Program II: Applied Physics (Bachelor of Science in Physics)

Students on Summer 2021, Fall 2021, or Spring 2022 requirements PHYAPPLTRK

Students interested in obtaining a professional degree in an applied field, such as engineering, or in pursuing a high-tech job immediately after graduation are excellent candidates for the Applied Physics program. The Applied Physics program substitutes a more rigorous laboratory program and coursework in the applied aspects of physics for some of the traditional upper-level, theoretical courses. The centerpiece of the Applied Physics program is a three-month internship in a corporate or national laboratory setting.

View Degree MapA semester-by-semester path to completing degree and major requirements

Requirements

The major requires at least 35 credit hours (57 with the Addenda requirements), including the requirements listed below.

Physics I. One (1) course:
- PHYS-H 221 Honors Physics I
- PHYS-P 221 Physics I
PHYS-H 221 Honors Physics I
Credits
5
Prerequisites
Consent of department
Notes
P or C: MATH-M 211 or equivalent
Description
First semester of a calculus-based sequence in introductory physics, intended primarily for highly motivated and well prepared students. Covers the material of P221 and supplementary topics. Course fee required.
Repeatability
Credit given for only one of PHYS-H 221, PHYS-P 201, or PHYS-P 221.
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PHYS-P 221 Physics I
Credits
5
Prerequisites
None
Corequisites
MATH-M 211 or consent of instructor
Notes
First semester of a three-semester, calculus-based sequence intended for science majors. Three lectures, two discussion sections, and one 2-hour lab each week. Physics majors are encouraged to take PHYS-P 221 in the fall semester of the freshman year
Description
Newtonian mechanics, oscillations and waves, heat and thermodynamics.
Repeatability
Credit given for only one of PHYS-H 221, PHYS-P 201, or PHYS-P 221.
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Physics II. One (1) course:
- PHYS-H 222 Honors Physics II
- PHYS-P 222 Physics II
PHYS-H 222 Honors Physics II
Credits
5
Prerequisites
PHYS-H 221; or PHYS-P 221 and consent of department
Description
Second semester of a calculus-based sequence in introductory physics, intended primarily for highly motivated and well prepared students. Covers the material of PHYS-P 222 and supplementary topics. Course fee required.
Repeatability
Credit given for only one of PHYS-H 222, PHYS-P 202, or PHYS-P 222.
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PHYS-P 222 Physics II
Credits
5
Prerequisites
PHYS-H 221 or PHYS-P 221; or PHYS-P 201 and consent of instructor
Corequisites
MATH-M 212 or consent of instructor
Notes
Second semester of a three-semester, calculus-based sequence intended for science majors.Three lectures, two discussion sections, and one 2-hour lab each week. Physics majors are encouraged to take PHYS-P 222 in the spring semester of the freshman year
Description
Primarily electricity, magnetism, and geometrical and physical optics.
Repeatability
Credit given for only one of PHYS-H 222, PHYS-P 202, or PHYS-P 222.
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Physics III. One (1) course:
- PHYS-P 301 Physics III
PHYS-P 301 Physics III
Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 202 and consent of instructor
Notes
Third semester of a three-semester, calculus-based sequence.Intended for science and mathematics majors. Three lecture-discussion periods each week
Description
Special theory of relativity; introduction to quantum physics; atomic, nuclear, condensed matter, and elementary particle physics.
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Theory of Electricity and Magnetism I. One (1) course:
- PHYS-P 331 Theory of Electricity and Magnetism I
PHYS-P 331 Theory of Electricity and Magnetism I
Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 202 and consent of instructor; and MATH-M 312 or PHYS-P 321
Description
Electrostatic fields and differential operators, Laplace and Poisson equations, dielectric materials, steady currents, power and energy, induction, magnetic fields, scalar and vector potentials, Maxwell\'s equations.
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Analytical Mechanics I. One (1) course:
- PHYS-P 441 Analytical Mechanics I
PHYS-P 441 Analytical Mechanics I
Credits
3
Prerequisites
PHYS-P 222 or PHYS-H 222; or PHYS-P 202 and consent of instructor
Notes
P or C: MATH-M 343
Description
Elementary mechanics of particles and rigid bodies, treated by methods of calculus and differential equations.
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Modern Physics Laboratory. One (1) course:
- PHYS-P 309 Modern Physics Laboratory
PHYS-P 309 Modern Physics Laboratory

