Physics 9 page 1/6 Physics 9, Introductory Physics II Fall 2011 - Course Description - Instructor: Dr. Derrick Kiley Office: AOB 177; Office Phone 209 228-3077 E-mail Address: dkiley@ucmerced.edu. Course Webpage: http://faculty.ucmerced.edu/dkiley/physics9fall2011.html. Class meets: 8:30-9:20, Monday, Wednesday, & Friday in CB 105. Office hours: Mondays, and Wednesdays 12:00-1:00 in AOB 177. Teaching Assistants: Somnath Ghosh, sghosh3@ucmerced.edu Dan Hu, dhu2@ucmerced.edu Chuanjin Lan, clan@ucmerced.edu TA Office Hours: Somnath Ghosh/(Erik Menke), Wednesdays, 1:30-3:30. Dan Hu, Mondays, 3:30-5:30. Chuanjin Lan, Thursdays, 2:00-3:00. Textbook: Physics for Scientists and Engineers: A Strategic Approach with Modern Physics and MasteringPhysics (2nd Edition), by Randall D. Knight. There is a supplementary student workbook that is included with the text if you buy it at the campus bookstore. Topics and Outlook: In this course we will be introducing the basic ideas of electricity and magnetism. This is a very large and very interesting subject, covering many aspects of physics. In fact, by the time you finish this course, coupled with what you learned in physics 8, you will have an introductory understanding of almost all of classical physics! (The last major topic in classical physics, thermodynamics, will be covered during your next semester, in Physics 10.) Electricity and magnetism covers far more than simply Coulomb s law. As we will see, with the three exceptions of gravity, the force responsible for radioactive decay, and that holding the nucleus together, electromagnetism is responsible for everything else in physics! In this course, we will begin with the simple laws of electrostatics, discussing the electric field. We will introduce the concept of electric potential which, far from being a simple mathematical convenience, represents a deeper understanding of the the origins of the electric field. Next, we will discuss the basic circuit elements and learn how to analyze circuit diagrams. From there we will discuss magnetism. As we investigate magnetic phenomena we will see that while a static charge produces only an electric field, moving that charge around creates a magnetic field! A changing electric field produces a magnetic field, while a changing magnetic field produces an electric field. It is clear, then, that electricity and magnetism are not independent, but rather simply different aspects of the same thing - theelectromagnetic field! Everything we have discussed can be condensed into four equations, known as the Maxwell Equations, which we will then write down. Things are even more interesting when we realize that light is wiggles and oscillations in the electromagnetic field. Thus, in four very simple equations, Maxwell was able to unify electricity, magnetism, and even light! It will be the topic of this course to tell this story in some detail. 1
Physics 9 page 2/6 - Tentative Syllabus - All Dates Approximate! Topic Date Sections in Text Electric Charges and Forces Friday August 26 26.1 26.3 Electric Charges and Forces Monday August 29 26.4 26.5 The Electric Field Wednesday August 31 27.1 27.2 The Electric Field Friday September 2 27.3 27.4 Labor Day - NO SCHOOL! Monday September 5 The Electric Field Wednesday September 7 27.5 27.7 Gauss s Law Friday September 9 28.1 28.2 Gauss s Law Monday September 12 28.3 28.4 Gauss s Law Wednesday September 14 28.5 28.6 The Electric Potential Friday September 16 29.1 29.3 The Electric Potential Monday September 19 29.4 29.7 Potential and Field Wednesday September 21 30.1 30.3 Potential and Field Friday September 23 30.4 30.7 Current and Resistance Monday September 26 31.1 31.3 Current and Resistance Wednesday September 28 31.3 31.5 Fundamentals of Circuits Friday September 30 32.1 32.5 Fundamentals of Circuits Monday October 3 32.5 32.9 Midterm Review Wednesday October 5 MIDTERM 1!!! Friday October 7 The Magnetic Field Monday October 10 33.1 33.3 The Magnetic Field Wednesday October 12 33.4 33.5 The Magnetic Field Friday October 14 33.7 33.10 Electromagnetic Induction Monday October 17 34.1 34.3 Electromagnetic Induction Wednesday October 19 34.4 34.6 Electromagnetic Induction Friday October 21 34.7 34.10 AC Circuits Monday October 24 36.1 36.2 AC Circuits Wednesday October 26 36.3 36.4 AC Circuits Friday October 28 36.5 36.6 Electromagnetic Fields and Waves Monday October 31 35.1 35.2 Electromagnetic Fields and Waves Wednesday November 2 35.3 35.5 Electromagnetic Fields and Waves Friday November 4 35.6 35.7 Midterm Review Monday November 7 MIDTERM 2!!! Wednesday November 9 Veteran s Day - NO SCHOOL! Friday November 11 2
