Course Outline

Does Earth move? Does the Moon move? If so, how and are there causes or reasons for this motion? Are the basic rules that govern their motion the same as those for other objects such as a flying baseball, or water flowing through a pipe? What keeps an aircraft aloft? Are there limits to the efficiency of its engines? What is the nature of light? Why do some elements but not others conduct electric currents well? Why are we convinced that atoms exist? What are the fundamental particles from which all matter is built? Are there limits to our universe and could we learn them?

Physics addresses such questions by combining observations, results of experiments, and conceptual and mathematical notions into coherent theoretical schemes. The conceptual underpinnings of the physics we use today originated in the 17th century, when Newton and others produced a framework for understanding much of the physical world. Newtonian mechanics, still a cornerstone of physics, successfully explains a great diversity of physical phenomena and enabled the development of much modern technology.

Phys 131 is an introduction to Newtonian mechanics. You will discover the meaning and uses of concepts such as acceleration, force, momentum, and energy and apply them to assess physical situations and describe physical phenomena. You will see that they provide a simple and elegant framework for understanding the physical universe.

The course will cover the following topics subject to minor modifications.

  1. Motion: one and two dimensional kinematics.
  2. Vector algebra.
  3. Newton's system of mechanics and Newton's three laws.
  4. Momentum conservation.
  5. Rotational kinematics and dynamics, angular energy and momentum.
  6. Newtonian gravitation.

Course Structure

The Monday, Wednesday and Friday class meetings will usually be in lecture format. You will be expected to study the relevant sections of the text before class meetings.

Most Tuesday meetings will consist of a discussion/problem session during which you will work in small groups (with the instructor's help) on pre-assigned problems. You will be expected to attempt these before the Tuesday class meeting. There will be a short quiz covering the material at the end of the discussion session.

Homework Assignments

Apart from the Supplementary Exercises, problem numbers all refer to Knight, Physics, 4th ed. Supplementary Exercises can be found by clicking this link.

Homework Due date Problems
Homework 1 29 Aug 2016 Ch 2 Conc. Q: 5, 7, 8, Ch 2 Probs.: 5, 6, 8, Supplementary Exercises: 4, 7
Homework 2 2 Sep 2016 Supplementary Exercises: 10, 12, Ch 2 Conc. Q: 13, Ch 2 Probs.: 18, 21, 49a, 55, 68
Homework 3 13 Sep 2016 Supplementary Exercises: 18, 20, Ch 4 Conc. Q: 9, 13, Ch 4 Probs.: 13, 15, 51, 56
Homework 4 23 Sep 2016 Supplementary Exercises: 29, 31, Ch 6 Conc. Q: 12, Ch 6 Probs.: 1, 12, 15, 39, 42
Homework 5 30 Sep 2016 Supplementary Exercises: 34, 35, 39, Ch 6 Conc. Q: 14, Ch 6 Probs.: 29, 49, 57, 58
Homework 6 10 Oct 2016 Supplementary Exercises: 46, 52, Ch 7 Conc. Q: 13, Ch 7 Probs.: 38, 40, Ch 8 Conc. Q: 4, Ch 8 Probs.: 6, 13
Homework 7 21 Oct 2016 Supplementary Exercises: 58, Ch 9 Conc. Q: 6, 8, Ch 9 Probs.: 12, 14, 18, 43, 44
Homework 8 28 Oct 2016 Supplementary Exercises: 61, Ch 10 Conc. Q: 4, 5, Ch 10 Probs.: 10, 11, 20, 43, 45
Homework 9 7 Nov 2016 Supplementary Exercises: 69, Ch 11 Conc. Q: 6, 13, Ch 11 Probs.: 15, 18, 28, 29, 49
Homework 10 18 Nov 2016 Ch 12 Conc Q.: 6, 9, 10, Ch 12 Probs.: 15, 31, 53, 57, 59
Homework 11 2 Dec 2016 Supplementary Exercises: 77, 78, 79, Ch 12 Conc Q.: 7, Ch 12 Probs.: 35, 40, 69, 74

Homework Solutions

Homework solutions will be posted in the course Desire 2 Learn (D2L) shell.


Quizzes

There will be a short quiz at the end of each of each Thursday discussion session. Quiz solutions will be posted in the course D2L shell.

Warm Up Exercises

There will be warm up exercise, approximately once per week, due by 8:00am. Exact dates will be announced by the instructor closer to the time. Warm up exercises are hosted on D2L.

Exams

There will be three 50 minute exams during class on the following dates: 16 September 2016, 12 October 2016 and 11 November 2016. There will be a comprehensive final exam on 12 December 2016 (Section 002) or 14 December 2016 (Section 001). Solutions to the exams for this semester will be posted below after the exams have been graded.

