Undergraduate Program
Term Schedule, Physics
Spring 2021
Number  Title  Instructor  Time 

PHYS 10001
Aran GarciaBellido
MW 2:00PM  3:15PM


This is an introductory course designed especially for students in the humanities and other nonscientific fields who are interested in learning something about the physical world. Topics include the scale of the universe from galaxies to atoms and quarks; the fundamental forces of nature, motion and relativity, energy, electromagnetism and its everyday applications, the structure of matter, atoms, light and quantum mechanics.There are no prerequisites, no background knowledge is required and the material will be presented with very little mathematics. Substantial use will be made of demonstrations.


PHYS 11301
Yongli Gao
MW 9:00AM  10:15AM


First semester of a twocourse sequence suitable for students in the life sciences. Newtonian particle mechanics, including Newton's laws and their applications to straightline and circular motions, energy; linear momentum, angular momentum; and harmonic motion; sound, wave properties, and fluid dynamics. Calculus used as needed. In addition to Two 75minute lectures, One threehour laboratory every other week and one workshop per week is required. Laboratory and workshop registration is done at the time of the course registration. Students should register for the PHYS 081 lab. This course is offered in the Fall, Spring and Summer Session I (A6).


PHYS 113P01
Daniel Ruterbories
–


PLEASE NOTE: PHY113P has no fullyonline option since all the quizzes are inperson. Students who are fullyonline should register for the regular PHY113 course. 

PHYS 11401
Pierre Gourdain
TR 9:40AM  10:55AM


Second course of a twosemester sequence suitable for students in the life science. Electricity and magnetism, optics, electromagnetic waves; modern physics (introduction to relativity, quantum physics, etc.). In addition to the Two 75minute lectures each week, One workshop/recitation each week and One approximately threehour laboratory every other week is required. Laboratory and workshop registration is done at the time of the course registration. Students should register for the PHYS 084 lab. This course is offered in both the Spring, Summer Session II (B6).For Workshop Questions Email: Linda Cassidy  lcassidy@pas.rochester.eduFor Lab Questions Email: Lysa Wade  lwade3@ur.rochester.edu


PHYS 12101
Sheth Nyibule
TR 12:30PM  1:45PM


Course will make extensive use of geometry, algebra and trigonometry and simple integration and differentiation. Prior knowledge of introductory calculus (simple integration and differentiation) is required. First semester of a threecourse sequence for students planning to major in physics, other physical sciences, and engineering. Motion in one and two dimensions; Newton's laws; work and energy; conservation of energy; systems of particles; rotations; oscillations; gravity; thermodynamics. In addition to Two 75minute lectures each week, One workshop each week and One threehour laboratory every other week is required. Laboratory and workshop registration is done at the same time as the course registration. Students should register for the PHYS 081 lab. This course is offered in Spring and Summer session (A6). Prerequisites: PHY 099; MTH 161 and MTH 162 (MTH 162 may be taken concurrently). EAS 101, 102, 103, 104,105 or 108 can be accepted in place of PHY 099.


PHYS 121P01
Arie Bodek
F 4:50PM  6:05PM


PLEASE NOTE: PHY121P has no fullyonline option since all the quizzes are Prerequisites: PHY 099; MTH 161 and MTH 162 (MTH 162 may be taken concurrently). EAS 101, 102, 103, 104,105 or 108 can be accepted in place of PHY 099.


PHYS 12301
Taco Visser
MW 12:30PM  1:45PM


Third semester of a threecourse sequence for students planning to majoring in physics, other physical sciences and engineering. Wave motion, physical optics, special relativity, photoelectric effect, Compton effect, Xrays, wave properties of particles. Schrdinger's equation applied to a particle in a box, penetration of a barrier, the hydrogen atom, the harmonic oscillator, the uncertainty principle, Rutherford scattering, the timedependent Schrdinger equation and radioactive transitions, many electron atoms and molecules, statistical mechanics and selected topics in solid state physics, nuclear physics and particle physics. In addition to Two 75minutes lectures each week, One workshop each week and One threehour laboratory every other week is required. Laboratory and workshop registration is at the same time as the course registration. Students should register for the PHYS 083 lab. Offered in the Spring.


