Self-diagnostic test

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Coming in to Stony Brook's graduate coursework can be a bit disorienting. The core courses are rather difficult for people who have not taken similar difficulty courses in the past, and so former students have compiled a set of characteristic questions from undergraduate textbooks that they believe give a taste of what you should expect.

The idea, to some extent, is that if you have significant difficulty understanding or solving these problems then taking more preparation in advance and care with the core courses would be a good idea. Some people who are already comfortable with the core course materials are able to take 3 or 4 courses at once in the first semester, but this is often not very fun or healthy or academically advisable - so if these questions are not trivial for you then please avoid doing too much in your first semesters.

Self-diagnostic test to identify strengths and weaknesses before beginning PhD or Masters coursework

PDF with all the questions listed provided here

Quantum Mechanics

  • Griffiths Quantum Mechanics (Second Edition)
    • Problem 7.1 - Variational Method
    • 2.14 - Simple Harmonic Oscillator Calculations
  • Sakurai Modern Quantum Mechanics (Second Edition)
    • Chapter 1 Mathematical Problems 1, 4, 10, 29
  • Zettili Quantum Mechanics (Second Edition)
    • Problem 5.5 - Spin Eigenstates

Electromagnetism

  • Jackson Electrodynamics (Third Edition)
    • Problem 1.1 - Basics
    • 2.1 - Method of Images
    • Problem 5.33 - Mutual Inductance
  • Griffiths Introduction to Electrodynamics (Fourth Edition)
    • Problem 5.26 - Magnetic Vector Potentials
    • Problem 7.37 - Maxwell's Equations

Classical Mechanics

  • Landau and Lifshitz Classical Mechanics (Third Edition)
    • Problem 1.1 - Double Pendulum
    • Last question of chapter 2 section 7, page 16 - Conservation of Momentum
  • Taylor Classical Mechanics (First Edition)
    • Problem 5.40 - Resonance in Damped and Driven Oscillators
    • Problem 11.4 - Normal Modes of Coupled Systems
  • Goldstein Classical Mechanics (Third Edition)
    • Problem 8.15 - Hamiltonian's and Lagrangians
    • Problem 3.19 - Orbital Motion, Forces and Potentials

Statistical Mechanics

  • Schroeder Introduction to Thermal Physics (Seventh Edition)
    • Problem 5.12 - Maxwell Relations
    • Problem 3.10 - Entropy and Heat
    • Problem 7.28 - Fermi Gas and Density of States
    • Problem 7.72 - Bose Einstein Condensation