Credits
3
Prerequisites
None
Notes
P or C: PHYS-P 301
Description
Fundamental experiments in physics with emphasis on modern physics. The course aims to develop basic laboratory skills and data analysis techniques.
Applied Physics Instrumentation Laboratory. One (1) course:
- PHYS-P 350 Applied Physics Instrumentation Laboratory
PHYS-P 350 Applied Physics Instrumentation Laboratory
Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 201, PHYS-P 202, and consent of instructor
Notes
P or C: PHYS-P 309
Description
Instrumentation, data acquisition, and control for research, development, industrial applications depending upon coordination of electrical sensors, instruments, personal computers, and software. Covers the essentials of electronic signal measurements, transducers, computer control of instruments, design of automated measurement and control algorithms, real-time data analysis and instrument calibration.
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Experiments in Modern Physics. One (1) course:
- PHYS-P 400 Analog and Digital Electronics
- PHYS-P 451 Experiments in Modern Physics I
- PHYS-P 460 Modern Optics
PHYS-P 400 Analog and Digital Electronics
Credits
3
Prerequisites
None
Description
Practical electronics as would be encountered in a research laboratory or industrial setting. Both analog (filters, power supplies, transistors, amplifiers, op-amps, comparators, oscillators, transducers including the analysis of circuits using computer-aided techniques) and digital devices (storage elements, discrete gates, and programmable devices).
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PHYS-P 451 Experiments in Modern Physics I

Credits
3
Prerequisites
PHYS-P 301 and PHYS-P 309
Notes
R: PHYS-P 453 and PHYS-P 454 concurrently
Description
Advanced laboratory for senior physics majors. Experimental investigations and selected topics in nuclear, atomic, and solid state physics.
PHYS-P 460 Modern Optics
Credits
3
Prerequisites
PHYS-P 331 or consent of instructor
Description
Physical optics and electromagnetic waves based on electromagnetic theory, wave equations; phase and group velocity; dispersion; coherence; interference; diffraction; polarization of light and of electromagnetic radiation generally; wave guides; holography; masers and lasers; introduction to optical spectroscopy.
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Internship. 1 credit hour:
- PHYS-X 473 Applied Physics Internship
PHYS-X 473 Applied Physics Internship

Credits
1
Prerequisites
Consent of instructor or supervisor
Description
Internship in industry or national laboratory, arranged between the student, the student\'s faculty mentor, and an internship supervisor.
Repeatability
May be repeated for a maximum of 6 credit hours in PHYS-S 407 and PHYS-X 473.
Grading
S/F grading.
Physics Electives. Additional courses, as needed, to fulfill remaining requirements:
- PHYS-P 310 Environmental Physics
- PHYS-P 314 Introduction to Medical Physics
- PHYS-P 317 Signals and Information Processing in Living Systems
- PHYS-P 318 Scattering Methods in Materials Science
- PHYS-P 321 Techniques in Theoretical Physics
- PHYS-P 325 Computing Skills for Physical Scientists
- PHYS-P 332 Theory of Electricity and Magnetism II
- PHYS-P 340 Thermodynamics and Statistical Mechanics
- PHYS-P 350 Applied Physics Instrumentation Laboratory
- PHYS-P 371 Radiation Science Fundamentals
- PHYS-P 400 Analog and Digital Electronics
- PHYS-P 408 Current Research in Physics
- PHYS-P 410 Computing Applications in Physics
- PHYS-P 411 Computing Applications in Physics II
- PHYS-P 425 Introductory Biophysics
- PHYS-P 442 Analytical Mechanics II
- PHYS-P 451 Experiments in Modern Physics I
- PHYS-P 453 Introduction to Quantum Mechanics
- PHYS-P 454 Modern Physics
- PHYS-P 455 Quantum Computing I
- PHYS-P 456 Quantum Computing II
- PHYS-P 460 Modern Optics
- PHYS-P 470 Introduction to Accelerator Physics
- PHYS-P 472 Radiation Oncology Physics
- PHYS-P 478 Radiation Biophysics
- PHYS-X 473 Applied Physics Internship
- PHYS-X 490 Readings in Physics
- PHYS-X 498 Research Project
PHYS-P 310 Environmental Physics
Credits
3
Prerequisites
PHYS-H 221, PHYS-P 201, or PHYS-P 221; and MATH-M 211; or consent of instructor
Description
For biological and physical science majors. Relationship of physics to current environmental problems. Energy production, comparison of sources and byproducts; nature of and possible solutions to problems of noise, particulate matter in atmosphere.
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PHYS-P 314 Introduction to Medical Physics
Credits
3
Prerequisites
PHYS-H 221, PHYS-P 201, PHYS-P 221, or consent of instructor
Notes
R: PHYS-H 222, PHYS-P 202, or PHYS-P 222. Preferred for Physics majors: PHYS-P 371 and PHYS-P 472
Description
For biological and physical science majors. Applications of physics to the diagnosis, treatment, and prevention of human disease: diagnostic imaging, radiation therapy, radiation protection; radiation detection, dosimetry, exposure, instrumentation, cavity theory, non-ionizing radiation imaging, radiation biology, radiation oncology techniques, cancer biology, medical imaging technologies.
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PHYS-P 317 Signals and Information Processing in Living Systems

