Course Learning Outcomes (CLOs) are those describing the knowledge, skills and competencies that students are expected to achieve upon successful completion of the course. In this context, Course Learning Outcomes defined for this course unit are as follows:
| Week |
Subject |
Materials Sharing * |
|
Related Preparation |
Further Study |
| 1) |
Electric Fields; Properties of Electric Charges, Charging Objects by Inductions, Coulomb’s Law, The Electric Field, Electric Field of a Continuous Charge Distribution, Electric Field Lines, Motion of Charged Particles in a Uniform Electric Field |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 2) |
Assignment of projects. &
Gauss’s Law; Electric Flux, Gauss’s Law, Application of Gauss’s Law to Various Charge Distributions, Conductors in Electrostatic Equilibrium |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 3) |
Electric Potential; Potential Difference, Potential Difference in a Uniform Electric Field, Electric Potential and Potential Energy |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 4) |
Capacitance and Dielectrics; Capacitance, Calculating Capacitance, Combinations of Capacitors, Energy Stored in a Charged Capacitor, Capacitor with Dielectrics |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 5) |
Current and Resistance; Electric Current, Resistance, Ohm's Law, A Model for Electrical Conduction, Resistance and Temperature, Electrical Power |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 6) |
Direct Current Circuits; Electromotive Force, Resistors in Series and Parallel, Kirchoff’s Rules, RC Circuits, Electrical Meters |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 7) |
Submission of the first delivery of the project. &
Magnetic Fields; Magnetic Fields and Forces, Magnetic Force Acting on a Current-Carrying Conductor, Torque on a Current Loop in a Uniform Magnetic Field, Charged Particles Moving in a Magnetic Field, Hall Effect |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 8) |
Midterm |
|
|
| 9) |
Faraday’s Law; Faraday’s Law of Induction, Motional emf, Lenz’s Law, Induced emf and Electric Fields, Maxwell’s Equations |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 10) |
Inductance; Self-Inductance, RL Circuits, Energy in a Magnetic Field, Mutual Inductance, Oscillations in an LC Circuit |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 11) |
Alternating Current Circuits; AC Sources, Resistors in an AC Circuit, Inductors in an AC Circuit, Capacitors in an AC Circuit, |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 12) |
Submission of the first delivery of the project.
Alternating Current Circuits; AC Sources, Resistors in an AC Circuit, Inductors in an AC Circuit, Capacitors in an AC Circuit, |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 13) |
The RLC Series Circuit, Power in an AC Circuit, Resonance in a Series RLC Circuit, The Transformer and Power Transmission |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 14) |
Electromagnetic Waves; Maxwell’s Equations, Plane Electromagnetic Waves, Momentum and Radiation Pressure, The Spectrum of Electromagnetic Waves |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| 15) |
Submission of the final delivery of the project and presentation |
Reading assignment
Preparatory study
|
Project work
Homework assignment
|
| |
Programme Learning Outcomes |
Contribution Level (from 1 to 5) |
| 1) |
Has sufficient knowledge in mathematics, science and industrial engineering and can use theoretical and applied knowledge in these fields together to solve complex engineering problems |
4 |
| 2) |
Has skills and knowledge about how to accesses information,use databases and other information resources in order to comprehend problems |
1 |
| 3) |
Designs a complex system, process, device or product to meet certain requirements under realistic constraints and conditions; applies modern design methods for this purpose |
3 |
| 4) |
Selects and uses modern techniques and tools required to analyze complex problems and develop engineering solutions; uses information technologies effectively |
3 |
| 5) |
Owns the competencies to design and conduct experiments, collect data, analyze and interpret results to investigate complex engineering problems or discipline-specific research topics. |
|
| 6) |
Participates as a team member and takes responsibility in the environments that require the solving of the conflicts and acts as a leader when necessary. |
1 |
| 7) |
Knowledge of businessp practices such as project management, risk management and change management; knowledge of entrepreneurship and innovation |
|
| 8) |
Has awareness of the necessity of lifelong learning, follows developments in science and technology and renews itself continuously |
1 |
| 9) |
Acts responsibly and according to professional and ethical principles |
1 |
| 10) |
Can effectively communicate in a foreign language - English and in his/her own language, prepares and presents reports. |
|
| 11) |
Has knowledge and awareness about the universal and societal effects of engineering applications on health, social life, environment and security |
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