Exhibits

From 1927 until 1964 the institution was known as the Michigan College of Mining and Technology (MCMT).

A new State of Michigan Constitution was adopted by the MI Constitutional Convention on August 1, 1962. The vote to ratify the new constitution was certified on June 20, 1963 (with 50.2% in favor, 49.8% against). That constitution refers to the Michigan College of Science and Technology in Article VIII, Sec 4, and was to take effect January 1, 1964. The Tech Board of Control had discussed the name change issue prior to this but deferred any action until after the vote on the new constitution.

On October 11, 1963, the Tech Board of Control was given two resolutions, one to change the name to Michigan College of Science and Technology (MCST) and one to change to Michigan Technological University (MTU). The resolution to change to MCST passed and the one for MTU was not acted upon. The resolution called for the name change to take effect “on January 1, 1964” and to remain “the official name until such time as the Board of Control may select and adopt another name.” However it is not clear that the Tech Board of Control had the authority to change the name of the institution.

There was no mention of the Board’s action in the newspapers for some time. The first seems to have been almost a month later in the Student Newspaper, The Lode. Following that, a large number of articles, editorials, and letters to the editor appeared pushing for the “University” designation.

On December 3, 1963, Senate Bill 1016 and House Bill 56 were introduced to the second extra session of the Michigan Legislature. These were identical bills which renamed MCMT to MCST and increased the size of the Board of Control. House Bill 56 was later amended in committee to change the name to MTU rather than to MCST. As originally introduced, these bills were to take effect “on January 1, 1964.”

Also early in December Senate Bill 1008 was introduced which, after amendment, renamed MCMT to MTU.

House Bill 56 (as amended) and Senate Bill 1008 passed and ended up as public acts 21 and 49. Senate Bill 1016 was never passed, presumably because the identical House Bill had already passed. Public act 21 also changes the names of Ferris Institute to Ferris State College, and Grand Valley College to Grand Valley State College.

The wording regarding the name change is similar in public acts 21 and 49. Quoting from public act 49: “The institution established in the Upper Peninsula known as the Michigan college of mining and technology, referred to in the constitution of 1963 as the Michigan college of science and technology, is continued after January 1, 1964, under the name of Michigan Technological University, …”

The phrase “after January 1, 1964” was explicitly added by amendment. Possibly this was to avoid a constitutional crisis since the constitution was to take effect “on January 1, 1964,” with the MCST name. However, the wording in the constitution also included the phrase “… by whatever names (MCST) may be hereafter known.” How long “after” the name changes were to take effect is not specified in the legislation.

The bills were signed into law by governor George Romney on December 27, 1963 and were to take effect immediately. A picture of the bill signing can be found in the 1948 Keweenawan (the MTU yearbook), page 48, as well as in the local newspaper.

At their February 14, 1964, meeting the Tech Board of Control passed a resolution “ratifying and confirming” the name Michigan Technological University and ordering “that the name Michigan Technological University be used hereafter as the legal and official name of the institution.” Again, it may be the Board of Control overstepped its authority. At the same meeting they considered some new designs for official seals and insignia but postponed action until later. The minutes of that meeting indicate that President Van Pelt thanked the Board of Control members for their support for the MTU name which they had communicated to the state legislature the previous December, though no mention of the subject could be found in the minutes of the Board of Control’s meeting from December. Presumably the support was given as a private communication and not through official action of the Board.

In none of these is there any mention of Tech having the MCST name for one hour, or for any length of time at all, as a matter of fact. On page 8 of the Daily Mining Gazette of December 31, 1963, before any changes took effect, is a brief report about some students who had purchased rings and sweaters with the MCST name in anticipation of that new name which never happened, and how the students were pleased, rather than disappointed, to have a unique artifact of the process. It is clear that most, if not all, regarded the change in name as being directly from MCMT to MTU and that that was the intention behind the legislation.

Whether or not the Board of Control has any name changing authority is also somewhat vague in the legislation. Within public act 49 is a statement regarding the powers of the Board of Control. After a detailed list which makes no mention of authority regarding the institution’s name, is the statement “All powers customarily exercised by the governing board of a college or university are vested in the board. The enumeration of powers herein is not deemed to exclude any of such powers not expressly excluded by law.” Since many colleges and universities have changed their name due to action of their governing board — a recent local example being the change from Suomi College to Finlandia University — perhaps the board does have name changing power.

