Principles of Physics II Syllabus for 2014-2015
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Instructor Information

Office Location

Warren Hall 101 H

Office Hours

9:30-10:20AM Mon-Thurs, 3-4PM Mondays.

Course Information

Recording Policy

Disability Statement

Any student who, because of a disabling condition, may require some special arrangements in order to meet course requirements should contact disAbility Services (Student Service Center room 119, phone 371-5436) as soon as possible.

Statement for Mental Health and Advocacy & Resource Center:

As a student you may experience a range of issues that can cause barriers to learning, such as strained relationships, increased anxiety, alcohol/drug problems, feeling down, difficulty concentrating and/or lack of motivation. These mental health concerns or stressful events may lead to diminished academic performance or reduce a student's ability to participate in daily activities. Amarillo College offers services to assist you with addressing these and other concerns you may be experiencing. If you or someone you know are suffering from any of the aforementioned conditions, you can learn more about the broad range of confidential mental health services available on campus by calling the AC Counseling Center at 806-371-5900. The AC Counseling Center website is https://www.actx.edu/counseling/ . Also, if you are in need of social services (affordable housing, utilities, transportation, food, clothing, childcare, medical/dental/vision, legal), please call the AC Advocacy & Resource Center at 806-371-5439. The AC Advocacy & Resource Center website is https://www.actx.edu/arc

Amarillo College Tutoring for Success Policy:

Administrative Drop Policy

N/A

Student Withdrawal Procedures

N/A

Privacy Statement

The Amarillo College Privacy Policy is found at https://www.actx.edu/-amarillo-college-privacy-notice , and applies to all Amarillo College students. If you have questions about this privacy statement or you believe that your personal information has been released without your consent, send email to humanresources@actx.edu .

Course

PHYS-2426-001 Principles of Physics II

Prerequisites

Prerequisites: PHYS 2425 andÂ MATH 2414

Course Description

Principles of physics for science, computer science and engineering majors, using calculus, involving the principles of electricity and magnetism, including circuits, electromagnetism, waves, sound, light and optics. Laboratory experiments supporting theoretical principles presented in lecture involving the principles of electricity and magnetism, including circuits, electromagnetism, waves, sound, light and optics; experimental design, data collection and analysis, and preparation of laboratory reports.

Student Resources Student Resources Website

Department Expectations

Occupational License Disclaimer

Hours

(4 sem hrs; 3 lec, 4 lab)

Class Type

On Campus Course

Syllabus Information

Textbooks

Lecture: Physics for Scientists and Engineers 9th edition, Serway & Jewitt

Lab: Laboratory Manual for PHYS 2426, Sun

Homework: You will need to get a code for WebAssign. This course is reference actx 0515 8684 in WebAssign.

Supplies

Calculator: You will need a calculator that is not your phone that can handle scientific notation, exponents, and trigonometric functions.

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Graph Paper: If you find you need this for any lab reports,

Student Performance

After completing the lecture part of this course, students should be able to:

1. Articulate the fundamental concepts of electricity and electromagnetism, including electrostatic potential energy, electrostatic potential, potential difference, magnetic field, induction, and Maxwell’s equations.
2. State the general nature of electrical forces and electrical charges, and their relationship to electrical current.
3. Solve problems involving the inter-relationship of electrical charges, electrical forces, and electrical fields.
4. Apply Kirchhoff’s laws to analysis of circuits with potential sources, capacitance, and resistance, including parallel and series capacitance and resistance.
5. Calculate the force on a charged particle between the plates of a parallel-plate capacitor.
6. Apply Ohm’s law to the solution of problems.
7. Describe the effects of static charge on nearby materials in terms of Coulomb’s law.
8. Use Faraday’s and Lenz’s laws to find the electromotive forces.
9. Describe the components of a wave and relate those components to mechanical vibrations, sound, and decibel level.
10. Articulate the principles of reflection, refraction, diffraction, interference and superposition of waves.
11. Solve real-world problems involving optics, lenses, and mirrors.