PHYS 14301
Joseph Eberly
TR 2:00PM  3:15PM


Second semester of a threecourse honors sequence, recommended for prospective departmental concentrators and other science or engineering students with a strong interest in physics or mathematics. Topics are the same as PHY 123 but in greater depth. Introductory examinations of Bohr's atomic model; Broglie waves; momentum and energy quantization; Heisenberg's uncertainty relation; Schrodinger's cat; electron spin; photon interference, and Bell's inequalities; selected applications to solidstate, nuclear, particle, and astrophysics. The laboratories and workshop registration is required at the same time as the course registration. Textbooks: (1)  'sIX IDEAS THAT SHAPED PHYSICS  UNIT Q: Particles Behave Like Waves' (*please note that the 2nd edition of this book is recommended vs the newer 3rd edition), (2)  'Quantum Theory  a Graphic Guide' MCEvoy and Zarate (3)  'Quantum Physics  Illusion or Reality' (Cambridge Univ. Press) Alistaire Rae


PHYS 18201
Arie Bodek
–


Laboratory experiments in electricity and magnetism: Coulomb's Law; electric fields; measurement of the absolute voltage and capacitance, electricity and magnetism of the electron; superconductivity; and electric circuits. This Laboratory uses the P/F University grading system. 

PHYS 18301
Arie Bodek
–


Laboratory experiments in modern physics: velocity of sound; geometrical optics and imaging; the wave nature of light and microwaves; the spectrum of atomic hydrogen; and the Frank Hertz experiment. This Laboratory uses the P/F University grading system. 

PHYS 18401
Arie Bodek
–


Laboratory experiments in electricity, magnetism, and modern physics: Coulomb's Law; electric fields; electricity and magnetism ratio of the electron, superconductivity;, electric circuits; geometrical optics and imaging; the wave nature of light; and the spectrum of atomic hydrogen. This Laboratory uses the P/F University grading system. 

PHYS 21801
Lynne Orr
MW 12:30PM  1:45PM


Electromagnetic induction; displacement current; Maxwell's equations; the wave equation; plane electromagnetic waves; Poynting vector; reflection and refraction; radiation; waveguides; transmission lines; propagation of light; radiation by charged particles; relativistic formulation of Maxwell's equations.


PHYS 22701
Gourab Ghoshal
TR 9:40AM  10:55AM


Multiplicity of physical states, equilibrium entropy and temperature, Boltzmann factor and partition function, statistical approach to free energy, chemical potential, distribution functions for ideal classical and quantum gases. Applications to chemical reactions, thermal engines, equations of state and phase transitions, applications.


PHYS 2331
Michael Heilemann
TR 11:05AM  12:20PM


Blank Description


PHYS 23701
Petros Tzeferacos
TR 12:30PM  1:45PM


Introduction to quantum mechanics with emphasis on applications to physical systems. Includes Schroedinger theory; solutions to the onedimentional Schroedinger equation; the hydrogen atom; and selected applications from atomic and molecular physics; quantum statistics; lasers; solids; nuclei; and elementary particles.


PHYS 244W01
Nicholas Bigelow
TR 2:00PM  4:40PM


A continuation of PHY 243W with greater emphasis on independent research and construction of more complicated instrumentation. This course can be used to satisfy part of the upperlevel writing requirement.


