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CHAPTER 2: VECTOR ANALYSIS

 

Section 2-2: Physical Quantities and Units (pp. 7-11)

 

        

 

 

Section 2-3: Vector Algebra (pp. 11-16)

 

            

 

           

 

   

 

 

Section 2-4: Orthogonal Coordinate Systems (pp. 16-33)

 

        

 

        

 

        

 

        

 

   

 

 

Section 2-5: The Calculus of Scalar and Vector Fields (pp. 33-55)

 

The Line Integral

 

        

 

        

 

 

 

The Surface Integral

 

        

 

        

 

       

 

 

The Volume Integral

 

        

 

 

The Gradient

 

        

 

   

 

Divergence

 

        

 

Curl

 

        

 

           

 

   

 

 

 

CHAPTER 3: ELECTROMAGNETIC SOURCES, FORCES, AND FIELDS

 

Section 3-2: Charge and Charge Density (pp. 62-63)

 

   

 

 

Section 3-3: Current and Current Density (pp. 63-68)

 

        

 

   

 

 

Section 3-4: The Law of Charge Conservation (pp. 68-71)

 

   

 

 

Section 3-5: Two Action-at-a-Distance Force Laws (pp. 71-75)

 

        

 

   

 

 

Section 3-6: The Lorentz Force Law and the Field Concept of Electromagnetics (pp. 75-81)

 

        

 

        

 

 

Section 3-7: Maxwell’s Equations (pp. 81-84)

 

 

CHAPTER 4: ELECTROSTATIC FIELDS IN FREE SPACE

 

Section 4-2: Maxwell’s Equations for Electrostatics in Free Space (pp. 88-90)

 

   

 

Section 4-3: Coulomb’s Law (pp. 90-93)

 

 

   

 

Section 4-4: E-field Calculations Using Coulomb’s Law (pp. 93-98)

 

        

 

Section 4-5: Field Computation Using Gauss’s Law (pp. 98-107)

 

        

 

 

Section 4-6: Voltage and Electric Potential (pp. 107- 116)

 

        

 

   

 

Section 4-7: Poisson’s and Laplace’s Equations (pp. 116-117)

 

 

 

 

CHAPTER 5: ELECTROSTATIC FIELDS IN MATERIAL MEDIA

 

Section 5-2: Conductors (pp. 123-132)

 

        

 

        

 

 

Section 5-3: Dielectrics (pp. 132-149)

 

        

 

        

 

 

 

 

Section 5-4: Electrostatic Boundary Value Problems (pp. 149-157)

 

        

 

   

 

 

CHAPTER 6: CAPACITANCE AND ELECTRIC ENERGY

 

Section 6-2: Capacitance (pp. 180-195)

 

        

 

 

Section 6-3: The Energy Contained in an Electrostatic Charge Distribution (pp.195-200)

 

 

 

Section 6-4: Energy Storage in Capacitors (pp. 200-201)

 

 

 

 

CHAPTER 7: MAGNETOSTATIC FIELDS IN FREE SPACE

 

Section 7-2: Maxwell’s Equatons for Magnetostatics in Free Space (pp. 206-207)

 

       

 

 

Section 7-3: The Biot-Savart Law and the Magnetic Vector Potential (pp. 208-218)

 

            

 

   

 

 

Section 7-4: Field  Calculations Using Ampere’s Law (pp. 218-227)

 

        

 

 

 

Section 7-5: Magnetic Potentials (pp. 227-236)

 

        

 

 

CHAPTER 8: MAGNETOSTATIC FIELDS IN MATERIAL MEDIA

 

Section 8-3: Magnetic Materials (244-260)

 

        

 

        

 

 

Section 8-4: Magnetic Boundary Value Problems (pp. 260-263)

 

Example: A Magnetic Boundary Value Problem

 

 

 

Section 8-5: Permanent Magnets and Magnetic Recording (pp.265-267)

 

 

 

 

CHAPTER 9:  MAGNETIC INDUCTANCE, ENERGY, AND FORCES

 

Section 9-2: Faraday’s Law of Induction (pp. 278-290)

 

        

 

   

 

Section 9-3:  Inductance (pp. 290-307)

 

        

 

   

 

Section 9-4:  Magnetic Forces and Torques (pp. 310-318)

 

 

 

CHAPTER 10: TIME-VARYING ELECTROMAGNETIC FIELDS

 

Section 10-2:  Displacement Current (pp. 326-330)

 

 

 

Section 10-3: Maxwell’s Equations for Time-Varying Fields (pp. 330-331)

 

 

 

 

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