Add to ORKGGoals: To develop an understanding of the classical theory of electric and magnetic fields. Content: Vector analysis, discrete and continuous charge distributions, Gauss\u27s law, boundary conditions, the equations of Laplace and Poisson, dielectric and magnetic materials, Maxwell\u27s equations. Taught: Alternate years. Prerequisites: PHYS 1240 and MATH 3720. Credits: 4 credit
The study of classical electromagnetic fields is an adventure. The theory is complete mathematically...
Outstanding undergraduate text features self-contained chapter on vector algebra and a chapter devot...
The course is a one semester first course on Electromagnetic Theory at B.Sc. level. This course woul...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Unit 1: ELECTROSTATICS-The Electric field-Point charge and continuous charge distributions-Divergenc...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Coulomb forces; electric fields and potentials; Lapace equation; boundary value problems and dielect...
Coulomb forces; electric fields and potentials; Lapace equation; boundary value problems and dielect...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Goals: To introduce students to the basic concepts of physics to develop skills in formulating and s...
This classic 1953 text for advanced undergraduates has been used by generations of physics majors. R...
The study of classical electromagnetic fields is an adventure. The theory is complete mathematically...
Outstanding undergraduate text features self-contained chapter on vector algebra and a chapter devot...
The course is a one semester first course on Electromagnetic Theory at B.Sc. level. This course woul...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Goals: To develop an understanding of the classical theory of electric and magnetic fields. Content...
Unit 1: ELECTROSTATICS-The Electric field-Point charge and continuous charge distributions-Divergenc...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Coulomb forces; electric fields and potentials; Lapace equation; boundary value problems and dielect...
Coulomb forces; electric fields and potentials; Lapace equation; boundary value problems and dielect...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Goals: To introduce students to the basic concepts of physics to develop skills in formulating and s...
This classic 1953 text for advanced undergraduates has been used by generations of physics majors. R...
The study of classical electromagnetic fields is an adventure. The theory is complete mathematically...
Outstanding undergraduate text features self-contained chapter on vector algebra and a chapter devot...
The course is a one semester first course on Electromagnetic Theory at B.Sc. level. This course woul...