PHYS 245W01
Frank Wolfs
TR 2:00PM  4:40PM


The students enrolled in ANSEL will develop a sophisticated understanding of our terrestrial radiation environment and of some of the important applications of nuclear science and technology. They will acquire practical skills in the routine use of radiation detectors, monitors, and electronics, and develop the ability to assess radiation threats and prospects of their abatement. The four indepth ANSEL experiments are designed to help recreate a type of wellrounded, competent experimental nuclear scientist who is able to analyze an experimental problem, to select, design, and set up appropriate nuclear instrumentation, and to conduct required measurements. The laboratory sessions will meet twice a week for 2 hours and 40 minutes. The students are expected to write detailed lab reports on their work, and give a presentation on of their experiments at the end of the semester.In addition to the laboratory component of ANSEL students will attend a weekly lecture (1 hour and 15 minutes per week).


PHYS 24601
Sarada Rajeev
MW 3:25PM  4:40PM


Formalism of quantum theory with more advanced applications than PHY 237. Includes postulates of Quantum Mechanics; function spaces, Hermitian operators, completeness of basis sets; superposition, compatible observables, conservation theorems; operations in abstract vector space, spin and angular momentum matrices; addition of angular momentum; perturbation theory, and simple scattering theory.


PHYS 2521
Diane Dalecki
MWF 8:00AM  8:50AM


This course provides analyses of the physical bases for the use of highfrequency sound in medicine (diagnosis, therapy, and surgery) and biology. Topics include acoustic interactions of ultrasound with gas bodies (acoustic cavitation and contrast agents), thermal and nonthermal biological effects of ultrasound, ultrasonography, dosimetry, hyperthermia, and lithotripsy. Prerequisites: Math 164, Math 165, Physics 122 or Permission of instructor.


PHYS 25601
Alice Quillen
MW 2:00PM  3:15PM


Introduction of numerical and computational methods, with special emphasis on their utilities and applications in contemporary physics topics: Intro to programming language, numerical considerations, ordinary differential equations I & II, partial differential equations I & II, analysis of data, random numbers and evaluation, growth and fractal, Monte Carlo method.


PHYS 2613
Nick Vamivakas
MW 10:25AM  11:40AM


Complex representation of waves; propagation of waves, diffraction; scalar diffraction theory; Fresnel and Fraunhofer diffraction and application to measurement; partially coherent light; diffraction and image formation; optical transfer function; coherent optical systems, optical data processing, and holography (same as OPT 261).


PHYS 390A01
Steven Manly
–


This course is designed for an experienced undergraduate planning to be a Workshop Leader, Laboratory or Recitation Teaching Intern (TI), Students spend the semester teaching one workshop, laboratory or recitation section during the Fall/Spring semester introductory physics courses. This course may be taken more than once. 

PHYS 3911
–
–


Independent study project under the direction of a faculty member of the Department of Physics and Astronomy. Registration for Independent Study courses needs to be completed thru the instructions for online independent study registration. 

PHYS 391W1
–
–


Independent study project under the direction of a faculty member of the Department of Physics and Astronomy. This course may be used to satisfy part of the upper level writing requirement. Registration for Independent Study courses needs to be completed thru the instructions for online independent study registration. 

PHYS 393W02
Segev BenZvi
–


Completion of an independent research project under the direction of a faculty member of the Department of Physics and Astronomy. This course includes a writing component and can be used to satisfy part of the upperlevel writing requirement. 

PHYS 3951
–
–


Independent research project under the direction of a faculty member of the Department of Physics and Astronomy. Registration for Independent Study courses needs to be completed thru the instructions for online independent study registration. 
Spring 2021
Number  Title  Instructor  Time 

Monday and Wednesday  
PHYS 11301
Yongli Gao


First semester of a twocourse sequence suitable for students in the life sciences. Newtonian particle mechanics, including Newton's laws and their applications to straightline and circular motions, energy; linear momentum, angular momentum; and harmonic motion; sound, wave properties, and fluid dynamics. Calculus used as needed. In addition to Two 75minute lectures, One threehour laboratory every other week and one workshop per week is required. Laboratory and workshop registration is done at the time of the course registration. Students should register for the PHYS 081 lab. This course is offered in the Fall, Spring and Summer Session I (A6). 

