. Jackson ECE Dept. Fall 2014 Notes 18 ECE 2317 Applied Electricity and Magnetism 1.
Rectangular Waveguides

Rectangular Waveguides
EEE340Lecture 171 The E-field and surface charge density are And (4.15)

EEE340Lecture 171 The E-field and surface charge density are And (4.15)
Chapter 7 – Poisson’s and Laplace Equations

Chapter 7 – Poisson’s and Laplace Equations
Outline Applications of Gauss’s Law - The single Fixed Charge -Field of a sphere of charge -Field of a spherical shell -A Line of Charge Conductors and.

Outline Applications of Gauss’s Law - The single Fixed Charge -Field of a sphere of charge -Field of a spherical shell -A Line of Charge Conductors and.
1 Model 6:Electric potentials We will determine the distribution of electrical potential (V) in a structure. x y z x y V=0 V=To be specified Insulation.

1 Model 6:Electric potentials We will determine the distribution of electrical potential (V) in a structure. x y z x y V=0 V=To be specified Insulation.
Prof. David R. Jackson ECE Dept. Spring 2014 Notes 3 ECE 6341 1.

Prof. David R. Jackson ECE Dept. Spring 2014 Notes 3 ECE
Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 25 ECE 6340 Intermediate EM Waves 1.

Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 25 ECE 6340 Intermediate EM Waves 1.
Prof. David R. Jackson ECE Dept. Fall 2014 Notes 4 ECE 2317 Applied Electricity and Magnetism Notes prepared by the EM Group University of Houston 1.

Prof. David R. Jackson ECE Dept. Fall 2014 Notes 4 ECE 2317 Applied Electricity and Magnetism Notes prepared by the EM Group University of Houston 1.
Applied Electricity and Magnetism

Applied Electricity and Magnetism
Prof. David R. Jackson ECE Dept. Fall 2014 Notes 31 ECE 2317 Applied Electricity and Magnetism 1.

Prof. David R. Jackson ECE Dept. Fall 2014 Notes 31 ECE 2317 Applied Electricity and Magnetism 1.
Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 23 ECE 6340 Intermediate EM Waves 1.

Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 23 ECE 6340 Intermediate EM Waves 1.

Similar presentations

Ads by Google