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PHYS-2425-001 Principles of Physics I
Prerequisite: MATH 2413
Fundamental principles of physics, using calculus, for science, computer science and engineering majors; the principles and applications of classical mechanics, including harmonic motion and physical systems; emphasis on problem solving. Basic laboratory experiments supporting theoretical principles presented in lecture involving the principles and applications of classical mechanics, including harmonic motion and physical systems; experimental design, data collection and analysis, and preparation of laboratory reports.
Student ResourcesStudent Resources Website
Notice to Students enrolled in an educational program for preparation of issuance of certain occupational licenses:
Students enrolled in an educational program in preparation for obtaining certain occupational licenses are potentially ineligible for such license if the student has been convicted of an offense. For further information, please contact:
Melodie Graves
Justice Involved Advocate
Student Service Center 117
mgraves24@actx.edu
806-371-5995
Make appointment at https://melodiegraves.youcanbook.me
You can also contact the Legal Clinic, or the faculty member in charge of the educational program that you seek to enroll in. The further information you will receive will include notification to you of your right to request a criminal history evaluation letter from the licensing authority in order to clarify your particular situation.
(4 sem hrs; 3 lec, 3 lab)
Tech Supported
Lecture: Physics for Scientists and Engineers 9th edition, Serway & Jewitt (hardcopy optional, WebAssign includes an ebook copy).
Lab: Laboratory Manual for PHYS 2425, on Blackboard
Homework: You will need to get a code for WebAssign.net, either from the bookstore or directly from the site. (The codes available from the bookstore work for two semesters, and are a better deal if you expect to take PHYS 2426 here.)
Calculator: You will need a calculator that is not your phone that can handle scientific notation, exponents, and trigonometric functions.
Ruler and Protractor: While there are ones to borrow in the lab classroom, you should own a set for the rest of the course.
Lab Kit: In the event we are no longer able to do in-person labs, you will need to pick up a lab equipment kit (and return it at the end of the term.) Lab kits will also be issued for make-up labs.
After completing the lecture of this course, students should be able to:
1. Determine the components of linear motion (displacement, velocity, and acceleration), and especially motion under conditions of constant acceleration
2. Solve problems involving forces and work.
3. Apply Newton’s laws to physical problems.
4. Identify the different types of energy.
5. Solve problems using principles of conservation of energy.
6. Define the principles of impulse, momentum, and collisions.
7. Use principles of impulse and momentum to solve problems.
8. Determine the location of the center of mass and center of rotation for rigid bodies in motion.
9. Discuss rotational kinematics and dynamics and the relationship between linear and rotational motion.
10. Solve problems involving rotational and linear motion
11. Define equilibrium, including the different types of equilibrium.
12. Discuss simple harmonic motion and its application to real-world problems.
13. Describe the components of a wave and relate those components to mechanical vibrations, sound, and decibel level.
After completing the lab part of the course, students should be able to:
1. Prepare laboratory reports that clearly communicate experimental information in a logical and scientific manner.
2. Conduct basic laboratory experiments involving classical mechanics.
3. Relate physical observations and measurements involving classical mechanics to theoretical principles.
4. Evaluate the accuracy of physical measurements and the potential source of error in the measurements.
5. Design fundamental experiments involving principles of classical mechanics.
6. Identify appropriate sources of information for conducting laboratory experiments involving classical mechanics.
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".
The lecture meetings will be held on Discord, text and audio but no video. You will be expected to be present during the scheduled class times, and participation in class discussions is encouraged.
Students are expected to remain up-to-date on their own grades, and bring any disputes to the instructor in a timely manner. Other than disputes regarding the final exam itself, all disputes must be brought up prior to taking the final exam.
To avoid disruption and potential embarrassment, please silence your microphone when not asking a question. Specific rules for device use will be outlined in the online exam honor statement you will be required to sign.
You may record the audio portion of lectures for your personal use or to share with other students currently taking this course. You do not have permission to post them online for wide distribution or to sell them or otherwise profit by the distribution of the lectures.
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.
Exams
Exams will all be administered online via Blackboard, using the Assignments system. They are expected to take only about an hour to 90 minutes to complete, but you will have a wide window to submit them in recognition that many of you will have work and family obligations. If you do not think you will be able to take the exam at all on the scheduled day, let Dr. Van Domelen know well in advance so he can make arrangements. All regular exams will take place on Fridays, the final exam will take place during Finals Week on the day you would be taking it in person, but available for the entire day (24 hours). Exams 1-3 are worth 10% of the total grade each, and the Final Exam is worth 20% of the total grade. Additionally, if it would help you, the percentage you get on your Final Exam replaces your one lowest regular exam score.