Hence, it would indeed seem possible that, by a quirk, “on January 1, 1964” our name was MCST (due to the Board action on October 11 and/or due to the new constitution) and then the MTU name took effect only “after January 1, 1964.”

(If you have an artifact from 1963 with the MCST name on it, the MTU Archives would like to hear from you.)

 General Statement

"The Michigan College of Mines was established by an Act of the
Legislature in 1885. The act was entitled 'An Act to establish and
regulate a Mining School in the Upper Peninsula.' The Act vests the
government of the institution in a Board of Control of six members
appointed by the Governor of the State, by and with the consent of the
Senate. Two members of the Board are appointed each alternate year
to serve six years.
Sec. 5 of this Act provides: 'The course of instruction shall
embrace geology, mineralogy, chemistry, mining and mining
engineering and such other branches of practical and theoretical
knowledge as will, in the opinion of the board, conduce to the end of
enabling the students of said institution to obtain a full knowledge of
the science, art and practice of mining, and the application of
machinery thereto.'”
. . . . . . . . . . . . .
"The concentration of effort on training men for the field of mining,
the location of the College in a district where its students live in a
mining atmosphere, together with its special methods of instruction,
and manner of using the mining environment, have brought to the
institution a large measure of success.
The College was established for, and exists only for the purpose of
training men to take an active part in the development of the mineral
wealth of the state and nation. The concentration of effort on a
particular line of training has its advantages. . . . . . ."

General Information

"The purpose of the College, as stated in the law is very broad. 'Said College
shall provide the inhabitants of this State with the means of acquiring a thorough
knowledge of the mineral industry in its various phases, and of the application of
science to industry, as exemplified by the various engineering courses offered at
technological institutions, and shall seek to promote the welfare of the industries
of the state . . .' This act was passed by the state legislature of 1927 and broadens
the scope of the College in recognition of existing facts. While in the past the
instruction given at the College has covered the mining and metallurgical fields,
these branches of engineering are really the application of civil, mechanical,
electrical and chemical engineering to the business of producing mineral wealth.
The successful mining engineer and metallurgical engineer require broad
knowledge of all phases of engineering, and as such are really entitled to
recognition as general engineers, equipped to undertake work in almost any
branch of the engineering profession. Consequently changing the name of the
College and broadening its scope to make it a college of technology, demands only
moderate additions to its curriculum, and very greatly increases its usefulness."

Department Head: Professor Stebbins

Professors: Bacon, Keeling, Longacre, Mitchell, Pratt, Wyble, and Yerg

Associate Professors: Baldwin, Chimino, Hinzmann, and Shandley

Assistant Professors: Mount and Parks

 

"PHYSICS is concerned with matter and energy and their
interactions, and hence is of fundamental importance in science and
engineering. Advances in knowledge of physics have been accompanied by
better understanding of the universe, by new or improved products, and by a
more effective utilization of natural resources.
Programs are available for students with high interest and aptitude in
mathematics and physical science to major in physics, applied physics, or
geophysical engineering. The curriculum in physics is designed primarily for
those students who plan to do graduate work and then engage in teaching or
research. The curriculum in applied physics is rich in mathematics and
engineering science and is technology-oriented, however, it need not be
considered a terminal program, since many of the graduates enroll in advanced
studies. The curriculum in geophysical engineering is designed to provide
enough engineering training so that the graduate may be immediately useful in
the industry, and also is sufficiently broad and thorough to permit students to
continue graduate work in geophysics.
For the students who establish good records in the undergraduate
curricula, additional training is strongly recommended. At the graduate level,
programs leading to the Master of Science degree in physics or in geophysics
are offered."

Here are two physics-related sections from the Sample Admissions Test excerpted as written (including typos) from the 1891 Michigan Mining School Catalogue. In those early days, a Catalogue was a combination of what today we refer to as the Catalog and an annual report. 