Credits
3
Prerequisites
PHYS-H 222, PHYS-P 202, or PHYS-P 222; and MATH-M 120 or MATH-M 211.
Description
Introduction to quantitative methods for life sciences, emphasizing how living systems process information. Topics include noise in sensory signals; consequences for sensory processing; uncertainty and decision making; neural networks, excitable waves in neurons and muscle; stability/instability; models of development and morphogenesis. Open to students in the physical or life sciences.

PHYS-P 318 Scattering Methods in Materials Science

Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 202 and consent of instructor
Description
Introduction to neutron and X-ray scattering techniques used in materials physics. Basic scattering theory; structural measurements of ordered, disordered, and nano materials; stress and strain measurements; imaging; inelastic neutron and X-ray scattering; EXAFS and NEXAFS; polarized neutrons and X-rays; proposal writing.
PHYS-P 321 Techniques in Theoretical Physics
Credits
3
Prerequisites
None
Notes
P or C: PHYS-P 301
Description
Particle motion in one, two, and three dimensions in the presence of forces; construction of forces from fields, and relationships between fields and sources; energies and potentials; complex oscillations and circuit analysis; classical and quantum mechanical waves and probabilities.
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PHYS-P 325 Computing Skills for Physical Scientists

Credits
3
Prerequisites
PHYS-P 201 and PHYS-P 202; or PHYS-P 221 and PHYS-P 222; and MATH-M 211, MATH-S 211, or equivalent
Description
Computer skills with application to upper-division physical science courses: use of Python as a programming language and Mathematica for symbolic manipulation; data fitting and visualization; numerical and Monte Carlo methods.
PHYS-P 332 Theory of Electricity and Magnetism II
Credits
3
Prerequisites
PHYS-P 331; or consent of instructor
Description
Magnetic materials, wave equations and radiation, energy transfer and conversion. Pointing vector and momentum, retarded potentials, dipole radiation, transmission lines and wave guides, relativity.
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PHYS-P 340 Thermodynamics and Statistical Mechanics
Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 202 and consent of instructor
Notes
P or C: MATH-M 311 or MATH-S 311
Description
Intermediate course, covering three laws of thermodynamics, classical and quantum statistical mechanics, and some applications.
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PHYS-P 350 Applied Physics Instrumentation Laboratory
Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 201, PHYS-P 202, and consent of instructor
Notes
P or C: PHYS-P 309
Description
Instrumentation, data acquisition, and control for research, development, industrial applications depending upon coordination of electrical sensors, instruments, personal computers, and software. Covers the essentials of electronic signal measurements, transducers, computer control of instruments, design of automated measurement and control algorithms, real-time data analysis and instrument calibration.
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PHYS-P 371 Radiation Science Fundamentals