After completing the lab part of this course, students should be able to:

1. Prepare laboratory reports that clearly communicate experimental information in logical and scientific manner.
2. Conduct basic laboratory experiments involving electricity and magnetism.
3. Relate physical observations and measurements involving electricity and magnetism to theoretical principles.
4. Evaluate the accuracy of physical measurements and the potential sources of error in the measurement.
5. Design fundamental experiments involving principles of electricity and magnetism.
6. Identify appropriate sources of information for conducting laboratory experiments involving electricity and magnetism.

Students Rights and Responsibilities

Student Rights and Responsibilities

Log in using the AC Connect Portal

In order to receive your AC Connect Email, you must log in through AC Connect at https://acconnect.actx.edu .

If you are an active staff or faculty member according to Human Resources, use "Exchange". All other students, use "AC Connect (Google) Email".

Expected Student Behavior

The lecture meetings will include class discussion and some activities, so students will not be expected to sit quietly the entire time. Students will be expected to exercise good judgement regarding when to speak and when to listen, however, both with Dr. Van Domelen and their fellow students.

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To avoid disruption and potential embarrassment, please silence all electronic devices. Outside of quizzes and exams, portable electronics will be allowed. However, unless they are part of an assistive system (see Disability Services if in doubt), please remove any earpieces or headphones.

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Academic dishonesty will at a minimum be punished by a score of zero on the relevant task. This includes cheating on exams, and turning in lab reports for a lab that was not actually attended. (The online homework is harder to cheat than to just do honestly, but please do not take this as a challenge.) Additional sanctions at the College level may be applied if the situation merits.

Grading Criteria

Three hour-long exams will together compose 30% of the class grade, while the final exam will count as 20%. Homework will count for 20% of the grade, as well Laboratory writeups. Quizzes given during non-exam weeks will make up the remaining 10%.

If it will raise your average, the lowest regular exam grade (unless it is a zero given for cheating) will be replaced by the percentage score of the final exam.

The laboratory grade will use the best 12 reports out of 14 assigned. A bonus equalling 1% of the course grade will be given if all 14 reports are completed (or the absence is excused).

An extra credit math skills quiz will be given during the first week, and will also be worth up to 1% of the course grade.

The harshest grading scale that will be applied will be as follows: 89.5% = A, 79.5% = B, 69.5% = C, 59.5% = D. Dr. Van Domelen reserves the right to adjust the curve to be more forgiving, but will not make it harsher. The final analysis will consider the grades of all students: a few very high scores will not prevent a relaxing of the curve if most of the class struggled.

Attendance

Student attendance in lecture and lab is expected.

There is only one section of this course, but the grading criteria include making allowances for a few absences.

