Jawadcheayto

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or more generally in theoretical physics. Additionally,

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or more generally in theoretical physics. Additionally, the course introduces the students to the mechanics of rigid bodies. COURSE PRE-REQUISITE: Mechanics. Calculus. Elements of electromagnetism....

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or more generally in theoretical physics. Additionally, the course introduces the students to the mechanics of rigid bodies. COURSE PRE-REQUISITE: Mechanics. Calculus. Elements of electromagnetism....

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or more generally in theoretical physics. Additionally, the course introduces the students to the mechanics of rigid bodies. COURSE PRE-REQUISITE: Mechanics. Calculus. Elements of electromagnetism....

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or more generally in theoretical physics. Additionally, the course introduces the students to the mechanics of rigid bodies. COURSE PRE-REQUISITE: Mechanics. Calculus. Elements of electromagnetism....

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or more generally in theoretical physics. Additionally, the course introduces the students to the mechanics of rigid bodies. COURSE PRE-REQUISITE: Mechanics. Calculus. Elements of electromagnetism....

The main objective of this course is to introduce students of physics to the 'modern' formalism of classical (or Newtonian) mechanics, especially Lagrangian and Hamiltonian mechanics. An important part of the course will focus on introducing the variational methods and principles in mechanics, or or more generally in theoretical physics. Additionally, the course introduces the students to the mechanics of rigid bodies. COURSE PRE-REQUISITE: Mechanics. Calculus. Elements of electromagnetis...

Electromagnetism course covering content in David Cheng fundamentals of electromagnetics engineering

This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic fields. The course presents boundary values problems and Maxwell's equations in their local and integral forms. In this chapter we covered: Addition of Vectors Multiplication of Vectors Vector Product Mixed Scalar Product Mixed Vector Product Cartesian-Polar-Cylindrical-Spherical coordinates Gradient of a scalar function Divergence of a vector...

This is a calculus based electromagnetism course which goes into the details of dielectric and magnetic materials under electric and magnetic fields. The course presents boundary values problems and Maxwell's equations in their local and integral forms. In this chapter we covered: Axioms of Magnetic fields Ampere's Law Biot-Savart Law Magnetization and equivalent current densities Magnetic field Intensity and Permeability Behaviour of Magnetic Materials Boundary conditions of magneti...