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Integrated Science - Physics (ISCI 1301)

91亚色

Fall 2016 - (unofficial) Course Website (physics stuff)


Basic Information

  • Course Description:  See Moodle 
  • Location & Time: MWF 9-12 (Bergeron 313) 
  • Instructor (Physics):  Christopher Bergevin
    Office: Petrie 240 
    Email: cberge [AT] yorku.ca 
    Office Hours: By appointment  
    Phone: 416-736-2100 ext.33730 
  • Co-Instructor: Lauren Grant (legrant@yorku.ca) 
    Wolfson, R. (2016). : Pearson
  • Text  Essential University Physics: Volumes 1 and 2, Third Edition, by Wolfson, R (Pearson, 2016) 

Updates and useful bits 

  • [2016.12.21] Solutions for the first integrated assignment are now available (finally!) here
  • [2016.12.15] The final exam has now been graded. Some basic stats can be found here. Am hoping to find some class time in the new year to go over the exams, so to help identify strengths/weaknesses in how to approach these types of problems. Note that while I鈥檓 happy to go over the exam w/ you in person, I won鈥檛 send individual scores over email (for the sake of privacy). 
  • Resources/guidance for the upcoming final exam (12/12/16) will be posted here soon. In the meantime, the best way to prepare is to read the relevant book chapters (noted below), review the course notes (again, all provided below; note especially the problems contained therein), and practice problems from the books (incl. the conceptual 鈥淔or THought and Discussion鈥 problems; try working in groups for those!). It would also be useful to review the 1010 notes (linked below) as a supplement to all this. Lastly, though there won鈥檛 be anything explicitly computational/Matlab on the final exam, the codes provided here can help enormously to gain insight/intuition for the relevant concepts (e.g., the harmonic oscillator code can give you an idea of how things, well, oscillate). And don鈥檛 forget that "ladder problem鈥濃.
  • The first (rocket-themed) integrated assignment can be accessed here
  • Links to some resources that might be useful will be added here as we go: 
    • Website for  (2010; taught by Prof. Marko Horbatsch) with useful notes/problems for reference
    •  class on scientific computing
    • Lecture notes from 91亚色U  (W14, courtesy of Prof. Burton Ma)
  • Guide to get Matlab running remotely (via 91亚色's internal server). Guide to help get you started with plotting in Matlab.  

Class Notes 

  • 2016.12.09 - Review 
    • Overview for how to prep for the exam
    • Some sample problems to try to solve (solutions will be hashed out at the review session)
    • Cribbed version of Polya鈥檚 method for approaching/tackling tough problems鈥
  • 2016.12.05 - Summary 
  • 2016.12.02 - Oscillations 
  • 2016.11.30 - Systems, Momentum (cont), Oscillations 
    • Book reading: Wolfson ch. 13.1-13.2
    •  (cont)
    • Relevant F10 PHYS 1010 notes: here and here
  • 2016.11.28 - Mitosis and Transport, Center of Mass, Volumes (via integrals) 
  • 2016.11.23 - Systems, Momentum 
    • Book reading: Wolfson ch. 9.1-9.6
    • Relevant F10 PHYS 1010 notes: hereherehere and here
  • 2016.11.21 - Review: Conservation of Energy, Gravity 
    • Book reading: Wolfson ch. 7.1-7.6, 8.1-8.5
    • Simple self-contained Matlab code that allows you to simulate planetary motion (fixed sun, but movable planet; via a 2nd order Runge-Kutta routine), commonly referred to as the "two-body problem": EXtwobodyB.m
    • Another simple code to allow you to fiddle w/ plotting multi-variable functions EXcreate3D2.m
    • Relevant F10 PHYS 1010 notes: Energy - herehere and here; Gravity - here
  • 2016.11.18 - Integrals 
    • No physics lecture today per se, but recall some Matlab codes posted earlier that can help w/ concepts tied to integration as being covered by Prof. Madras: INTexample1.m
  • 2016.11.16 - Waves (cont) & X-ray Crystallography 
    • Book reading: Wolfson ch. 32.3
    •  (x-ray stuff)
    •  (wave stuff; same as 11/4)
    •  to William Bialek鈥檚 website, where you can access a draft of his (graduate-level) biophysics text (see sec.5 of the Appendix for the crystallography theory)
  • 2016.11.04 - Waves 
    • Book reading: Wolfson ch. 14.2-14.7
    • Example code to allow you to deal multivariable functions and fiddle w/ plotting such in Matlab: EXcreate3D.m (see also EXcreate3D2.m)
  • 2016.11.02 - Light III - Interactions w/ matter (cont.), Vision, Waves 
    • Book reading: Wolfson ch. 14.1, 31.4, 32.1-32.2, 36.4-36.5
    • Example codes (re Newton鈥檚 method for polynomial root finding): EXnewtonRun.m (will also need this function)
  • 2016.10.26 - Light II - Quantal nature of light, Interactions w/ matter 
    • Book reading: Wolfson ch.29.6, 32.2, 32.6, 33.7, 34.1-34.5 
  • 2016.10.24 - Light I - What is light? 
    • Book reading: Wolfson ch.14.1, 29.1, 29.4-29.8, 34.1-34.3 
  • 2016.10.17 - Tangents II 
    • Book reading: Wolfson ch.8.2, 24.1, 25.3 
    •  鈥淣ASA Sets Sight on Mars. I Just Hope Its Aim Is True鈥
    •  鈥淭he World Is Not Enough鈥
    • Recent-ish  (鈥淭he light side of the force鈥) dealing with molecular biophysics that might be of interest鈥 
  • 2016.10.12 - 罢补苍驳别苍迟蝉鈥&苍产蝉辫;
    • Book reading: Wolfson ch.8.1-8.4, 9.2-9.3 
    • Relevant F10 PHYS 1010 notes: here and here
  • 2016.10.07 - Energy (cont) 
    • Book reading: Wolfson ch.7.4-7.6, 8.2-8.4, 9.2-9.3 
    • No in-class physics lecture (but the show must go on!)
    • Relevant F10 PHYS 1010 notes: here and here
    • The first (rocket-themed) integrated assignment can be accessed here
  • 2016.10.05 - Work, Integrals, Energy, & all that鈥
    • Book reading: Wolfson ch.6.2-7.3
    • Relevant F10 PHYS 1010 notes: herehere, and here
  • 2016.10.03 - Friction & Drag, Intro. to Work/Energy
    • Book reading: Wolfson ch.5.3-6.2
    • Relevant F10 PHYS 1010 notes: herehere, an here
  • 2016.09.30 - Using Newton鈥檚 Laws
    • Book reading: Wolfson ch.4.6-5.2
    • Relevant F10 PHYS 1010 notes: here
  • 2016.09.28 - Newton鈥檚 Laws
    • Book reading: Wolfson ch.4.1-4.5
    • Relevant F10 PHYS 1010 notes: herehere, and here
  • 2016.09.23 - Mechanics: 2-D, 3-D, Vectors, etc鈥
    • Book reading: Wolfson ch.3.6-4.1
    • Relevant F10 PHYS 1010 notes: here and here
  • 2016.09.21 - Mechanics: 2-D, 3-D, Vectors, etc鈥
  • 2016.09.19 - Introduction to modeling
  • 2016.09.14 - Mechanics: 1-D
    • Book reading: Wolfson ch.2
  • 2016.09.12 - Introduction to computing 
  • 2016.09.11 - Guided practice problems 
  • 2016.09.09 - Introduction
    • Book reading: Wolfson ch.1

HW Assignments 

To be determined鈥..