# Ec2253

Topics: Magnetic field, Electromagnetism, Maxwell's equations Pages: 11 (1766 words) Published: February 18, 2013
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LESSON PLAN |
LP – EC2253
LP Rev. No: 01

Date: 16/12/10

Page: 01 of 06 | |
| | | | | |Sub Code & Name: EC2253 - ELECTROMAGNETIC FIELDS | | | |Unit : I Branch : EC Semester :IV | |

UNIT ISTATIC ELECTRIC FIELDS 9

Introduction to Co-ordinate System-Rectangular-Cylindrical and Spherical Co-ordinate system-Introduction to line, Surface and Volume Integrals-Definition of Curl, Divergence and Gradient-Meaning of Strokes theorem and Divergence theorem. Coulomb’s Law in Vector Form – Definition of Electric field Intensity-Principle of Superposition-Electric field due to discrete charges-Electric field due to continuous charge distribution-Electric field due to charges distributed uniformly on an infinite and finite line-Electric Field on the axis of a uniformly charged circular disc-Electric Field due to an infinite uniformly charged sheet. Electric Scalar Potential-Relationship between potential and electric field-Potential due to infinite uniformly charged line-Potential due to electrical dipole-Electric Flux Density-Gauss Law-Proof of Gauss Law-Applications.

Objective: To analyze field potentials due to static charges.

|Session No. |Topics to be covered |Time |Ref |Teaching Method | |1. |Introduction to Co-Ordinate System |50m |1,4,6 |BB | |2. |Rectangular-Cylindrical and Spherical Co-ordinate system, Problems |50m |1,4,6 |BB | |3. |Introduction to line, Surface and Volume Integrals, Definition of Curl, |50m |1,4,7 |BB | | |Divergence and Gradient, Problems | | | | |5. |Meaning of Strokes theorem and Divergence theorem, Problems |50m |1,4,7 |BB | |6. |Coulomb’s Law in Vector Form – Definition of Electric field Intensity, Problems |50m |1,4,6 |BB | |7. |Principle of Superposition, Problems, Electric field due to discrete |50m |1,3,6 |BB | | |charges-Electric field due to continuous charge distribution, Problems | | | | |8. |Electric field due to charges distributed uniformly on an infinite and finite |50m |1,4,6,7 |BB | | |line. | | | | |9. |Electric Field on the axis of a uniformly charged circular disc, Problems |50m |1,6,7 |BB | |10. |Electric Field due to an infinite uniformly charged sheet, Problems |50m |1,4,6,7 |BB | |11. |Electric Scalar Potential-Relationship between potential and electric field, |50m |1,4,7 |BB | | |Problems | | | | |12. |Potential due to infinite uniformly charged line-Potential due to electrical |50m |1,3, 4,6,7|BB | | |dipole, Problems | |...