Exam 1: February 12
Exam 2: March 12 (day before Spring Break)
Exam 3: April 15
Final Exam: May 11
Homework
Homework is delivered via the WebAssign system. We will be making sure everyone is properly set up in WebAssign on the first day of class, during the lab timeslot. The homework is due just before midnight the day of the first lecture of the week, with exceptions noted in the schedule below. While extensions may be granted if your reason is good enough, this is not a course where you can go back and redo the homework later for a higher score.
Lecture attendance provides extra credit points on your final homework assignment. Perfect attendance gets 15 points (a typical assignment averages 10 points), less one for every day of lecture missed, to a minimum of zero. Homework is 20% of the total course grade.
Labs
Maximum occupancy in the lab classroom is 16, and we will be holding it to 12 or fewer, with no more than three lab groups at a time. To accomplish this, lab groups will be split into even and odd groups, with half the class doing the lab each week. The lab groups will be assigned by the instructor, and changed after every exam. Three experiments are planned for the first half of the semester and two for the second half, as seen below in the schedule. The lab manual is available on Blackboard. Lab reports are a group effort, and a single one will be turned in by each group.
Take-Home labs have been developed for Physics 2 and are being developed for Physics 1 along the same lines. In the event in-person instruction ceases, every student will be issued a Lab Kit and experiments will be performed during the regular lab time, but with groups collaborating online. Lab Kits will have to be returned in good condition. These lab manuals will also be available in Blackboard. Since everyone will already be socially isolated, Take-Home labs will all be performed the same week, rather than split up into even/odd groups. As with in-person labs, there will be one report per group.
Either way, all of the Pre-Lab exercises in the regular lab manual will be turned in online at some point, as per the schedule below. They are due at the beginning of lecture.
Labs are worth 10% of the total grade. There are no dropped lab scores, but turning in partner evaluations is worth a bonus point on the lab. Pre-Labs are also worth 10% of the total grade.
Problem Sessions
These will be run on Discord during the scheduled class times ("Lab" time on the second class day of the week, and some other days when no one is doing a lab on the first day). You will work with your lab group on these problems. Voice channels for each group will be available on Discord for those who wish to communicate that way, but participation grades will depend on seeing at least some typed activity in the group channels. Having the Discord app on your phone will make it easier to upload pictures of your work to the group chat.
In the event we shift to the Take-Home labs, there will be extra problem sessions in place of labs in some weeks, since we will no longer need to switch between even and odd lab groups.
Problem sessions will be a mix of working on homework problems and working on problems that the homework system either cannot handle (such as diagram-drawing) or that would be too hard for anyone to be expected to do alone. Grading will be based on participation rather than successful completion, and up to two zeroes for missed sessions will be dropped. Problem sessions will be worth 10% of the final grade.
The Curve
Individual assignments and exams will not be curved. The instructor will decide on the final curve based on the distribution of scores after all grades are in, but it will not be more severe than the following:
A: 89.50% and up
B: 79.50% to 89.49%
C: 69.50% to 79.49%
D: 59.50% to 69.49%
F: 59.49% or below
The final curve is likely to be "uneven" in that the ranges are not all the same 10% wide. Anyone who falls just below the boundary will have their situation scrutinized more closely to determine if they deserve to be raised by a letter grade or should remain the highest score in the lower letter. Things not specifically graded for, such as class participation (good) or frequent lateness (bad) will also be considered in these borderline cases.
https://discord.gg/RBTdptT is the course Discord server, and we will be using this for all but the labs. All students are required to join the server, and will be assigned a role based on their section. If you are already part of this server from 2020, your role will merely be updated. Otherwise, you will need to join the server. I strongly recommend you also install the Discord app on your phone.
Important note: students who are absent for all meetings of the class in the first two weeks will be automatically dropped.
The instructor lecture notes (with answers to some in-class problems removed) are available on Blackboard.
See below for a schedule of material covered each week in lecture.
There will always be lectures during the lecture times, held on the course Discord, except for the first day of class where we’ll start with policies and do the first lecture during lab time. Unless otherwise specified in a week’s entry, the weekly schedule for other matters will be as follows:
Tuesdays: WebAssign homework over the week’s new material is available at 10:00 AM. Lab during lab time (in person), with the previous week’s lab report (if any) due at the beginning of the time. At 11:59 tonight, homework over the previous week’s material is due (exceptions for the first week, last week, and holiday breaks).
Thursdays: Recitation (online) during lab time, group work problems and discussion of the homework that was due this week.
In the detailed schedule below, “First Lab” and “Second Lab” refer to the lab time slots (Tuesdays and Thursdays 1PM-2:40PM).
Week 1 (1/19-1/21)
Lecture: Policies and general Discord setup, catch-up for late enrollers on Thursday if needed.