Credits
3
Prerequisites
PHYS-H 222 or PHYS-P 222; or PHYS-P 202 and consent of instructor
Description
Introduces principles and concepts related to radioactive decay, interactions of ionizing radiation with matter, dosimetry and the human health effects of exposure to ionizing radiation; reviews fundamental concepts of atomic and sub-atomic processes, modern physics, Special Theory of Relativity, wave/particle duality and the Heisenberg Uncertainty Principle.
PHYS-P 400 Analog and Digital Electronics
Credits
3
Prerequisites
None
Description
Practical electronics as would be encountered in a research laboratory or industrial setting. Both analog (filters, power supplies, transistors, amplifiers, op-amps, comparators, oscillators, transducers including the analysis of circuits using computer-aided techniques) and digital devices (storage elements, discrete gates, and programmable devices).
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PHYS-P 408 Current Research in Physics

Credits
1
Prerequisites
None
Description
A series of introductory talks by 15 different faculty members on the current research activities of the Department of Physics. For senior-level students.
PHYS-P 410 Computing Applications in Physics
Credits
3
Prerequisites
PHYS-P 301; and CSCI-A 201 or CSCI-A 304; or consent of instructor
Description
Computing methods and techniques applied to a broad spectrum of physics problems. Emphasis on least-squares method and other curve-fitting techniques of nonlinear functions; Monte Carlo methods; data manipulation, including sorting, retrieval, and display.
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PHYS-P 411 Computing Applications in Physics II
Credits
3
Prerequisites
PHYS-P 410; or consent of instructor
Description
Continuation of PHYS-P 410 including introduction to stochastic modeling, statistical mechanics and quantum systems, improving code performance.
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PHYS-P 425 Introductory Biophysics
Credits
3
Prerequisites
None
Description
Overview of cellular components; basic structures of proteins, nucleotides, and biological membranes; solution physics of biological molecules; mechanics and motions of biopolymers; physical chemistry of binding affinity and kinetics; physics of transport and initial transduction; biophysical techniques such as microscopy and spectroscopy; mathematical modeling of biological systems; biophysics in the post-genome era, etc.
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PHYS-P 442 Analytical Mechanics II
Credits
3
Prerequisites
PHYS-P 441; or consent of instructor
Corequisites
MATH-M 343
Description
Elementary mechanics of particles and rigid bodies, treated by methods of calculus and differential equations.
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PHYS-P 451 Experiments in Modern Physics I

Credits
3
Prerequisites
PHYS-P 301 and PHYS-P 309
Notes
R: PHYS-P 453 and PHYS-P 454 concurrently
Description
Advanced laboratory for senior physics majors. Experimental investigations and selected topics in nuclear, atomic, and solid state physics.
PHYS-P 453 Introduction to Quantum Mechanics
Credits
3
Prerequisites
PHYS-P 301 and PHYS-P 331
Notes
R: PHYS-P 332 concurrently
Description
The Schroedinger equation with applications to problems such as barrier transmission, harmonic oscillation, and the hydrogen atom. Discussion of orbital and spin angular momentum and identical particles. Introduction to perturbation theory.
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PHYS-P 454 Modern Physics
Credits
4
Prerequisites
PHYS-P 453
Description
Structure of multielectron atoms. Experimental facts and theoretical models in solid state physics, nuclear physics, and elementary particle physics.
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PHYS-P 455 Quantum Computing I

Credits
3
Prerequisites
MATH-M 118, MATH-M 211, and MATH-M 303; or consent of instructor
Notes
Cross-listed as MATH-M 455
Description
Covers the interdisciplinary field of quantum information science and aims at senior undergraduate and graduate students majoring in computer science, physics, mathematics, philosophy, and chemistry. Quantum Information Science is the study of storing, processing, and communicating information using quantum systems.
Repeatability
Credit given for only one of MATH-M 455 and PHYS-P 455.