Calendar

Week	Tuesday	Thursday	Homework
1 - Aug 25-28	Lecture: Introduction, start Chapter 23 (Electric Fields). Lab: Intro to WebAssign, Calculus Diagnostic Quiz (extra credit).	Lecture: Finish Chapter 23 Lab: Discuss HW1. If time, the not-yet-due homework will also be discussed each week, but at a lower level of detail since it's not due yet.	HW1 (Chapter 23)
2 - Sep 2-4	Lecture: Chapter 24 (Gauss's Law) Lab: Experiment 1 (Faraday's Ice Pail)	Lecture: Start Chapter 25 (Electric Potential) Lab:Discuss HW1. Quiz 1 (over Chapter 23).	HW2 (Chapters 24-25)
3 - Sep 8-11	Lecture: Finish Chapter 25, start Chapter 26 (Capacitance and Dielectrics) Lab: Experiment 1 due. Experiment 2 (Electric Field Mapping)	Lecture: Finish Chapter 26. Lab: Discuss HW2. Quiz 2 (Chapter 24).	HW3 (Chapters 25-26)
4 - Sep 15-18	Lecture: Start Chapter 27 (Current and Resistance) Lab: Experiment 2 due. Experiment 16 (Millikan Oil Drop)	Lecture: Finish Chapter 27. Lab: Discuss HW3. EXAM 1 (Chapters 23-26).	HW4 (Chapter 27)
5 - Sep 22-25	Lecture: Start Chapter 28 (DC Circuits). Lab: Experiment 16 due. Experiment 4 (DC Circuits).	Lecture: Finish Chapter 28 (Kirchhoff's Laws). Lab: Discuss HW4, Exam 1. Quiz 3 (Chapter 27).	HW5 (Chapter 28)
6 - Sep 29-Oct 2	Lecture: Start Chapter 29 (Magnetic Fields). Lab: Experiment 4 due. Experiment 3 (RC Circuits).	Lecture: Finish Chapter 29 Lab: Discuss HW5. Quiz 4 (Chapter 28).	HW6 (Chapter 29)
7 - Oct 6-9	Lecture: Start Chapter 30 (Sources of the Magnetic Field). Lab: Experiment 3 due. Experiment 6 (Charge-to-Mass Ratio of Electrons).	Lecture: Finish Chapter 30. Lab: Discuss HW6. Quiz 5 (Chapter 29).	HW7 (Chapter 30)
8 - Oct 13-16	Lecture: Start Chapter 31 (Faraday's Law) Lab: Experiment 6 due. Experiment 5 (Magnetic Force on a Current Carrying Wire).	Lecture: Finish Chapter 31. Lab: Discuss HW7. EXAM 2 (Chapters 27-30).	HW8 (Chapter 31)
9 - Oct 20-23	Lecture: Start Chapter 32 (Inductance) Lab: Experiment 5 due. Experiment 7 (Current Balance).	Lecture: Finish Chapter 32 Lab: Discuss HW8, Exam 2. Quiz 6 (Chapter 31).	HW9 (Chapter 32)
10 - Oct 27-30	Lecture: Start Chapter 33 (AC Circuits). Lab: Experiment 7 due. Experiment 8 (RL Circuit).	Lecture: Finish Chapter 33. Lab: Discuss HW9. Quiz 7 (Chapter 32)	HW10 (Chapter 33)
11 - Nov 3-6	Lecture: Start Chapter 34 (Electromagnetic Waves). Lab: Experiment 8 due. Experiment 9 (RLC Circuits).	Lecture: Finish Chapter 34, reprise Chapter 17. Lab: Discuss HW10. Quiz 8 (Chapter 33).	HW11 (Chapter 34)
12 - Nov 10-13	Lecture: Start Chapter 35 (Principles of Ray Optics). Lab: Experiment 9 due. Experiment 10 (Reflection and Refraction).	Lecture: Finish Chapter 35, review. Lab: Discuss HW11. EXAM 3 (Chapters 31-34).	HW12 (Chapter 35)
13 - Nov 17-20 Nov 18 last day to drop	Lecture: Start Chapter 36 (Image Formation) Lab: Experiment 10 due. Experiment 11 (Spherical Mirrors).	Lecture: Finish Chapter 36. Lab: Discuss HW12. Quiz 9 (Chapter 35).	HW13 (Chapter 36)
14 - Nov 24-26	Lecture: Chapter 37 (Wave Optics) Lab: Experiment 11 due. Experiment 12 (Converging and Diverging Lenses).	No class (Thanksgiving)	HW14 made available
15 - Dec 1-4	Lecture: Start Chapter 40 (Introduction to Quantum Mechanics). Lab: Experiment 12 due. Experiment 13 (Photoelectric Effect). This will be due Wed/Thurs.	Lecture: Finish Chapter 40 , review. Lab: Experiment 13 due. Discuss HW14 (limited, since not due yet). Quiz 10 (Chapter 37).	HW14 (Chapters 37 and 40), due Sunday 11:59 PM.
Finals Week	Final will emphasize Chapters35 and later, but will be comprehensive.	Final Exam December 9, 7:30-9:30 AM.

Additional Information

The online homework system includes online access to the new textbook. If you still have a copy of the full version of Giancoli from taking PHYS 2425 last year, you should be able to get by with it and the online text, no need to buy another several-hundred-dollar textbook.

Syllabus Created on:

11/30/-1 12:00 AM

Last Edited on: