GRE Physics Test

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The GRE physics test is an examination administered by the Educational Testing Service. The test attempts to determine the extent of the examinees' understanding of fundamental principles of physics and their ability to apply them to problem solving. Many graduate schools require applicants to take the exam and base admission decisions in part on the results. This puts pressure on undergraduate programs to teach the topics students will need to succeed on the GRE.

The scope of the test is largely that of the first three years of a standard United States undergraduate physics curriculum, since many students who plan to continue to graduate school apply during the first half of the fourth year. It consists of approximately 100 five-choice questions covering subject areas including classical mechanics and electromagnetism, wave phenomena and optics, thermal physics, relativity, atomic and quantum physics, laboratory techniques, and mathematical methods. The table indicates the relative weights and detailed contents of the major topics.

Contents 1 Major content topics 1.1 1. Classical mechanics (20%) 1.2 2. Electromagnetism (18%) 1.3 3. Optics and wave phenomena (9%) 1.4 4. Thermodynamics and statistical mechanics (10%) 1.5 5. Quantum mechanics (12%) 1.6 6. Atomic physics (10%) 1.7 7. Special relativity (6%) 1.8 8. Laboratory methods (6%) 1.9 9. Specialized topics 2 External links

[edit] Major content topics

[edit] 1. Classical mechanics (20%)

• kinematics
• Newton's laws of motion
• work and energy
• rotational motion about a fixed axis
• dynamics of systems of particles
• central forces and celestial mechanics
• three-dimensional particle dynamics
• Lagrangian and Hamiltonian formalism
• noninertial reference frames
• elementary topics in fluid dynamics

[edit] 2. Electromagnetism (18%)

• electrostatics
• currents and DC circuits
• magnetic fields in free space
• Lorentz force
• electromagnetic induction
• Maxwell's equations and their applications
• electromagnetic waves (electromagnetic radiation)
• AC circuits
• magnetic and electric fields in matter

[edit] 3. Optics and wave phenomena (9%)

• wave properties
• superposition
• interference
• diffraction
• geometrical optics
• polarization
• Doppler effect

[edit] 4. Thermodynamics and statistical mechanics (10%)

• laws of thermodynamics
• thermodynamic processes
• equations of state
• ideal gases
• kinetic theory
• ensembles
• statistical concepts and calculation of thermodynamic quantities
• thermal expansion and heat transfer

[edit] 5. Quantum mechanics (12%)

• fundamental concepts
• solutions of the Schrödinger wave equation
  • square wells (Particle in a box)
  • harmonic oscillators
  • hydrogenic atoms
• spin
• angular momentum
• wave function symmetry
• elementary perturbation theory

[edit] 6. Atomic physics (10%)

• properties of electrons
• Bohr model
• energy quantization
• atomic structure
• atomic spectra
• selection rules
• black-body radiation
• x-rays
• atoms in electric and magnetic fields

[edit] 7. Special relativity (6%)

• introductory concepts of special relativity
• time dilation
• length contraction
• simultaneity
• energy and momentum
• four-vectors and Lorentz transformation
• velocity addition

[edit] 8. Laboratory methods (6%)

• data and error analysis
• electronics
• instrumentation
• radiation detection
• counting statistics
• interaction of charged particles with matter
• lasers and optical interferometers
• dimensional analysis
• fundamental applications of probability and statistics

[edit] 9. Specialized topics

• nuclear and particle physics
  • nuclear properties
  • radioactive decay
  • fission and fusion
  • reactions
  • fundamental properties of elementary particles
• condensed matter
  • crystal structure
  • x-ray diffraction
  • thermal properties
  • electron theory of metals
  • semiconductors
  • superconductors
• Miscellaneous
  • astrophysics
  • mathematical methods
  • computer applications

Also:

Mathematical methods and their applications in physics

• single and multivariate calculus
• coordinate systems (rectangular, cylindrical, spherical)
• vector algebra and vector differential operators
• Fourier series
• partial differential equations
• boundary value problems
• matrices and determinants
• functions of complex variables

Range of raw scores needed to earn selected scaled scores on three physics test editions that differ in difficulty

Scaled score	Raw scores
	Form A	Form B	Form C
900	75	71	60-61
800	61	57	45
700	47	43-44	33
600	33-34	29-30	22
Number of questions used to compute raw score
	100	100	98

[edit] External links

• Official Description of the GRE Physics Test
• GRE Physics Forum - Bulletin board to communicate with other GRE Physics Test takers
• Publicly released tests and answers
• Detailed Solutions to all ETS released tests - The Missing Solutions Manual, free online, and User Comments and discussions on individual problems

Since the 3rd link above--Publicly released tests and answers--is broken or missing, here's a page that has all links to all 4:

• GRE Prep Course at Ohio State University - Great Prep Course, with links to all 4 publicly released Physics GRE tests, as well as links to other Physics GRE resources
• Publicly released tests