Ordu University Lifelong Learning Programme

Description of Individual Course Units

Course Unit Code	Course Unit Title	Type of Course Unit	Year of Study	Semester	Number of ECTS Credits
IMO2062013331	PHYSICS II	Compulsory	2	4	5

Level of Course Unit

First Cycle

Objectives of the Course

The purpose of this course, students understand the historical development of physics and philosophy, physics, mechanical issues in the past to have the basic knowledge and skills, all of the necessary information and skills and use these skills to be an effective teacher is to provide level access.

Name of Lecturer(s)

Dr. Göksel KAYA

Learning Outcomes

1	To understand the historical development of physics and philosophy.
2	To understand the basic laws of physics in mechanical and to apply them in part of everyday life.
3	To understand Measurement and Unit Systems.
4	To understand the basic elements of mechanics.
5	To solve problems related to the basic elements of mechanics.

Mode of Delivery

Formal Education

Prerequisites and co-requisities

None

Recommended Optional Programme Components

None

Course Contents

ELECTRIC FIELDS (Properties of Electric Charges- Insulators and Conductors-Coulomb's Law-Electric Field--Electric Field of Continuous Charge Distribution- Electric Field Lines-Motion of Charged Particles in Uniform Electric Field)GAUSS 'LAW (Electric Flux -Gauss's Law- Application of Gauss's Law to Charged Insulators-Conductors in Electrostatic Equilibrium)ELECTRIC POTENTIAL (Electric Potential and Potential Difference- Potential Difference in Uniform Electric Field-Electric Potential and Potential Energy Due to Point Charges- Obtaining the Electrical Potential of the Electric Field Electric Potential Generated by Continuous Charge Distribution- Potential of a Charged Conductor)CAPACITANCE AND DIELECTRICS (Definition of Capacitance-Calculation of Capacitance –Connecting Capacitors- Energy Stored in a Charged Capacitor-Capacitors with Dielectrics)CURRENT and RESISTANCE (Electric Current-Resistance and Ohm's Law- Model for Electric Conductivity-Resistance and Temperature-Electrical Energy and Power)DIRECT CURRENT CIRCUITS (Electromotive Force-Series and Parallel Circuits Resistors-Kircoff Rules-RC Circuits),MAGNETIC FIELDS (Magnetic Field- Magnetic Force Acting on a Current Carrying Conductor- Torque on a Current Loop in an Uniform Magnetic Field- Motion of a Charged Particle in an Uniform Magnetic Field )MAGNETIC FIELD SOURCES (Biot-Savart Law-.magnetic force between two parallel conductors-Ampere's Law-.Magnetic Field of Solenoid -Magnetic Flux Gauss's Law in Magnetism-Hall Effect- Magnetic Properties of Matter)FARADAY'S LAW (Law of Faraday Induction -Lenz's Law-Motional emf-Inductance-Magnetic Field Energy,)ALTERNATING CURRENT CIRCUITS (AC Generators and Phasors-. Electric Motors-Transformers and Power Transmission)ELECTROMAGNETIC WAVES (Maxwell's Equations and Hertz's discoveries-Plane Electromagnetic Waves -Energy of Electromagnetic Waves- Radiation Pressure -Momentum)

Weekly Detailed Course Contents

Week	Theoretical	Practice	Laboratory
1	ELECTRIC FIELDS (Properties of Electric Charges- Insulators and Conductors-Coulomb's Law-Electric Field--Electric Field of Continuous Charge Distribution- Electric Field Lines-Motion of Charged Particles in Uniform Electric Field)
2	ELECTRIC FIELDS (Properties of Electric Charges- Insulators and Conductors-Coulomb's Law-Electric Field--Electric Field of Continuous Charge Distribution- Electric Field Lines-Motion of Charged Particles in Uniform Electric Field)
3	GAUSS 'LAW (Electric Flux -Gauss's Law- Application of Gauss's Law to Charged Insulators-Conductors in Electrostatic Equilibrium))
4	ELECTRIC POTENTIAL (Electric Potential and Potential Difference- Potential Difference in Uniform Electric Field-Electric Potential and Potential Energy Due to Point Charges- Obtaining the Electrical Potential of the Electric Field Electric Potential Generated by Continuous Charge Distribution- Potential of a Charged Conductor)
5	ELECTRIC POTENTIAL (Electric Potential and Potential Difference- Potential Difference in Uniform Electric Field-Electric Potential and Potential Energy Due to Point Charges- Obtaining the Electrical Potential of the Electric Field Electric Potential Generated by Continuous Charge Distribution- Potential of a Charged Conductor)
6	CAPACITANCE AND DIELECTRICS (Definition of Capacitance-Calculation of Capacitance –Connecting Capacitors- Energy Stored in a Charged Capacitor-Capacitors with Dielectrics)
7	CURRENT and RESISTANCE (Electric Current-Resistance and Ohm's Law- Model for Electric Conductivity-Resistance and Temperature-Electrical Energy and Power)
8	Midterm
9	DIRECT CURRENT CIRCUITS (Electromotive Force-Series and Parallel Circuits Resistors-Kircoff Rules-RC Circuits)
10	MAGNETIC FIELDS (Magnetic Field- Magnetic Force Acting on a Current Carrying Conductor- Torque on a Current Loop in an Uniform Magnetic Field- Motion of a Charged Particle in an Uniform Magnetic Field )
11	MAGNETIC FIELD SOURCES (Biot-Savart Law-.magnetic force between two parallel conductors-Ampere's Law-.Magnetic Field of Solenoid -Magnetic Flux Gauss's Law in Magnetism-Hall Effect- Magnetic Properties of Matter)
12	MAGNETIC FIELD SOURCES (Biot-Savart Law-.magnetic force between two parallel conductors-Ampere's Law-.Magnetic Field of Solenoid -Magnetic Flux Gauss's Law in Magnetism-Hall Effect- Magnetic Properties of Matter)
13	FARADAY'S LAW (Law of Faraday Induction -Lenz's Law-Motional emf-Inductance-Magnetic Field Energy,)
14	ALTERNATING CURRENT CIRCUITS (AC Generators and Phasors-. Electric Motors-Transformers and Power Transmission)
15	ELECTROMAGNETIC WAVES (Maxwell's Equations and Hertz's discoveries-Plane Electromagnetic Waves -Energy of Electromagnetic Waves- Radiation Pressure -Momentum)
16	Final exam