PHYS-P 456 Quantum Computing II

Credits
3
Prerequisites
MATH-M 118, MATH-M 211, and MATH-M 303; and MATH-M 455 or PHYS-P 455; or consent of instructor
Notes
Cross-listed as MATH-M 456
Description
Covers the interdisciplinary field of quantum information science and aims at senior undergraduate and graduate students majoring in computer science, physics, mathematics, philosophy, and chemistry. Quantum Information Science is the study of storing, processing, and communicating information using quantum systems.
Repeatability
Credit given for only one of MATH-M 456 and PHYS-P 456.
PHYS-P 460 Modern Optics
Credits
3
Prerequisites
PHYS-P 331 or consent of instructor
Description
Physical optics and electromagnetic waves based on electromagnetic theory, wave equations; phase and group velocity; dispersion; coherence; interference; diffraction; polarization of light and of electromagnetic radiation generally; wave guides; holography; masers and lasers; introduction to optical spectroscopy.
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PHYS-P 470 Introduction to Accelerator Physics

Credits
3
Prerequisites
Consent of instructor
Description
Overview of accelerator development and accelerator technologies. Principles of linear and circular accelerators, storage rings, colliders. Transverse phase space motion of a particle in an accelerator. Radio frequency acceleration and synchrotron light sources. Basics of free electron lasers. Spin dynamics in cyclic accelerators and storage rings.Â Â Â Â

PHYS-P 472 Radiation Oncology Physics

Credits
3
Prerequisites
PHYS-P 371; or consent of instructor
Description
Introduces the physical principles, equipment, processes, imaging guidance and clinical techniques involved in the treatment of cancer patients with external radiation beams and radioactive sources; energy deposition characteristics are described; treatment planning dose calculation algorithms and point dose calculations; international dosimetry protocols for radiation beam calibrations are covered in detail.

PHYS-P 478 Radiation Biophysics

Credits
3
Prerequisites
PHYS-P 301, PHYS-P 371, or consent of instructor
Description
Emphasis on the effects of ionizing radiation at the cellular/molecular, tissue, and organismal level. Topics include effects in tissue, DNA repair, chemical modifiers, the basis of radiotherapy, consequences of whole-body irradiation, and carcinogenesis. Especially relevant for students training in cancer biology, radiation oncology, radiology, public health, and medical physics.

PHYS-X 473 Applied Physics Internship

Credits
1
Prerequisites
Consent of instructor or supervisor
Description
Internship in industry or national laboratory, arranged between the student, the student\'s faculty mentor, and an internship supervisor.
Repeatability
May be repeated for a maximum of 6 credit hours in PHYS-S 407 and PHYS-X 473.
Grading
S/F grading.

PHYS-X 490 Readings in Physics

Credits
1–3 credit hours
Prerequisites
Consent of instructor
Description
Independent reading under supervision of a faculty member. Study in depth of a topic of interest to the student, culminating in a research paper.
Repeatability
May be repeated for a maximum of 9 credit hours in PHYS-S 405 and PHYS-X 490.

PHYS-X 498 Research Project

Credits
1–6 credit hours
Prerequisites
Consent of instructor or supervisor
Description
Research participation in group or independent project under the supervision of a faculty member in departmental research areas; or topic agreed upon between the student and supervisor.
Repeatability
May be repeated with a different topic for a maximum of 6 credit hours in PHYS-S 406 and PHYS-X 498.
Addenda Requirements*.
1. Mathematics.
  1. Calculus I. One (1) course:
    - MATH-M 211 Calculus I
    - MATH-S 211
    MATH-M 211 Calculus I
    Credits
    4
    Prerequisites
    None
    Notes
    R: To be successful, students will demonstrate mastery of two years of high school algebra, one year of high school geometry, and pre-calculus, and trigonometry as indicated by an appropriate ALEKS score or completion of MATH-M 027
    Description
    Limits, continuity, derivatives, definite and indefinite integrals, applications.
    Repeatability
    A student may receive credit for only one of the following: MATH-J 113, MATH-M 119, MATH-V 119, MATH-M 211, or MATH-S 211.
    
