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BASIC ELEKTRICITY II COURSE IDENTIFICATION AND APPLICATION INFORMATION

Code Name of the Course Unit Semester In-Class Hours (T+P) Credit ECTS Credit
HEE102 BASIC ELEKTRICITY II 2 2 2 4

WEEKLY COURSE CONTENTS AND STUDY MATERIALS FOR PRELIMINARY & FURTHER STUDY

Week Preparatory Topics(Subjects) Method
1 Capacitance/Capacitor Capacitor operation and operation; Factors affecting flange capacitance area, distance between flanges, number of flanges, dielectric and dielectric invariance, operating voltage, voltage voltage; Capacitor types, structure and function; Capacitor color coding; Capacitance and voltage calculations in series and parallel circuits; Exponential charge and discharge of capacitor, time constants; Testing capacitors. -
2 Capacitance/Capacitor Capacitor operation and operation; Factors affecting flange capacitance area, distance between flanges, number of flanges, dielectric and dielectric invariance, operating voltage, voltage voltage; Capacitor types, structure and function; Capacitor color coding; Capacitance and voltage calculations in series and parallel circuits; Exponential charge and discharge of capacitor, time constants; Testing capacitors. -
3 Capacitance/Capacitor Capacitor operation and operation; Factors affecting flange capacitance area, distance between flanges, number of flanges, dielectric and dielectric invariance, operating voltage, voltage voltage; Capacitor types, structure and function; Capacitor color coding; Capacitance and voltage calculations in series and parallel circuits; Exponential charge and discharge of capacitor, time constants; Testing capacitors. -
4 Magnetism theory of magnetism; Properties of the magnet; The movement of the magnet suspended in the earth's magnetic field; Magnetization and demagnetization; Magnetic shielding; Various types of magnetic materials; Structure and working principles of electromagnets; The "hand" rules that determine the magnetic field around a current carrying conductor; -
5 Magnetism theory of magnetism; Properties of the magnet; The movement of the magnet suspended in the earth's magnetic field; Magnetization and demagnetization; Magnetic shielding; Various types of magnetic materials; Structure and working principles of electromagnets; The "hand" rules that determine the magnetic field around a current carrying conductor; -
6 Magnetism theory of magnetism; Properties of the magnet; The movement of the magnet suspended in the earth's magnetic field; Magnetization and demagnetization; Magnetic shielding; Various types of magnetic materials; Structure and working principles of electromagnets; The "hand" rules that determine the magnetic field around a current carrying conductor; -
7 magnetism Inductance/Inductor Magneto motor strength, field strength, magnetic flux density, permeability, hysteresis loop, residual magnet flux density, magnetic resistance to demagnetizing force, saturation point, eddy currents; Precautions for the care and storage of magnets. Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. -
8 - MID-TERM EXAM -
9 Inductance/Inductor Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. -
10 Inductance/Inductor Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. -
11 Inductance/Inductor DC Motor/Generator Theory Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
12 DC Motor/Generator Theory Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
13 DC Motor/Generator Theory Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
14 DC Motor/Generator Theory Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
15 - FINAL EXAM -
16 - FINAL EXAM -
17 - FINAL EXAM -