Mass training of trainers General Physics 2 Aug 2, 2017 Course outline, Policy, Grading system, and all about Lab Projects Prof. MARLON FLORES SACEDON Physics Instructor Visayas State University Baybay City, Leyte

COURSE NUMBER : PHYSICS 16 COURSE TITLE : Genral Physics IIa COURSE DESCRIPTION : Electromagnetism: Electric field and Electric Potentials, electric flux, Magnetic force and magnetic field, and Modern optics PREREQUISITE : Phys 13e 6 hrs. a week (3lec., 3 lab.) Credit: 4units (3 units lec, 1 unit lab)

OBJECTIVE OF THE COURSE: To study and understand the principles and laws behind electricity and magnetism, optics.

COURSE CONTENT ELECTRIC CHARGE, COULOMB’S, ELECTRIC FIELDS, AND ELECTRIC FLUX Electric Charge Insulators and conductors Induced charges Gauss’s Law Coulomb’s Law Electric force and electric fields Electric field calculations Charges on conductors Electric flux and Gauss’s Law Electric dipoles

COURSE CONTENT II. ELECTRIC POTENTIALS Electric potential energy Equipotential surfaces Potential gradient III. CAPACITANCE AND DIELECTRICS Capacitance and capacitors Dielectric IV. CURRENT, RESISTANCE, AND ELECTROMOTIVE FORCE Current, resistivity, and resistance Ohm’s Law Energy and power in electric circuits Electric safety Devices for measuring currents and voltages

COURSE CONTENT V. DIRECT-CURRENT CIRCUIT Resistors in series and in parallel Kirchhoff’s rules R-C circuits VI. FORCE DUE TO MAGNETIC FIELDS AND SOURCES OF MAGNETIC FIELDS Magnetic fields Lorentz Force Motion of charge particles in electric and magnetic fields Magnetic forces on current carrying wires Biot-Savart Law Ampere’s Law

COURSE CONTENT VII. MAGNETIC INDUCTION, INDUCTANCE, ALTERNATING CIRCUITS, & LC CIRCUITS Magnetic induction Faraday’s Law Alternating current LC circuits and other applications of magnetic induction VIII. LIGHT AS AN ELECTROMAGNETIC WAVE Maxwell’s synthesis of electricity, magnetism, and optics EM waves and light Law of Reflection Law of Refraction (Snell’s Law) Dispersion Polarization (Malus’s Law Applications problems

COURSE CONTENT IX. GEOMETRIC OPTICS Reflection and refraction at plane and spherical surfaces Mirrors Thin lens

Text Book: University Physics with Modern Physics 14ed [2015] Grading System: Final Grade = 1/3 Midterm Grade + 2/3 Post Midterm grade Term Grade = 2/3 Lecture Grade + 1/3 Laboratory Grade Lecture Grade = (Quizzes, Long exams, & Attendance) ÷ Total Points Laboratory Grade = (Exams, lab reports, electronic projects & Attendance) ÷ Total Points Passing percentage : 60% Requirements: Assignments, lab reports, electronic projects, & Problems Sets Class Policy: PASS BOTH (lec & lab) NO REMOVAL EXAM website: www.mfsacedon08.webs.com (for Exam results, grades, downloads, and other information)

For Midterm ELECTRONIC PROJECTS (Group project) Project No. 1: Cellphone charger [without transformer] 4 pcs Diodes IN4007 1 pc Condenser 470/50 1 pc Zener diode 5v 1 pc Capacitor Pf 22j /400v 1 pc Resistor 470kΩ/0.50watt 1 pc male plug with 1m wire 1 pc female USB 1 pc LED (with 1 pc 220Ω resistor) Solder dot prototyping board For Midterm

For Final term ELECTRONIC PROJECTS (Group project) Project No. 2: Motion detector 1 pc PIR Motion Sensor HC-SR501 1 pc transistor BC 547 1 pc LED (with 1 pc 220Ω resistor) 1 pc Relay 5v (5pins) 1 pc Bulb LED 9watts 220v or any appliances 1 pc Diode IN4001 1 pc Cellphone charger Solder dot prototyping board For Final term

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