PHYS 2613
Nick Vamivakas


Complex representation of waves; propagation of waves, diffraction; scalar diffraction theory; Fresnel and Fraunhofer diffraction and application to measurement; partially coherent light; diffraction and image formation; optical transfer function; coherent optical systems, optical data processing, and holography (same as OPT 261). 

PHYS 12301
Taco Visser


Third semester of a threecourse sequence for students planning to majoring in physics, other physical sciences and engineering. Wave motion, physical optics, special relativity, photoelectric effect, Compton effect, Xrays, wave properties of particles. Schrdinger's equation applied to a particle in a box, penetration of a barrier, the hydrogen atom, the harmonic oscillator, the uncertainty principle, Rutherford scattering, the timedependent Schrdinger equation and radioactive transitions, many electron atoms and molecules, statistical mechanics and selected topics in solid state physics, nuclear physics and particle physics. In addition to Two 75minutes lectures each week, One workshop each week and One threehour laboratory every other week is required. Laboratory and workshop registration is at the same time as the course registration. Students should register for the PHYS 083 lab. Offered in the Spring. 

PHYS 21801
Lynne Orr


Electromagnetic induction; displacement current; Maxwell's equations; the wave equation; plane electromagnetic waves; Poynting vector; reflection and refraction; radiation; waveguides; transmission lines; propagation of light; radiation by charged particles; relativistic formulation of Maxwell's equations. 

PHYS 10001
Aran GarciaBellido


This is an introductory course designed especially for students in the humanities and other nonscientific fields who are interested in learning something about the physical world. Topics include the scale of the universe from galaxies to atoms and quarks; the fundamental forces of nature, motion and relativity, energy, electromagnetism and its everyday applications, the structure of matter, atoms, light and quantum mechanics.There are no prerequisites, no background knowledge is required and the material will be presented with very little mathematics. Substantial use will be made of demonstrations. 

PHYS 25601
Alice Quillen


Introduction of numerical and computational methods, with special emphasis on their utilities and applications in contemporary physics topics: Intro to programming language, numerical considerations, ordinary differential equations I & II, partial differential equations I & II, analysis of data, random numbers and evaluation, growth and fractal, Monte Carlo method. 

PHYS 24601
Sarada Rajeev


Formalism of quantum theory with more advanced applications than PHY 237. Includes postulates of Quantum Mechanics; function spaces, Hermitian operators, completeness of basis sets; superposition, compatible observables, conservation theorems; operations in abstract vector space, spin and angular momentum matrices; addition of angular momentum; perturbation theory, and simple scattering theory. 

Monday, Wednesday, and Friday  
PHYS 2521
Diane Dalecki


This course provides analyses of the physical bases for the use of highfrequency sound in medicine (diagnosis, therapy, and surgery) and biology. Topics include acoustic interactions of ultrasound with gas bodies (acoustic cavitation and contrast agents), thermal and nonthermal biological effects of ultrasound, ultrasonography, dosimetry, hyperthermia, and lithotripsy. Prerequisites: Math 164, Math 165, Physics 122 or Permission of instructor. 

Tuesday and Thursday  
PHYS 11401
Pierre Gourdain


Second course of a twosemester sequence suitable for students in the life science. Electricity and magnetism, optics, electromagnetic waves; modern physics (introduction to relativity, quantum physics, etc.). In addition to the Two 75minute lectures each week, One workshop/recitation each week and One approximately threehour laboratory every other week is required. Laboratory and workshop registration is done at the time of the course registration. Students should register for the PHYS 084 lab. This course is offered in both the Spring, Summer Session II (B6).For Workshop Questions Email: Linda Cassidy  lcassidy@pas.rochester.eduFor Lab Questions Email: Lysa Wade  lwade3@ur.rochester.edu 

PHYS 22701
Gourab Ghoshal


Multiplicity of physical states, equilibrium entropy and temperature, Boltzmann factor and partition function, statistical approach to free energy, chemical potential, distribution functions for ideal classical and quantum gases. Applications to chemical reactions, thermal engines, equations of state and phase transitions, applications. 

