Lesson plan / MATHEMATICAL PHYSICS-II

Lesson Information

Course Credit 3.0
Course ECTS Credit 6.0
Teaching Language of Instruction Türkçe
Level of Course Bachelor's Degree, TYYÇ: Level 6, EQF-LLL: Level 6, QF-EHEA: First Cycle
Type of Course Compulsory
Mode of Delivery Face-to-face
Does the course require compulsory or optional work experience? Z
Course Coordinator
Instructor (s)
Course Assistant

Purpose and Content

The aim of the course The purpose of lecture is to provide a calculus-based physics instruction to help students pursue advanced studies in engineering; develop critical thinking, conceptual and quantitative understanding of physical principles and gain skills for problem solving. The basic method of study will be to define the concepts, discuss and demonstrate the principles and laws, and to test and refine understanding by problem solving.
Course Content Topics in Electricity and Magnetism: Electric charges and matter, Coulomb's law, electric fields, electric field calculations, motion of a charged particle in electric field. Gauss's law, electric flux and Gauss's law, applications of Gauss's law. Electric potential and electric potential difference, electric potential energy, electric potential due to point charges and charge distributions. Capacitance and dielectrics, definition and calculations of capacitances, energy stored in capacitors, capacitors with dielectrics. Current and resistance, electric current, resistance, electrical conduction. Direct-current circuits, electromotive force, Kirchhoff's rules, applications. Magnetic fields, definition and properties of Magnetic fields. Magnetic forces on charges and currents, applications of magnetic fields. Sources of magnetic fields, the Biot-Sawart Law, Ampere's law. Faraday's law, Lenz's law, induced electric fields, generators and motors. Inductance, mutual and self inductance, RL circuits, energy in magnetic fields.

Weekly Course Subjects

1Mathematical Application of electric charges and matter, Coulomb's law, electric fields, motions of charged particles in electric fields.
2Mathematical Application of Gauss's law and various applications of Gauss's law.
3Mathematical Application of electric potential, electric potential energy, relations between electric potential and electric field.
4Mathematical Application of electric fields and electric potentials of point charges and continuous charge distributions.
5Mathematical Application of capacitors and dielectrics, capacitances of various capacitors, energy stored in capacitors, microscopic description of dielectrics.
6Mathematical Application of current and resistance and electromotive force. Electric power.
7Mathematical Application of direct current circuits, Krichhoff's rules, RC circuits.
8Mathematical Application of magnetic field, magnetic forces on moving charges and electric currents.
9Mathematical Application of various applications of magnetic fields.
10Mathematical Application of sources of magnetic field, Biot-Sawart law, Ampere's law.
11Mathematical Application of various applications of the Biot-Sawart law, Ampere's law.
12Mathematical Application of Faraday's law yasası, Lenz's law, induced electric fields, generators and motors.
13Mathematical Application of inductance, mutual and self inductance, RL circuits, energy stored in magnetic fields.
14Review of the topics.

Resources

1-Fen Bilimleri ve Mühendisler İçin Fizik 2 , Raymond A. Serway, Çeviri Editörü, Kemal Çolakoğlu, Palme Yayıncılık 5. Baskı