First Lab: Introduction lecture (units, significant figures, scientific notation).
Second Lab: Group problem.
Week 2 (1/25-1/28)
Lecture: All of Chapter 2, start Chapter 3 (Vectors).
First Lab: Experiment 1 (1-D Motion) Even Groups. Exam honor statement due (Experiment 1 doesn’t have its own Pre-Lab). Homework 1 due.
Second Lab: Group problems.
Week 3 (2/1-2/4)
Lecture: Finish Chapter 3, all of Chapter 4 (2-D Kinematics).
First Lab: Experiment 1 Odd Groups. Pre-Lab for Experiment 2 (Vector Addition) due. Homework 2 due.
Second Lab: Group problems.
Week 4 (2/8-2/11)
Lecture: All of Chapter 5 (Laws of Motion), start Chapter 6 (Applications of Newton’s Laws).
First Lab: Group problems. Homework 3 due.
Second Lab: Group problems, exam review.
EXAM 1 on 2/12 (covers Chapters 1-4).
Week 5 (2/15-2/18)
Lecture: Finish Chapter 6, start Chapter 7 (Energy of a System).
First Lab: Experiment 3 (Newton’s Second Law) Even Groups. Pre-Lab for Experiment 3 due. Homework 4 due.
Second Lab: Group problems.
Week 6 (2/22-2/25)
Lecture: Finish Chapter 7, all of Chapter 8 (Conservation of Energy), start Chapter 9 (Linear Momentum).
First Lab: Experiment 3 Odd Groups. Pre-Lab for Experiment 4 (Work-Energy Theorem) due. Homework 5 due.
Week 7 (3/1-3/4): Lecture: Finish Chapter 9, start Chapter 10 (Rotational Motion). First Lab: Experiment 5 (Linear Collisions) Even Groups. Pre-Lab for Experiment 5 due. Homework 6 due.
Second Lab: Group problems.
Week 8 (3/8-3/11)
Lecture: Finish Chapter 10, start Chapter 11 (Angular Momentum).
First Lab: Experiment 5 Odd Groups. Homework 7 due. Homework 8 assigned, due after Spring Break.
Second Lab: Group problems, exam review.
EXAM 2 on 3/12 (Chapters 5-9).
SPRING BREAK
Week 9 (3/22-3/25)
Lecture: Finish Chapter 11, all of start Chapter 12 (Static Equilibrium and Elasticity).
First Lab: Experiment 6 (Rotational Motion) Even Groups. Pre-Lab for Experiment 6 due. Homework 8 due.
Second Lab: Group problems.
Week 10 (3/29-4/1)
Lecture: All of Chapter 15 (Oscillatory Motion), start Chapter 16 (Wave Motion).
First Lab: Experiment 6 Odd Groups. Pre-Lab for Experiment 7 (Moment of Inertia) due. Homework 9 due.
Second Lab: Group problems.
Week 11 (4/5- 4/8)
Lecture: Finish Chapter 16, all of Chapter 17 (Sound).
First Lab: Experiment 8 (Simple Harmonic Oscillation) Even Groups. Pre-Lab for Experiment 8 due. Homework 10 due.
Second Lab: Group problems.
Week 12 (4/12-4/15)
Lecture: All of Chapter 18 (Superposition of Waves), start Chapter 19 (Temperature).
First Lab: Experiment 8 Odd Groups. Homework 11 due.
Second Lab: Group problems, exam review.
EXAM 3 on 4/16 (Chapters 10-12, 15-17)
Week 13 (4/19-4/22)
Lecture: Finish Chapter 19, all of Chapter 20 (Heat).
First Lab: Group problems. Pre-Lab for Experiment 9 (Standing Waves) due. Homework 12 due.
Second Lab: Group problems.
Week 14 (4/26-4/29)
Lecture: Chapter 21 (Kinetic Theory of Gases).
First Lab: Make-up Lab for those who need one. Pre-Lab for Experiment 10 (Thermal Expansion) due. Homework 13 due.
Second Lab: Group problems.
Week 15 (5/3-5/6)
Lecture: Chapter 22 (Heat Engines and the Second Law of Thermodynamics)
First Lab: Group problems. Homework 14 due. Homework 15 assigned, due at 11:59 PM 5/9.
Second Lab: Group problems, final exam review.
Final exam (comprehensive, but heavy on chapters 18-22) will be available for 24 hours online on May 11.
Please notify Dr. Van Domelen in advance if you know you will miss a meeting of class, or if you will not be able to devote at least 90 minutes during the scheduled exam times to work and upload the exam. He will try to reach an accommodation with you.
12/31/20 2:02 PM
12/31/20 2:23 PM