PHYS 2200
Fall semester 2023
  • Syllabus
  • Calendar
    • HW01
    • HW02
    • HW03
    • HW04
    • HW05
    • HW06
    • HW07
    • HW08
    • Homework guidelines
    • Homework grades
  • Downloads
    • Midterm 1
    • Midterm 2
    • Midterm 3
    • Exam grades
  • HuskyCT

Mathematical methods for physicists

Books

  • James Nearing, Mathematical Tools for Physics, Dover Publications, 2010.

  • Michael Stone and Paul Goldbart, Mathematics for Physics (also here), Cambridge University Press, 2009.

  • Herbert Wilf, Mathematics for the Physical Sciences, Dover Publications, 2006.

  • Michael P. Brenner, Physical Mathematics, Harvard AM201, 2010.

  • Eric L. Michelsen, Funky Mathematical Physics Concepts, 2020

    "The purpose of the “Funky” series of documents is to help develop an accurate physical, conceptual, geometric, and pictorial understanding of important physics topics. We focus on areas that don’t seem to be covered well in most texts we’ve seen. The documents are intended for serious students of physics. They are not 'popularizations' or oversimplifications, though they try to start simply, and build to more advanced topics..."

  • E. T. Whittaker and G. N. Watson, Course of Modern Analysis, Cambridge University Press, 1920.

    Digital scan, 2008

  • E. T. Whittaker and G. N. Watson, Course of Modern Analysis, Cambridge University Press, 1920.

    Transcribed and edited as a website by Eric Nitardy, 2012

  • H.W. Wyld, Mathematical Methods for Physics, Benjamin, 1976

  • Matthias Beck, Gerald Marchesi, Dennis Pixton, and Lucas Sabalka, A First Course in Complex Analysis, Open textbook, 2018

  • J. S. B. Gajjar, Advanced Mathematical Methods, Manchester, 2012

  • Henry van Roessel and John C. Bowman, Asymptotic Methods, University of Alberta, 2012

  • NIST Digital Library of Mathematical Functions,

    Online companion to: F. W. J. Olver, D. W. Lozier, R. F. Boisvert, and C. W. Clark, editors. NIST Handbook of Mathematical Functions. Cambridge University Press, 2010.

Video courses

  • Y. I. Rodionov, K. S. Tikhonov, Complex Analysis I , 2020

Lecture notes

  • Richard Feynman, Mathematical Methods/Techniques in Physics and Engineering, Feynman Hughes Lectures, Oct. 1970 - June 1971, notes by John T. Neer

  • Richard Feynman, Mathematical Methods, Cornell lectures, October 1946 - January 1947, notes by James Keck

  • Richard Feynman, Mathematical Methods, Cornell lectures, February 1947 - May 1947, notes by James Keck

  • Derek Teaney, Mathematical Methods of Physics, Stony Brook University, 2017

Lorem Ipsum

Etiam porta sem malesuada magna mollis euismod rendered as bold text. Cras mattis consectetur purus sit amet fermentum le syndrome du clandestin. A clear, authoritative judicial holding on the meaning of a particular

\[ \begin{align} \nabla \times \vec{E} & = -\frac{\partial\vec{B}}{\partial t} \\ \nabla \cdot \vec{D} & = \rho_f \\ \nabla \times \vec{H} & = \vec{J}_f + \frac{\partial\vec{D}}{\partial t}\\ \nabla \cdot \vec{B} & = 0 \end{align} \]

provision should not be cast in doubt and subjected to challenge whenever a related though not utterly inconsistent provision is adopted in the same statute or even in an affiliated statute, the two authors wrote

Resources

  1. Mathematical methods
  2. Numerical computing
  3. Dimensional analysis
  4. Git and Gitlab
  5. Latex
  6. Julia

Course Archives

  1. Math Methods, Spring 2023
  2. Computational Physics, Fall 2021
  3. Numerical Analysis I, Fall 2020
  4. Numerical Analysis II, Spring 2021

Links

  1. UConn AnyWare
  2. Physics GitLab
  3. UConn VPN
  4. UConn software
  5. UConn IT Systems Status

General

  1. Academic Calendar
  2. UConn Physics Department
  3. PHYS 2200 in Course Catalog
  4. Dean of students
  5. 2023 Calendar of Religious Holidays
  6. Educational Rights and Privacy
  7. Office of the Provost's policies links
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  9. UConn Community Standards

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