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Exams and solutions from previous semesters.

Fall 2014 Class exam 1
Fall 2014 Class exam 1: Solutions
Fall 2014 Class exam 2
Fall 2014 Class exam 2: Solutions
Fall 2014 Class exam 3
Fall 2014 Class exam 3: Solutions
Fall 2014 Final exam (version 1)
Fall 2014 Final exam (version 1): Solutions
Fall 2014 Final exam (version 2)
Fall 2014 Final exam (version 2): Solutions
Fall 2015 Class exam 1
Fall 2015 Class exam 1: Solutions
Fall 2015 Class exam 2
Fall 2015 Class exam 2: Solutions
Fall 2015 Class exam 3
Fall 2015 Class exam 3: Solutions
Fall 2015 Final exam (version 1)
Fall 2015 Final exam (version 1): Solutions
Fall 2015 Final exam (version 2)
Fall 2015 Final exam (version 2): Solutions

Exams and solutions from this semester.

Solutions will be posted after each exam has been graded.

Fall 2016 Class exam 1
Fall 2016 Class exam 1: Solutions
Fall 2016 Class exam 2
Fall 2016 Class exam 2: Solutions
Fall 2016 Class exam 3
Fall 2016 Class exam 3: Solutions

Links and Animations

  1. Reference Sources
    1. Physlink Reference information and data, including decimal system notation, physical constants, math constants, astro-physical constants, etc,....
    2. Eric Weinstein's World of Physics Encyclopedia of Physics maintained by Wolfram Research. Entries at a variety of technical levels.
    3. Science and Engineering Encyclopedia: Physics Encyclopedia of Physics with a somewhat cumbersome interface. Includes conversion calculators.
    4. Periodic Table of Elements WebElements site.
    5. NIST Databases Administered by the National Institute for Standards and Technology. The final word in physical data. Intended for professionals.
  2. Animations
    1. PhET From the University of Colorado.
    2. LTU Applets Collection of simulations provided by Scott Schneider, Lawrence Technological University.
    3. Animations for Physics and Astronomy Collection of simulations from the Penn State University, Schuylkill.
    4. Physclips Collection of simulations from the University of New South Wales, Australia.
  3. Demonstrations
    1. MIT TechTV. Videos of demonstrations provided by MIT.
    2. University of Maryland Demos Lecture demonstrations provided by the University of Maryland.
    3. Wake Forest University Demos. Main website for demonstrations provided by Wake Forest University, North Carolina.
    4. Wake Forest University Demos. Videos of demonstrations provided by Wake Forest University, North Carolina.
    5. University of Iowa Demos. Demonstrations provided by University of Iowa.
  4. Units and Measurement Scales
    1. Mars Climate Orbiter. The greatest unit conversion fiasco ever?
    2. Secret Worlds: The Universe Within. An updated "Powers of Ten" animation from Florida State University.
    3. Powers of Ten. Official site of Charles and Ray Eames.
  5. Atoms and Brownian Motion
    1. Brownian motion. Video of smoke particles undergoing Brownian motion. From University of Virginia.
    2. Brownian motion. Essay on Einstein's description of Brownian motion.
    3. Images of atoms. Images taken using a scanning tunneling microscope at IBM's Almaden lab.
    4. Images of atoms. Images taken at various institutions. Hosted by Purdue University.
    5. Chemical elements. Wikipedia list of elements.
    6. Periodic table. A wooden periodic table from Theodore Gray.
  6. Motion in One Dimension
    1. Motion diagrams. From Western Kentucky University and Davidson College.
    2. The moving man. From PhET.
    3. Car in one dimension. From Univ of Toronto.
    4. Rollerskating cow. From University of Oregon.
  7. Freely falling objects
    1. Hammer and feather. Demonstration by Apollo 15 commander David Scott. Provided by NASA.
    2. Guinea and feather. Description of equipment construction and a video. From the Steven Troy, University of Washington.
    3. Ball bearing and feather. From the Teralab.
    4. Free fall applet. From Davidson College.
  8. Vectors
    1. Vector addition. From PhET, University of Colorado. Alternative link here.
  9. Motion in Two Dimensions
    1. Balls dropped and shot. From University of Maryland.
    2. Projectile motion. From PhET, University of Colorado. Alternative link here.
    3. Ladybug motion in two dimensions. From PhET, University of Colorado. Alternative link here.
    4. Projectile motion. From University of Toronto.
    5. Monkey and hunter. From University of Toronto.
    6. Funnel cart. From University of Maryland.
    7. Pulled funnel cart. From University of Maryland.
