Akademik Dersler - Tanıtım

Course Introduction Information


Code - Course Title	FİZ106 - Physics II
Course Type	Required Courses
Language of Instruction	İngilizce
Laboratory + Practice	4+0
ECTS	6.0
Course Instructor(s)	DOÇENT ZÜLEYHA ÖZTAŞ, DOKTOR ÖĞRETİM ÜYESİ OĞUZ ERTUĞRUL
Mode of Delivery	The course is delivered only by face to face instruction.
Prerequisites	There is no prerequisite or co-requisite for this course.
Courses Recomended	It is recommended that the student have taken the course Fiz105 before.
Recommended Reading List
Assessment methods and criteria	2 Mid-Term and 1 Final exams. Exams will be in the form of \\\'test\\\' and the success of a student will be determined based on the average of the class.
Work Placement	Not Applicable
Sustainability Development Goals

Content

Weeks	Topics
Week - 1	Electric Charges and Coulomb’s Law: a) Properties of electric charges b) Insulators and conductors c) Coulomb’s Law
Week - 2	Electric Field and the Motion in Electric Field: a) Electric field b)Electric field lines c) Electric field of a continuous charge distribution d) Motion of charged particles in a uniform electric field.
Week - 3	Gauss Law: a)Electric Flux b) Gauss Law c)Application of Gauss Law to insulators d) Conductors in Electrostatic Equilibrium
Week - 4	Electric Potential: a) Potential difference and electric potential b) Potential difference in a uniform electric field c) Electric potential and potential energy due to point charge d) Electric potential due to continuous charge distributions e) Obtaining electric field from the electric potential
Week - 5	Capacitors and Dielectrics: a) Definition of capacitance b) Calculation of capacitance c) Combinations of capacitors d) Capacitors with dielectrics e) Energy stored in a charged capacitor
Week - 6	Capacitors and Dielectrics: a) Defination of capacitance b) Caıculation of capacitance c) Combinations of capacitors d) Capacitors with dielectrics e) Energy stored in a charged capacitor
Week - 7	Current and Resistance: a)Electric current and current density b) Resistance and Ohm's Law c)Resistivity of metals d) Electrical energy and power
Week - 8	Direct Current Circuits: a)Electromotive Force b) Resistor in series and parellel c)Kirchhoff's Rules
Week - 9	Magnetic Fields: a) Definition and properties of the magnetic field b) Magnetic force on a current- carrying conductor c) Motion of a charged particle in a magnetic field
Week - 10	Sources of Magnetic Fields: a) Biot-Savart Law b) Magnetic force between two parallel conductors c) Amper's Law d) Magnetic Field of Solenoids
Week - 11	Sources of Magnetic Fields: a) Biot-Savart Law b) Magnetic force between two parallel conductors c) Amper's Law d) Magnetic Field of Solenoids
Week - 12	Faraday's Law: a) Faraday's Law of induction b)Magnetic Flux
Week - 13	Faraday's Law (continues): a) Motion and Induction b)Lenz's Law
Week - 14	Inductance: a) Self-inductance b) Energy in magnetic field c) Mutual inductance

Learning Activities and Teaching Methods

Teaching Methods
Lecture
Discussion
Question & Answer
Problem Solving
Competences
Rational
Questoning
Creative
Effective use of a foreign language
Use time effectively
Eleştirel düşünebilme
Abstract analysis and synthesis
Problem solving
To work autonomously
Elementary computing skills

Assessment Methods

Assessment Method and Passing Requirements
	Quamtity	Percentage (%)
1.Midterm Exam	1	30
2.Midterm Exam	1	30
Final Exam	1	40
Toplam (%)		100