Physics 9 page 3/6 - Tentative Syllabus - All Dates Approximate! Topic Date Sections in Text Traveling Waves Monday November 14 20.1 20.4 Traveling Waves Wednesday November 16 20.4 20.7 Superposition Friday November 18 21.1 21.4 Superposition Monday November 21 21.4 21.7 Wave Optics Wednesday November 23 22.1 22.3 Thanksgiving - NO SCHOOL! Friday November 25 Wave Optics Monday November 28 22.3 22.6 Ray Optics Wednesday November 30 21.1 23.3 Ray Optics Friday December 2 23.4 23.6 Ray Optics Monday December 5 23.6 23.8 Final Review Wednesday December 7 FINAL EXAM!!!! Tuesday December 13 11:30 2:30 Grading: The grading will be based on the final (25%), two midterms (20% each), 14 homework sets (25% total), and the discussion/lab sessions (10% total). Homework There will be 14 homework assignments, each assigned on Fridays, and due by the end of class the following Fridays, giving you one week to finish them. We will do our best to give plenty of partial credit, so always attempt the problems, even if you don t finish them. Because the homework solutions will be posted immediately, no late homework will be accepted! While you are of course permitted (and even encouraged) to work together, it is your responsibility to complete, understand, and hand in your own assignment. Exams Midterm: There will be two midterms, tentatively scheduled for Friday, October 7th, and Friday, November 11th. The midterms will be cumulative, and will cover the material covered up to that point (although later material will likely be emphasized). Final: Tuesday, December 13: 11:30 2:30. The final exam will be comprehensive. Both exams are closed book. If some complicated formulas are needed (such as a nasty integral) they will be provided, as will any required numerical values, etc. You may use calculators. You should bring your student ID along so that your identity may be verified, if necessary. 3
Physics 9 page 4/6 Discussion/Lab Sessions Part of the course includes a discussion/laboratory (DL) session, led by Dr. Kiley, Somnath Ghosh, Dan Hu, and Chuanjin Lan. These sessions meet twice a week and will contribute a large amount to the course, so it is important that you attend these. During certain sessions you will perform experiments, while during others you will work problems. These DL meetings contribute 10% to your grade, and are manditory. The TAs are in charge of the DLs! 02D M 11:30 a.m. 1:20 p.m. COB 262, Somnath Ghosh/Erik Menke 02L W 11:30 a.m. 1:20 p.m. SE Building 111, Somnath Ghosh/Erik Menke 03D M 1:30 p.m. 3:20 p.m. COB 262, Derrick Kiley 03L W 1:30 p.m. 3:20 p.m. SE Building 111, Derrick Kiley 04D T 8:00 a.m. 9:50 a.m. COB 262, Dan Hu 04L R 8:00 a.m. 9:50 a.m. SE Building 111, Dan Hu 05D T 10:00 a.m. 11:50 a.m. COB 282, Dan Hu 05L R 10:00 a.m. 11:50 a.m. SE Building 111, Dan Hu 07D M 3:30 p.m. 5:20 p.m. COB 282, Somnath Ghosh/Erik Menke 07L W 3:30 p.m. 5:20 p.m. SE Building 111, Somnath Ghosh/Erik Menke 08D T 12:00 p.m. 1:50 p.m. KL 396, Chuanjin Lan 08L R 12:00 p.m. 1:50 p.m. SE Building 111, Chuanjin Lan There will be six labs each meeting during your regularly scheduled DL time. The labs will be in the Science and Engineering (SE) Building 111. - Tentative Lab Schedule - Topic Date Equipotentials Monday September 19 DC Circuits Monday October 3 Electromagnetism Monday October 17 Oscilloscopes Monday November 14 Diffraction Monday November 28 Optics Monday December 5 Tutoring Services Free drop-in tutoring is available at the Student Advising and Learning Center. You can check out their website at http://learning.ucmerced.edu/ for more information. 4