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  2. Calculus II. One (1) course:
    - MATH-M 212 Calculus II
    - MATH-S 212 Honors Calculus II
    MATH-M 212 Calculus II
    Credits
    4
    Prerequisites
    MATH-M 211 or MATH-S 211; or consent of department
    Description
    Techniques of integration (by parts, trigonometric substitutions, partial fractions), improper integrals, volume, work, arc length, surface area, infinite series.
    Repeatability
    Credit given for only one of MATH-M 120 or MATH-M 212.
    
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    MATH-S 212 Honors Calculus II
    Credits
    4
    Prerequisites
    MATH-S 211 or consent of department
    Description
    Includes material of MATH-M 212 and supplemental topics. Designed for students of outstanding ability in mathematics.
    Repeatability
    Credit given for only one of MATH-M 120, MATH-M 212, or MATH-S 212.
    
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  3. Calculus III. One (1) course:
    - MATH-M 311 Calculus III
    - MATH-S 311 Honors Course in Calculus III
    MATH-M 311 Calculus III
    Credits
    4
    Prerequisites
    MATH-M 212, MATH-M 213, or MATH-S 212
    Description
    Elementary geometry of 2, 3, and n-space; functions of several variables; partial differentiation; minimum and maximum problems; multiple integration.
    
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    MATH-S 311 Honors Course in Calculus III
    Credits
    4
    Prerequisites
    MATH-S 212 or consent of instructor; and MATH M-301, MATH M-303, or MATH S-303
    Description
    Honors version of MATH-M 311, covering geometry of 2, 3, and n-space; functions of several variables; partial differentiation; minimum and maximum problems; and multiple integration. For students with unusual aptitude and motivation.
    Repeatability
    Credit given for only one of MATH-M 311 or MATH-S 311.
    
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  4. Calculus IV. One (1) course:
    - MATH-M 312 Calculus IV
    - MATH-S 312 Honors Course in Calculus IV
    - PHYS-P 321 Techniques in Theoretical Physics (course counts toward Major GPA and Major Hours)
    MATH-M 312 Calculus IV
    
    Credits
    3
    Prerequisites
    MATH-M 311 or MATH-S 311
    Description
    Differential calculus of vector-valued functions, transformation of coordinates, change of variables in multiple integrals. Vector integral calculus: line integrals, Green\'s theorem, surface integrals, Stokes\' theorem. Applications.
    Repeatability
    Credit given for only one of MATH-M 312 or MATH-S 312.
    
    MATH-S 312 Honors Course in Calculus IV
    
    Credits
    3
    Prerequisites
    MATH-S 311 or consent of instructor
    Description
    For students with unusual aptitude and motivation.
    Repeatability
    Credit given for only one of MATH-M 312 or MATH-S 312.
    PHYS-P 321 Techniques in Theoretical Physics
    Credits
    3
    Prerequisites
    None
    Notes
    P or C: PHYS-P 301
    Description
    Particle motion in one, two, and three dimensions in the presence of forces; construction of forces from fields, and relationships between fields and sources; energies and potentials; complex oscillations and circuit analysis; classical and quantum mechanical waves and probabilities.
    
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  5. Introduction to Differential Equations with Applications I. One (1) course:
    - MATH-M 343
    - MATH-S 343 Honors Course in Differential Equations
    MATH-S 343 Honors Course in Differential Equations
    Credits
    3
    Prerequisites
    MATH-S 212 or consent of instructor
    Description
    Introduction, with historical examples, first order ordinary differential equations (ODEs) and applications, second order linear ODEs, linear ODEs of higher order, series solutions to linear ODEs, and numerical methods for ODEs. In addition, some theoretical aspects will be studied in detail such as the Picard existence/uniqueness theorem for initial-value problems, convergence of series solutions, and the matrix exponential exp(tA).
    