Elementary Physics

1. 1. Upon what property do most of the characteristic properties of
      matter depend.
   2. Name the three general and five characteristic properties of
      matter.
   1. Name and define the three states of matter.
   2. Give Newton’s laws of motion.
   1. Define work and energy, give the formula for the calculation
      of kinetic energy from weight and velocity.
   2. Give the laws of freely falling bodies.
   1. How prove that the atmosphere has weight?
   2. What is the object of experiments in the study of physics?
   1. Diagram and explain the operation of the hydrostatic press.
   2. Define specific gravity and describe the experiments
      necessary to determine the specific gravity of an irregular solid. If
      the specific gravity of copper is 8.9, what is the volume, in cubic
      centimeters of a mass of this metal which weights 3.2 pounds?
   1. What is the mechanical equivalent of heat? To what is the
      heat of a body due? Do the atoms or the molecules of a body set
      either themselves or one another in motion?
   2. Give your idea of force. What is sound? What are the
      properties of a musical note? Diagram and explain the phonograph
      and the telephone.
   1. Explain the ways in which heat may be transmitted. Give
      some of its principal sources and effects. Change -40^oF. to C. Upon
      what does the boiling point depend?
   2. Define light. What constitutes the difference between light
      and heat? Between the different colors? What is the velocity of
      light? Of sound in the air, at the temperature 0^oC?
   1. Give the laws of magnets. Give the laws of currents of
      electricity. Explain Ampère’s theory of the magnet. How may
      magnets be made?
   2. Describe the experiments and the results obtained by the use
      of a galvanometer, a primary coil, a secondary coil, a battery and a
      magnet. Tabulate the results.
   1. Give Ohm’s law. Define ohm, volt, ampère. Draw diagrams
      showing how to connect cells in series and in arc or abreast. If a
      Bunsen cell as an electromotive force of 1.8 volts and internal
      resistance of .9 ohm, show how to connect ten such cells to get the
      greatest current, the external resistance being 100 ohms?
   2. Give some of the principal uses of electric currents. Explain
      how such currents are produced by a dynamo?
   1. What constitutes the difference between the operation of a
      dynamo and that of an electro-motor?
   2. In charging a storage battery, what is stored up in it? What
      is meant by “the conservation of energy?”

Astronomy

1. What is the general structure of the Solar System, and what is the
   physical constitution of the sun and its surroundings?
2. What is the physical constitution and special characteristics of the
   inner group of planets, including the moon?
3. What are the physical constitution and characteristics of the outer
   group of planets?
4. What are the aspects, forms and physical constitution of the
   comets, meteors and shooting stars.
5. What are nebulæ; new, variable and double stars, and upon what
   evidences are the views concerning them based?
6. How are stars located in the heavens? What are declination, right
   ascension, hour angle, latitude, longitude? and what are the six parts
   of the Polar triangle?
7. Describe the four kinds of time giving the maximum variations
   between them. How is the longitude of a place determined?
8. What is the general structure of the universe?
9. State clearly the Nebular Hypothesis, and give the evidence upon
   which it is based?
10. Give the general phenomena of the tides, their causes and laws.

