- Code
- CMP 117
- Name
- Physics
- Semester
- 1
- Lecture hours
- 3.00
- Seminar hours
- 1.00
- Laborator hours
- 0.00
- Credits
- 3.50
- ECTS
- 5.00
- Description
-
The "Physics Course" is extended over one semester and aims to meet the requirements of every scientific and engineering discipline, for knowledge of physics. During the course special attention is dedicated to understanding the basic principles that guide general phenomena of nature.
- Objectives
- Java
- Tema
- 1
- Electrical field: Electric charge. Electrical field of a discrete charge distributions. Conductors and isolators. Coulomb's law. Electric field. Electric field lines. Motion of Point Charges in Electric Fields. pg. 1-26
- 2
- Electric field of a continuous charge distribution: Calculation of the electric field through Coulomb's law. Gauss theorem. Calculation of electric field intensity by Gauss theorem. pg. 34-58
- 3
- Electric field of a continuous charge distributions. Charges and fields on conductor surfaces. Equivalence of Gauss law with Coulomb law in electrostatics. pg. 60-68 Electrical potential: Potential difference. Potential due to a system of point charges. pg. 77-81
- 4
- Electric potential: Calculation of electric field by potential. Calculations of V for continuous charge distributions. Equipotential surfaces. Electrostatic potential energy. pg. 81-100
- 5
- Electrical capacity. Capacitance. Flat capacitor, cylindrical capacitor. Dielectrics, The storage of electrical energy. Combination of capacitors. pg. 110-129
- 6
- Electric current. Current and the Motion of Charges. Resistance and Ohm's Law. Energy in Electric Circuits. Combination of resistors. pg. 141-166
- 7
- Midterm exam
- 8
- DC circuits. Kirchhoff's Rules. RC circuits. Ammeters, voltmeters and ohmmeters. pg. 175-201
- 9
- Magnetic field. The force exerted by a magnetic field. Motion of a point charge in a magnetic field. Torques on current loops and magnets. Hall effect. pg. 213-238
- 10
- Magnetic field sources: The magnetic Field of moving point charges. The magnetic field of currents, the Biot-Savart law. Gauss's law of magnetism. Ampere's law. Magnetism in matter. pg. 247-269
- 11
- Magnetic induction: Magnetic flux. Induced EMF and Faraday's Law. Lens Law. Motional EMF. Eddy currents. Inductance. pg. 279-301
- 12
- Magnetic induction: Magnetic energy. Circuits RL. pg. 301-306 AC circuits. Alternating current in a resistor. Alternating currents in inductors and capacitors. pg. 343-350
- 13
- AC circuits. Rotational vectors. LC and RLC circuits without generator. The RLC circuits with a generator. The ideal transformers. pg. 353-375
- 14
- Maxwell equations and electromagnetic Waves: Displacement current. Maxwell's equations. Wave equation of electromagnetic waves. Electromagnetic radiation. pg. 386-406
- 15
- Properties of light: Speed of light. Light scattering. Huygens principle. Reflection and refraction. Polarization. Laws of reflection and refraction. pg. 415-442
- 16
- Final Exam
- 1
- Studentët duhet të zotërojnë njohuri të përgjithëshme të parimeve kryesore të fizikës dhe të mënyrës se si ato zbatohen në disiplina inxhinierike
- 2
- Studentët duhet të demonstrojnë aftësi në përdorimin e metodës shkencore, për të kuptuar dhe shpjeguar konceptet fizike
- 3
- Studentët duhet të jenë në gjendje të analizojnë sistemet mekanike me qasje të ndryshme
- 4
- Studentët duhet të zgjidhin një shumllojshmëri problemash fizike, në mënyrë sistematike, llogjike dhe sasiore, duke shfrytëzuar teknikat e përshtatshme matematike
- Quantity Percentage Total percent
- Midterms
- 1 30% 30%
- Quizzes
- 0 0% 0%
- Projects
- 1 15% 15%
- Term projects
- 0 0% 0%
- Laboratories
- 0 0% 0%
- Class participation
- 1 10% 10%
- Total term evaluation percent
- 55%
- Final exam percent
- 45%
- Total percent
- 100%
- Quantity Duration (hours) Total (hours)
- Course duration (including exam weeks)
- 16 4 64
- Off class study hours
- 14 4 56
- Duties
- 1 1 1
- Midterms
- 1 2 2
- Final exam
- 1 2 2
- Other
- 0 0 0
- Total workLoad
- 125
- Total workload / 25 (hours)
- 5.00
- ECTS
- 5.00