PHYS 2331
Michael Heilemann


Blank Description 

PHYS 12101
Sheth Nyibule


Course will make extensive use of geometry, algebra and trigonometry and simple integration and differentiation. Prior knowledge of introductory calculus (simple integration and differentiation) is required. First semester of a threecourse sequence for students planning to major in physics, other physical sciences, and engineering. Motion in one and two dimensions; Newton's laws; work and energy; conservation of energy; systems of particles; rotations; oscillations; gravity; thermodynamics. In addition to Two 75minute lectures each week, One workshop each week and One threehour laboratory every other week is required. Laboratory and workshop registration is done at the same time as the course registration. Students should register for the PHYS 081 lab. This course is offered in Spring and Summer session (A6). Prerequisites: PHY 099; MTH 161 and MTH 162 (MTH 162 may be taken concurrently). EAS 101, 102, 103, 104,105 or 108 can be accepted in place of PHY 099. 

PHYS 23701
Petros Tzeferacos


Introduction to quantum mechanics with emphasis on applications to physical systems. Includes Schroedinger theory; solutions to the onedimentional Schroedinger equation; the hydrogen atom; and selected applications from atomic and molecular physics; quantum statistics; lasers; solids; nuclei; and elementary particles. 

PHYS 14301
Joseph Eberly


Second semester of a threecourse honors sequence, recommended for prospective departmental concentrators and other science or engineering students with a strong interest in physics or mathematics. Topics are the same as PHY 123 but in greater depth. Introductory examinations of Bohr's atomic model; Broglie waves; momentum and energy quantization; Heisenberg's uncertainty relation; Schrodinger's cat; electron spin; photon interference, and Bell's inequalities; selected applications to solidstate, nuclear, particle, and astrophysics. The laboratories and workshop registration is required at the same time as the course registration. Textbooks: (1)  'sIX IDEAS THAT SHAPED PHYSICS  UNIT Q: Particles Behave Like Waves' (*please note that the 2nd edition of this book is recommended vs the newer 3rd edition), (2)  'Quantum Theory  a Graphic Guide' MCEvoy and Zarate (3)  'Quantum Physics  Illusion or Reality' (Cambridge Univ. Press) Alistaire Rae 

PHYS 244W01
Nicholas Bigelow


A continuation of PHY 243W with greater emphasis on independent research and construction of more complicated instrumentation. This course can be used to satisfy part of the upperlevel writing requirement. 

PHYS 245W01
Frank Wolfs


The students enrolled in ANSEL will develop a sophisticated understanding of our terrestrial radiation environment and of some of the important applications of nuclear science and technology. They will acquire practical skills in the routine use of radiation detectors, monitors, and electronics, and develop the ability to assess radiation threats and prospects of their abatement. The four indepth ANSEL experiments are designed to help recreate a type of wellrounded, competent experimental nuclear scientist who is able to analyze an experimental problem, to select, design, and set up appropriate nuclear instrumentation, and to conduct required measurements. The laboratory sessions will meet twice a week for 2 hours and 40 minutes. The students are expected to write detailed lab reports on their work, and give a presentation on of their experiments at the end of the semester.In addition to the laboratory component of ANSEL students will attend a weekly lecture (1 hour and 15 minutes per week). 

Friday  
PHYS 121P01
Arie Bodek


PLEASE NOTE: PHY121P has no fullyonline option since all the quizzes are Prerequisites: PHY 099; MTH 161 and MTH 162 (MTH 162 may be taken concurrently). EAS 101, 102, 103, 104,105 or 108 can be accepted in place of PHY 099. 