Present Course	Previous Equivalent Course
PH201 Elements of Physics I	B11 General Physics
PH202 Elements of Physics II	B12 General Physics
PH203 Elements of Physics III	B13 General Physics
PH207 General Physics I	B1 General Physics I
PH208 General Physics II	B2 General Physics II
PH209 General Physics III	B3 General Physics III
PH310 General Physics IV	No Equivalent
PH316 Electrical Measurements	B6C Electrical Measurements I
PH317 Electrical Measurements Lab	B6L Electrical Measurements Lab
PH320 Photography	B10 Photography
PH327 Electricity and Magnetism I	B27 Electricity and Magnetism I
PH328 Electricity and Magnetism II	B31 Electricity and Magnetism II
No Equivalent	B102 Introduction To Mathematical Physics I
No Equivalent	B103 Introduction To Mathematical Physics II
PH336 Electric and Magnetic Measurements	B106 Electric and Magnetic Measurements
PH338 Introduction to Optics	B108 Introduction to Optics
PH351 Physics Colloquium	B150 Physics Colloquium I
PH352 Physics Colloquium	B150 Physics Colloquium I
PH353 Physics Colloquium	B150 Physics Colloquium I
PH380 Introduction to Geophysics	B180 Introduction to Geophysics
PH381 Geophysics I	B181 Geophysics
PH382 Geophysics II	B182 Geophysics
PH383 Seismic Prospecting for Oil	B183 Seismic Prospecting for Oil
PH385 Applied Geophysics	B185 Applied Geophysics
PH418 Intermediate Optics	B118 Intermediate Optics
PH420 Modern Physics I	B120 Modern Physics
PH421 Modern Physics II	B120 Modern Physics
PH425 Response of Physical Systems	B125 Response of Physical Systems
No Equivalent	B130 Physics in Industry
PH432 Theoretical Mechanics I	No Equivalent
PH433 Theoretical Mechanics II	No Equivalent
PH436 Electron Tubes	B136 Electron Tubes
PH437 Electron Tube Circuits	B137 Electron Tube Circuits
No Equivalent	B141 Electrical Measurements II
PH445 Heat and Thermodynamics I	B145 Heat and Thermodynamics I
PH446 Heat and Thermodynamics II	B146 Heat and Thermodynamics II
PH451 Senior Physics Colloquium	Physics Colloquium II
PH452 Senior Physics Colloquium	Physics Colloquium II
PH453 Senior Physics Colloquium	Physics Colloquium II
PH461 Theory of Heat Conduction	B101 Theory of Heat Conduction
PH469 Sound and Acoustics	B109 Sound and Acoustics
PH484 Well Logging	B184 Well Logging
PH487 Special Topics in Geophysics	No Equivalent
PH488 Problems in Mining Geophysics	No Equivalent
PH490 Methods of Geophysical Interpretation	B190 Advanced Methods of Geophysical Interpretation
PH500 Graduate Research	B201 Graduate Research in Physics
PH502 Radioactivity and Neutron Physics	B202 Radioactivity and Neutron Physics
PH504 Introduction to Seismology	No Equivalent
PH506 Theory of Potential Fields	No Equivalent
PH507 Theory of Vector Fields	No Equivalent
PH510 Theory of Geophysical Instrumentation	No Equivalent
PH551 Graduate Physics Colloquium	B250 Physics Colloquium III
PH552 Graduate Physics Colloquium	B250 Physics Colloquium III
PH553 Graduate Physics Colloquium	B250 Physics Colloquium III
PH561 Special Topics in Physics	No Equivalent
PH562 Special Topics in Physics	No Equivalent
PH563 Special Topics in Physics	No Equivalent
EM201 Statics	C1a Analytic Mechanics I
No Equivalent	C1b Analytic Mechanics I
EM202 Kinematics and Dynamics I	C2 Analytic Mechanics III
EM403 Kinematics and Dynamics II	C103 Analytic Mechanics IV
EM404 Elements of Mechanical Vibrations	C104 Elements of Mechanical Vibrations

Michigan Tech switched from a quarters system to semesters.

Course Under Quarters	Semester Equivalent Course
PH010	PH0010 Development of Physics Skills
PH020	PH0020 Team Approach to Learning Physics
PH130	PH1600 Introduction to Astronomy
No Equivalent	PH1610 Introduction to Astronomy Lab
PH181	PH1100 Introduction to Physics Lab I
PH182	PH1200 Introduction to Physics Lab II
PH183	PH1100 Introduction to Physics Lab I and PH1200 Introduction to Physics Lab II
PH201	PH1110 College Physics I
PH202	PH1110 College Physics I and PH1210 College Physics II
PH203	PH1210 College Physics II
PH204	PH2100 University Physics I
PH205	PH2200 University Physics II
PH206	PH2300 University Physics III and PH2400 University Physics IV
PH251	PH2010 Sophomore Seminar
PH310	PH2400 University Physics IV
PH316 (and PH337)	PH2230 Electronics for Scientists
PH330	PH3600 Introduction to Remote Sensing
PH332 (and PH333)	PH3110 Theoretical Mechanics I
PH333 (and PH332, 440)	PH3110 Theoretical Mechanics I and PH3111 Theoretical Mechanics II
PH337 (and PH316)	PH2230 Electronics for Scientists
PH345	PH3300 Thermodynamics and Statistical Mechanics
PH360 (and PH418)	PH3210 Geometrical and Physical Optics
PH401	PH5450 Relativity
PH405	PH4050 Qualitative Methods
PH411	PH3480 Modern Physics Laboratory
PH412	PH4080 Senior Research I
PH413	PH4081 Senior Research II
PH417	PH3440 Nuclear Radiation Measurements
PH418 (and PH360)	PH3210 Geometrical and Physical Optics
PH420, PH421, PH422	PH3410 Quantum Physics I and PH3411 Quantum Physics II
PH426	PH4210 Electricity and Magnetism I
PH427	PH4211 Electricity and Magnetism II
PH430	PH4610 Stellar Astrophysics
PH431	No Equivalent
PH432	PH4620 Galactic Astrophysics
PH440 (and PH333)	PH3111 Theoretical Mechanics II
PH444	PH4430 Introduction to Nuclear Physics
PH451, PH452, PH453	PH4010 Senior Colloquium I and PH4011 Senior Colloquium II
PH470	PH4510 Solid State Physics
PH480	PH4390 Computational Methods in Physics
PH481	PH4380 Computers in the Physics Laboratory
PH482	PH4395 Computer Simulation in Physics
PH490	PH4999 Special Topics in Physics

