ࡱ> QSP{ w!bjbjzz @Jg NNNNNbbb8TTb4-B,,,,,,,$2/1,N,NN,,;!;!;!NN,;!,;!;!1*hI+m#&_{*4},,<4-*|~2o~2 I+I+~2N]+ ;!,, *4-~2 :  GROSSMONT COLLEGE Official Course Outline PHYSICS 240 ELECTRICITY, MAGNETISM, AND HEAT 1. Course Number Course Title Semester Units Semester Hours PHYC 240 Electricity, Magnetism, 4 3 hours lecture and Heat 3 hours laboratory 96-108 total hours 2. Course Prerequisites A C grade or higher or Pass in Physics 140 or equivalent. A C or Pass grade or higher or concurrent enrollment in Math 280 or equivalent. Corequisite None Recommended Preparation None. 3. Catalog Description This is part of a three-semester, calculus level sequence of physics courses designed for engineering, physics, mathematics, and science students. The topics of heat, electricity, and magnetism are introduced at the beginning level with reliance upon students' ability to apply topics introduced in Physics 140. The laboratory provides emphasis on measurements using gas laws and of electric and magnetic fields, DC and AC circuits, and oscilloscope techniques. 4. Course Objectives listnum "WP List 1" \l 1 The student will: listnum "WP List 1" \l 2 Describe basic concepts in electricity, magnetism, and heat and apply laws and principles of physics to events related to these topics. listnum "WP List 1" \l 2 Analyze thermodynamic systems in terms of the gas laws and the first and second laws of thermodynamics. c. Analyze systems of charges and current distributions to determine electric fields and potentials and magnetic fields d. Predict the trajectory of charged particle in electric and magnetic fields. e. Analyze circuits in terms of current, potential difference, and power dissipation. f. Analyze written problems on all topics to determine which physical laws and concepts are required for the solutions. g. Calculate solutions to physics problems using the fundamental principles of physics and algebraic, trigonometric, and calculus principles. h. Employ basic measurement equipment and laboratory techniques to study the laws and principles used in the course. i. Assess the importance of measurement errors in laboratory experiments and evaluate experimental results in terms of expected results. PHYSICS 240 ELECTRICITY, MAGNETISM, AND HEAT page 2 5. Instructional Facilities listnum "WP List 1" \l 1 listnum "WP List 1" \l 2 Standard classroom with computer connectivity and room for demonstrations. b. Complete physics laboratory demonstration and experimentation equipment. c. Laboratory work stations with electricity, gas, water, vacuum, air, and wireless computer connectivity d. Laboratory room must include facility for darkening completely. e. Classroom and laboratory room must include audiovisual equipment. f. Computer lab. 6. Special Materials Required of Student listnum "WP List 1" \l 1 listnum "WP List 1" \l 2 Protractor and ruler. listnum "WP List 1" \l 2 Simple drawing instruments. c. Scientific calculator. d. Laboratory notebook. 7. Course Content Lecture Kinetic Theory The first and second laws of thermodynamics: entropy Heat engines Electrostatics Electric fields and potentials Gausss Law DC circuits, including capacitors and resistors Magnetic fields Amperes law Motion of charged particles in uniform electric and magnetic fields AC circuits Faradays and Lenzs Laws Maxwells equations Techniques of problem solving using dynamical equations or conservation principles, as appropriate. Laboratory Use of basic and advanced equipment to perform experiments illustrative of the topics covered in lecture. Analysis of experimental data, including appropriate use of error propagation, units, and significant figures. 8. Method of Instruction listnum "WP List 1" \l 1 listnum "WP List 1" \l 2 Lecture and demonstrations b. Collaborative learning and group discussion. c. Instructor guided problem solutions and individualized instruction. d. Multimedia presentations. e. Computer-aided instruction in lecture hours f. Student-performed laboratory experiments. PHYSICS 240 ELECTRICITY, MAGNETISM, AND HEAT page 3 9. Methods of Evaluating Student Performance listnum "WP List 1" \l 1 Final grade will be determined based on student performance of two or more of the following. In all areas, students will demonstrate critical thinking application skills based on the concepts studied in class. listnum "WP List 1" \l 2 Lab reports and personal observation of laboratory technique. listnum "WP List 1" \l 2 Quizzes and written or multiple choice exams including a written final exam, requiring application of principles and laws to specific problems, including diagrams. c. Written and/or online homework assignments d. Practical laboratory exams. 10. Outside Class Assignments a. Required reading in the text. b. Completion of pre-class and post-class exercises and pre-lab and post-lab exercises. c. Library and internet research. d. Completion of homework assignments and completion of written laboratory work. 11. Texts listnum "WP List 1" \l 1 listnum "WP List 1" \l 2 Required text(s): listnum "WP List 1" \l 3 Tipler, Paul and Gene Mosca. Physics for Scientists and Engineers. 6th edition Gordonsville, VA: W. H. Freeman & Co., 2004. (2) Halliday, David, Resnick, Robert, and Walker, Jearl, Fundamentals of Physics, 9th edition, Hoboken, NJ, John Wiley & Sons, Inc., 2011 (3) Knight, Randall, Physics for Scientists and Engineers - a Strategic Approach, 3rd edition, Upper Saddle River, NJ, Pearson Education,. 2012. (4) Young, Hugh D., Freedman, Roger A., and Ford, A. Lewis, University Physics, 13th edition, Upper Saddle River, NJ, Pearson Education, 2012 b. Supplementary texts and workbooks: Laboratory manual and procedures developed by instructor Addendum: Student Learning Outcomes Upon completion of this course, our students will be able to do the following: Apply the first and second laws of thermodynamics to systems involving solids and ideal gasses. Calculate electric fields and potentials. Recognize when magnetic fields are present and calculate their properties. Apply the laws of motion and conservation principles to charged particles. Analyze electrical circuits containing a variety of components. Employ laboratory equipment and techniques to acquire experimental measurements, interpret the data, and communicate the results in a coherent manner. 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