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2. Computer Science. Four (4) credit hours:
  - CSCI-A 201 INTRODUCTION TO PROGRAMMING I
  - Both of the following:
    - CSCI-A 304 INTRODUCTORY C++ PROGRAMMING
    - CSCI-A 306 OBJECT-ORIENTED PROGRAMMING IN C++
  - CSCI-C 211 Introduction to Computer Science (with permission of department)
  - CSCI-H 211 Introduction to Computer Science, Honors (with permission of department)
  CSCI-A 201 INTRODUCTION TO PROGRAMMING I
  
  Credits
  3–4 credit hours
  Prerequisites
  None
  Description
  None
  
  CSCI-A 304 INTRODUCTORY C++ PROGRAMMING
  
  Credits
  2–2 credit hours
  Prerequisites
  None
  Description
  None
  
  CSCI-A 306 OBJECT-ORIENTED PROGRAMMING IN C++
  
  Credits
  2–2 credit hours
  Prerequisites
  None
  Description
  None
  
  CSCI-C 211 Introduction to Computer Science
  
  Credits
  4
  Prerequisites
  High school precalculus math
  Description
  A first course in computer science for those intending to take advanced computer science courses. Introduction to programming and to algorithm design and analysis. Using the Scheme programming language, the course covers several programming paradigms. Lecture and laboratory.
  Repeatability
  Credit given for only one of CSCI-C 200, CSCI-C 211, CSCI-H 211, or CSCI-A 591.
  
  CSCI-H 211 Introduction to Computer Science, Honors
  
  Credits
  4
  Prerequisites
  High school precalculus math
  Description
  Honors version of CSCI-C 211. A first course in computer science for those intending to take advanced computer science courses. Introduction to programming and to algorithm design and analysis. Using the Scheme programming language, the course covers several programming paradigms. Lecture and laboratory.
  Repeatability
  Credit given for only one of CSCI-A 591, CSCI-C 200, CSCI-C 211, or CSCI-H 211.
Major GPA, Hours, and Minimum Grade Requirements.
1. Major GPA. A GPA of at least 2.000 for all courses taken in the major—including those where a grade lower than C- is earned—is required.
2. Major Minimum Grade. Except for the GPA requirement, a grade of C- or higher is required for a course to count toward a requirement in the major.
3. Major Upper Division Credit Hours. At least 18 credit hours in the major must be completed at the 300–499 level.
4. Major Residency. At least 18 credit hours in the major must be completed in courses taken through the Indiana University Bloomington campus or an IU-administered or IU co-sponsored Overseas Study program.

Notes

* Courses used to fulfill addenda requirements require a grade of C- or higher and do not count toward the Major GPA or Major Hours.

Major Area Courses

Unless otherwise noted below, the following courses are considered in the academic program and will count toward academic program requirements as appropriate:

Any course at the 100–499 level with the PHYS subject area prefix—as well as any other subject areas that are deemed functionally equivalent
Any course contained on the course lists for the academic program requirements at the time the course is taken—as well as any other courses that are deemed functionally equivalent—except for those listed only under Addenda Requirements
Any course directed to a non-Addenda requirement through an approved exception

Exclusions

The following courses cannot be applied toward major requirements:

PHYS-E 250
PHYS-P 101 Physics in the Modern World
PHYS-P 105 Basic Physics of Sound
PHYS-P 108 Audio Technology Acoustics Laboratory
PHYS-P 109 Introductory Acoustics Laboratory
PHYS-P 110 Energy
PHYS-P 111 Physics of Extraterrestrial Life
PHYS-P 120 Energy and Technology
PHYS-P 125 Energy in the 21st Century
PHYS-P 133 Physics for Future Leaders
PHYS-P 150 How Things Work
PHYS-P 151 21st Century Physics
PHYS-P 199 Physical Science through Inquiry
PHYS-Q 202

This program of study cannot be combined with the following:

Bachelor of Arts in Physics (PHYSBA)
Minor in Physics (PHYSMIN)
Program I: Physics (Bachelor of Science in Physics) (PHYSICSTRK)

Exceptions to and substitutions for major requirements may be made with the approval of the unit's Director of Undergraduate Studies, subject to final approval by the College of Arts and Sciences.

Program II: Applied Physics (Bachelor of Science in Physics)

Requirements

Major hours and GPA

Major Area Courses

Exclusions

Restrictions on combining this major with other academic programs

Major requirement exceptions and substitutions