First Year

Professor Haynes

Fall and winter terms, three hours a week; spring term, fifteen hours a week.

Two terms of fourteen weeks each are spent upon the study of General Physics, including the topics of Mechanics, Hydrostatics, Pneumatics, Heat, Light, Magnetism and Electricity. In these two terms regular recitations are required, and the topics are illustrated by the instructor with lectures and experiments. This course closes with a term of six weeks of recitation and laboratory work, in which the student is required to do the work under the supervision of the instructor, the experiments being mostly in the domain of physical measurements, including those of Specific Gravity, Heat, Light and Electricity.

The method of instruction in this department combines recitations, lectures, laboratory work, and the solution of problems, in such a way as not only to afford the necessary variety, but at the same time to furnish also a constant encouragement to the student to become selfreliant both in his methods of thought and in his work.

In the laboratory work of this department each student is required to make a sketch and give a description of the apparatus used in each experiment; to put down his data, computation, conclusions, etc, during laboratory hours, in a note book; and, at the close of the laboratory work of each day to leave this book with the instructor for his inspection.

No student is permitted to take this practical laboratory course who has not passed in the necessary theoretical study and lectures that preceded it.

The equipment of the Physical Laboratory, which was quite recently begun and which is constantly growing, now contains among other pieces for lecture purposes the following:

• Mariott’s Apparatus
• Savart’s Wheel
• Atwood’s Machine
• A Large Toepler-Holtz Electric Machine
• An Edison dynamo
• 5 small electric Motors
• 1 set Natterer Tubes
• 2 sets Geissler Tubes
• 1 Combined Polariscope and Stauroscope
• 1 Combined Projecting Lantern and Polariscope
• 1 Lissajou’s Apparatus.
• 2 Singing Flame Apparatus
• 1 Tonometer

The following list embraces a part of the apparatus now contained in the laboratory, for students’ use:

• 5 Earth Inductors
• 5 Sliding Coil Magnets
• 4 Tangent Galvanometers
• 6 Astatic Galvanometers
• 4 Single Coil Mirror Galvanometers
• 4 Double Coil Mirror Galvanometers
• 3 Dead-Beat Mirror Galvanometers
• 12 Sets for Kundt’s Experiment
• 24 Resistance Coils
• 12 Calorimeters
• 12 Stem Jackets, “Apparatus A.”
• 8 Resistance Boxes, range 1 ohm to 11332 ohms
• 5 Spectragoniometers (Geneva)
• 6 Benson Photometers
• 12 Micrometers (ratchet)
• 13 Spherometers
• 6 Pierce’s Bridges
• 1 B. A. Bridge
• 2 Standard Ohms
• 1 Cathetometer
• 1 Becker Balance
• 6 Kohlbusch Balances
• 1 Springer Torsion Balance
• 3 Marine Sextants
• 1 Astronomical Sextant with artificial horizon
• 1 Cistern Barometer
• 2 Aneroid Barometers
• 2 Jolly Balances
• 7 Sonometers
• 1 “Bradley’s Complete Apparatus,” range 2-10000 of an ohm to 11111 1-10 ohms
• 1 “Standard Resistance Box and Bridge,” tested by Professor W. A. Anthony; range from 1-1,000,000 of an ohm to 110 millions of ohms

B. Physics

The President, Professor Fisher, Assistant Professor Grant, Messrs. Rood, Haigler, Jordan and Osborne

The aim in the department of Physics, as in that of Mathematics, is to select such objects as have, directly or indirectly, a bearing on the practical work of the mining engineer, and to treat these in as practical a manner as possible. The instruction is given by the laboratory method. The student goes at once into the laboratory, and there, under the direction of the instructors, experiments for himself. The experiments are mostly quantitative.

