Syllabus: (PDF) List of Modern Texts (PDF) Email Dr. Larsen Dr. Larsen's Main Page Dr. Larsen's LaTeX Page Dr. Wragg's PHYS 230 Page (Great Resource) |
- WELCOME! -This is the web-page for Physics 230, Introduction to Modern Physics (Fall 2015). Materials on this webpage are meant to supplement information given to you in class itself. I'm not a big fan of OAKS, therefore any on-line supplementary material for the course you need can be found here. To the left, you'll find important links/syllabi/etc.If you'd like to find out more about me or the research we do in my lab, check out my main webpage. - About This Course -This course is an introduction to the basic Physics established after about 1900. Much of this content you have seen (briefly) before (in PHYS 111/112) and a decent fraction of it you may see again (in Classical Mechanics, Electricity and Magnetism, Quantum Mechanics, Nuclear Physics, Solid State Physics, and/or Experimental Physics). This course is between intro and advanced levels; it is still kind of like PHYS 111/112 in that it gives a survey/introduction to ideas from a lot of different parts of Physics, but it is sort of like an upper-level course in that the level of rigor is increased. This increase in rigor also changes the nature of many of your homework and test questions (you'll start to have more assignments similar to "show x is true" rather than the PHYS 111/112-like "calculate x"). Also, this is the first course in the curriculum that is taken mostly by Physics and Astrophysics majors, which means we expect a new level of dedication out of you.We also will be using this course to introduce you to some basic computational Physics skills. These skills will be following you throughout the rest of your undergraduate Physics/Astrophysics education (and quite possibly for the rest of your career), so hopefully we'll get you started on the right track. This class is very exciting and very important. The content is a lot of fun -- you start to really play with Physics ideas that aren't necessarily familiar from everyday experience , yet are just as real as masses on inclined planes. There's a stretch of classes in the middle of the semester where we get to talk about Nobel Prize winning work pretty much every day. Much of the content in this course appears on the Physics subject GRE, so those of you who are planning to go to graduate school -- you really have to start thoroughly absorbing the material. There are things in this course that every Physics student is expected to know, and that you won't see again until you are grad-school bound. The expectations for this course are certainly a notch above what you may have been exposed to before. You may struggle with the content for the first time as a student -- don't let that discourage you! I'm here to help. If you get stuck, find me! This stuff is possible -- and you have the ability to do it. - Step by Step Guide in How to Succeed in PHYS 230 -Like all classes, what you get out of this course is directly related to what you put into this course. I'm here as a resource to help you learn. Please use this resource!
- Homework Assignments -Assignment 1(PDF) (due date: 8/27/15)Assignment 2(PDF) (due date: 9/3/15) Assignment 3(PDF) (due date: 9/10/15) Assignment 4(PDF) (due date: 9/17/15) Assignment 5(PDF) (due date: 10/1/15) Assignment 6(PDF) (due date: extended to 10/15/15) Assignment 7(PDF) (due date: 10/15/15) Assignment 8(PDF) (due date: 10/22/15) Assignment 9(PDF) (due date: extended to 11/17/15) Assignment 10(PDF) (due date: 11/24/15) Assignment 11(PDF) (EXTRA CREDIT) (due date: 12/1/15) - Test Information -We plan to have 3 in-class midterms as well as a final exam. The tentative dates for the in-class midterms are:Thursday, September 24th, 2015 Thursday, October 29th, 2015 Thursday, December 3rd, 2015 The final exam is scheduled for Thursday, December 10th, from 12-3 PM - Mathematica Demo -Mathematica Notebook with In-Class Demonstration Materials- Links for Lecture -Applet showing the Thomson experimentMovie showing the Millikan Oildrop experiment Applet showing the Millikan Oildrop experiment Mathematica Notebook demo of the Franck-Hertz Experiment - Links for Wave Packets / Fourier Demonstrations -Mathematica Notebook for Fourier Transform PairsMathematica Notebook showing the difference between Group and Phase Velocities Mathematica Notebook showing wave packet evolution for a free particle Matlab script adding a bunch of harmonic waves together - Links for Tunneling / Frustrated Total Internal Reflection -Mathematica Simulation of a Gaussian Wavepacket incident on a barrier potentialSimilar to previous, except showing real and imaginary portions of wavefunction instead of probability Another representation of the same. Similar to the others. Frustrated Total Internal Reflection I Frustrated Total Internal Reflection II |