Phys 133 Electromagnetism

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Presentation transcript:

Phys 133 Electromagnetism Course outline and grading system Marlon F. Sacedon

COURSE NUMBER : PHYSICS 133 COURSE TITLE : Electromagnetism COURSE DESCRIPTION : Electric charge and Electric field, Gauss’s law, Electric potential, capacitance, current, resistance, electromotive force, direct-current circuits, magnetic field, magnetic forces, electromagnetic induction, inductance, alternating current, and electromagnetic waves. PREREQUISITE : Phys 16 6 hrs. a week (3 lec., 3 lab.) Credit: 4 units (3 units lec, 1 unit lab)

OBJECTIVE OF THE COURSE: To study and understand the principles behind electricity and magnetism

Electric Charge and Electric Field LECTURE COURSE CONTENT Electric Charge and Electric Field Coulomb’s Law, & Electric Field and Electric Forces Electric Field lines, & Electric Dipole 2. Gauss’s Law Electric flux Gauss’s Law 3. Electric Potential Electric Potential Energy, & Electric Potential Equipotential Surfaces and Potential Gradient 4. Capacitance and Dielectric Capacitors and Capacitance Capacitor in Series and Parallel 5. Current, Resistance, and Electromotive Force Current, Resistivity, & Resistance Electromotive Force and Circuits Energy and Power in Electric Circuits

6. Direct-Current Circuits Resistors in Series and Parallel, & Kirchhoff’s Rules Electrical Measuring Instrument, & Resistance-Capacitance Circuits 7. Magnetic Field and Magnetic Forces Magnetism and Magnetic field, & Magnetic Field Lines and Magnetic Flux Force and Torque on a Current Loop, & The Direct-Current Motor 8. Electromagnetic waves Maxwell’s equation and electromagnetic waves Plane electromagnetic waves and the speed of light Standing electromagnetic waves

Experiment # 1: Power transformer Experiment # 2: Diode LABORATORY COURSE CONTENT LABORATORY EXPERIMENTS Experiment # 1: Power transformer Experiment # 2: Diode Experiment # 3: Resistor Experiment # 4: Capacitor Experiment # 5: Transistor Experiment # 6: Light dependent resistor (LDR) Experiment # 7: Passive infrared (PIR) LABORATORY PROJECTS Project # 1: Dark Activating project Project # 2: Motion detector

Text Book: University Physics with Modern Physics 14ed [2015] Grading System: Physics 21 Final Grade = 1/3 Midterm Grade + 2/3 Post Midterm grade Term Grade = 1/3 Lecture Grade + 2/3 Laboratory Grade Lecture Grade = (Quizzes, Long exams, & Attendance) ÷ Total Points Laboratory Grade = (Exams, lab reports, projects & Attendance) ÷ Total Points Passing percentage : 60% Requirements: Assignments, lab reports, projects, & Problems Sets Class Policy: PASS BOTH (lec & lab) NO REMOVAL EXAM

For Midterm ELECTRONIC PROJECTS (Group project) Voltage regulator LM7806 Project No. 1: Dark Activating Circuit 1 pc 9v Battery (dry cell) 2 pc transistor BC 557 Solder dot prototyping board 2 pc LED (with 2 pcs 220Ω resistor) 1 pc Relay 6v (5pins) 1 pc Diode IN4001 Bread board 1 pc Light Dependent Resistor (LDR) 1 pc 100k potentiometer

For Final ELECTRONIC PROJECTS (Group project) Project No. 2: Motion detector 1 pc PIR Motion Sensor HC-SR501 2 pc transistor BC 547 2 pc LED (with 2 pcs 220Ω resistor) 1 pc Relay 5v (5pins) 1 pc Diode IN4001

Other materials needed Soldering iron Soldering lead Connecting wires Plier and cutter

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