Physics 9 page 5/6 Learning Objectives for Physics 9 Upon completion of Physics 9, you should understand: That electric fields are produced by electric charges. That magnetic fields are produced by electric currents. The concepts of capacitance, resistance, and inductance in conductors and ultimately in electrical circuits. That electric and magnetic fields are not distinct phenomena, but are simply different aspects of a single electromagnetic field. That light is oscillations in the electromagnetic field. That several waves can interact with each other leading to constructive or destructive interference. That light bends and travels at a different speed when it passes from one medium to another. Learning Outcomes for Physics 9 Upon completion of Physics 9, you should be able to: Use Gauss s Law to calculate the electric field from a static charge distribution. Use Ampere s Law to calculate the magnetic field from a steady current distribution. Evaluate DC and AC circuits. Calculate induced electric fields from a changing magnetic field. Calculate induced magnetic fields from a changing electric field. Use the wave theory of light to calculate observable effects such as diffraction. Calculate the angle of refraction when light changes the medium of propagation. Calculate image properties using ray optics techniques. 5
Physics 9 page 6/6 Academic integrity Academic integrity is the foundation of an academic community and without it none of the educational or research goals of the university can be achieved. All members of the university community are responsible for its academic integrity. Existing policies forbid cheating on examinations, plagiarism and other forms of academic dishonesty. The current policies for UC Merced are described in the UC Merced Interim Academic Honesty Policy and Adjudication Procedures available from Students First Center, Student Life, Residence Life and College One. Information is available through the Student Judicial Affairs link on the Student Life web page. http://studentlife.ucmerced.edu/. Examples of academic dishonesty include: Receiving or providing unauthorized assistance on examinations. Using unauthorized materials during an examination. Plagiarism - using materials from sources without citations. Altering an exam and submitting it for re-grading. Fabricating data or references. Using false excuses to obtain extensions of time or to skip coursework. The ultimate success of a code of academic conduct depends largely on the degree to which the students fulfill their responsibilities towards academic integrity. These responsibilities include: Be honest at all times. Act fairly toward others. For example, do not disrupt or seek an unfair advantage over others by cheating, or by talking or allowing eyes to wander during exams. Take group as well as individual responsibility for honorable behavior. Collectively, as well as individually, make every effort to prevent and avoid academic misconduct, and report acts of misconduct which you witness. Do not submit the same work in more than one class. Unless otherwise specified by the instructor, all work submitted to fulfill course requirements must be work done by the student specifically for that course. This means that work submitted for one course cannot be used to satisfy requirements of another course unless the student obtains permission from the instructor. Unless permitted by the instructor, do not work with others on graded coursework, including in class and take-home tests, papers, or homework assignments. When an instructor specifically informs students that they may collaborate on work required for a course, the extent of the collaboration must not exceed the limits set by the instructor. Know what plagiarism is and take steps to avoid it. When using the words or ideas of another, even if paraphrased in your own words, you must cite your source. Students who are confused about whether a particular act constitutes plagiarism should consult the instructor who gave the assignment. Know the rules ignorance is no defense. Those who violate campus rules regarding academic misconduct are subject to disciplinary sanctions, including suspension and dismissal. 6