    8. Gravity and orbits. From PhET, University of Colorado. Alternative link here.
    9. Solar system. From PhET, University of Colorado. Alternative link here.
  10. Newton's Laws
    1. Voyager: NASA page. Voyager I is the man made object most distant from the sun and now approximately free from interactions with the sun and solar system.
    2. Pioneer: NASA page. Pioneer 10, launched in 1972, was the first man-made object to leave the solar system. The last signal received from this probe reached the earth in 2003.
    3. Isaac Newton. British one pound banknote. From Jacob Bourjaily's website: Physicists on Money.
    4. Forces in one dimension. From PhET, University of Colorado. Alternative link here.
    5. Forces and motion: basics From PhET, University of Colorado. Alternative link here.
    6. Forces and motion. From PhET, University of Colorado. Alternative link here.
    7. Forces and motion on a ramp. From PhET, University of Colorado. Alternative link here.
    8. Friction. From PhET, University of Colorado. Alternative link here.
    9. Fan cart with sail. From University of Maryland
    10. Dropped slinky. From University of Maryland.
  11. Circular Motion
    1. Ladybug revolution. From PhET, University of Colorado.
    2. Whirlgig. From University of Iowa.
    3. Centrifugal flattening. From University of Iowa.
  12. Energy
    1. Energy Skate Park (Basics). From PhET, University of Colorado. Alternative link here.
    2. Energy Skate Park. From PhET, University of Colorado. Alternative link here.
    3. The Ramp. From PhET, University of Colorado.
    4. Springs and Masses. From PhET, University of Colorado.
    5. Loop the Loop. From the University of Iowa.
    6. Stopped Pendulum. From North Carolina State University.
    7. Stopped Pendulum. From University of Iowa.
    8. Large Pendulum. From University of Iowa.
    9. Racing skiers. From University of Toronto.
    10. Molecular Vibrations. From UCLA.
    11. Ice Vibrations From Visionlearning.
    12. Internal Combustion Engine From How Stuff Works.
    13. Global Energy Balance Animated diagrams from Earthguide at UCSD.
  13. Momentum
    1. Ship Collision Two ships colliding in the Suez canal. From NPR
    2. Particle Collisions. From the LHC at CERN.
    3. Particle Collisions. From the LHC at CERN. Information via Brookhaven National Lab.
    4. Collision Lab. From PhET, University of Colorado.
    5. Impulse Pendulum. From North Carolina State University.
    6. Impulse Pendulum. From University of Iowa.
    7. Goddard vs NY Times. Editorial critique from the NY Times of Robert Goddard's rocketry proposals.
  14. Rotational Motion
    1. Milky Way Galaxy Revolution. Simulation from the University of Zurich.
    2. Ladybug Revolution. From PhET, University of Colorado. Alternative link here.
    3. Torque. From PhET, University of Colorado. Alternative link here.
    4. Center of Mass Motion. YouTube video produced by MIT.
    5. Hoops and Disks. From University of Iowa.
    6. Rolling vs. Sliding From University of Maryland.
    7. "Falling Chimney." From University of Iowa.
    8. Falling Chimney Web Page. From Loyola Marymount University.
    9. Toppling Towers Web Page. From Physics Central, APS.
    10. Conservation of Angular Momentum From University of Iowa.
    11. Precessing Gyroscope. Animation from PSU-Schuykill.
    12. Angular Momentum - Train. From University of Iowa. Another link here.
  15. Gravity
    1. Newton's Cannon. From the University of Virginia.
    2. Neptune. From NASA.
    3. Neptune. From Wikipedia.
    4. Neptune. From nineplanets.org by Bill Arnett.
    5. Plant Nine. From Konstantin Batygin and Mike Brown, Caltech.
    6. Solar System. From PhET, University of Colorado. Alternative link here.
    7. Cavendish Experiment Animation. From Physics-Animations.com.Alternative YouTube animation
    8. Cavendish's Experiment. From Science and Society Picture Library
    9. Stars and Black Hole. Youtube video of unknown origin.
  16. Simple Harmonic Motion
    1. Masses and Springs. From PhET, the University of Colorado. Alternative link here.
    2. Normal Modes. From PhET, the University of Colorado. Alternative link here.
    3. Spray Paint Oscillator. From MIT TechTV, MIT.
    4. Spring and Mass. From Walter Fendt.
    5. Spring and Mass. From Michigan State University. Clear and simple to use.
    6. Resonance. From PhET, the University of Colorado. Alternative link here.
    7. Simple Harmonic Motion and Circular Motion. Davidson College and North Carolina A and T University.
    8. Tacoma Narrows Bridge Collapse. From Archive.org.