So far as possible mere mechanical following of direction is excluded, and intelligent thinking is made necessary to the accomplishment of the work. Every effort is put forth to have the student clearly develop and fix in his mind the principles of Physics which he will afterward use, and also to lay the foundation for that skill in accurate determination of quantity and care of delicate apparatus which are needed by the practical engineer. Accuracy and order are insisted on from the first. Each student receives individual attention, and, with the exception of a few experiments requiring more than one observer, he does his work independently of all other students.

The work of the laboratory is accompanied by illustrated lectures, and by text-book and recitation work.

The department is equipped with a good assortment of modern apparatus for lecture illustration and individual experiment.

B 1. General Physics

Professor Fisher, Assistant Professor Grant, Messrs. Rood, Haigler, Jordan and Osborne

This course includes Mechanics, Heat and Light. Lecture, recitation and laboratory work proceed together throughout the course. The geometrical side of Light is developed mostly in the laboratory, the wave theory in the lecture room with aid of the optical lantern.

Twelve hours a week, twenty-one weeks, winter and spring terms. To count as eight-tenths of a credit. Must be preceded by, or accompanied with A 1 (Algebra) and A 2 (Plane Trigonometry). The text books are Glazebrook’s Heat, Merrill’s Mechanics, and Laboratory Physics issued by the department.

B 2. Physical Measurements

Professor Fisher and Mr. Haigler

A more advanced course in measurements of precision, open to those who have taken B 1 and B 4 (Physics). The work offered will be mainly in the determination of densities, moments of inertia, calorimetry and photometry. Each student will work independently of all others, and to a considerable extent the choice of the line of work he is to pursue will lie with him.

Twenty-four hours a week, five weeks, last five weeks of the spring term. To count as four-tenths of a credit.

B 3. Electrical Measurements

Professor Fisher and Mr. Haigler

The increasing use of electricity in mining and related industries has caused the Michigan College of Mines to give particular attention to this subject.

This course is offered to those who are making Electrical Engineering their principal subject, to those who intend taking up Electrolytic or Electro-metallurgical work, and to any other who which to become familiar with those modern methods of electrical measurements necessary wherever there is made any practical application of this agent

In the course are included the measurements of current, resistance, potential difference, electromotive force, quantity, capacity, mutual and self induction, strength of field, etc.

In the lecture room the theory of a given measurement is taken up; then the construction and calibration of the instrument used in the measurement are studied, the instrument being at hand for inspection; and, finally, in the laboratory, the student calibrates, if necessary, and uses the instrument in making the measurement.

Examples of all the principal instruments used in modern electrical methods are owned by the institution, and are available for the work of this course.

The text book is Carhart and Patterson’s Electrical Measurements.

Nine hours a week, sixteen weeks in the winter term, and first five weeks of spring term. To count as five-tenths of a credit. To be preceded by C 1 (Analytic Mechanics).

B 4. General Physics

Professor Fisher, Assistant Professor Grant, Messrs. Rood, Haigler, Jordan and Osborne

Subject B 4 continues the work begun in B 1, and includes Heat and elementary course in Magnetism and Electricity. Text books used are Glazebrook’s Heat, Jackson’s Electricity and Magnetism and Laboratory Physics issued by the department.

Twelve hours a week, twelve weeks, fall term. To count as five-tenths of a credit. To be preceded by B 1 (Physics).

B 5. Light

The President and Professor Fisher

A more advanced course continuing the work begun in this subject in B 1 (Physics). The course is designed particularly for those students who desire to take up Petrography. It deals chiefly with polarization. The subject is presented mainly by experimental lectures. A very complete outfit of projection apparatus is in the possession of the department for use in this course.

Six hours a week, twelve weeks, Fall term. To count as two-tenths of a credit. To be preceded by B 1 (Physics) and W 4 (Elementary Mineralogy and Crystallography), and accompanied with X 1 (Petrography).

C. Mechanics

Professor Fisher and Assistant Professor Grant

An attempt is made in Mechanics to develop the essential principles, and to render the student proficient in applying them to practical rather than theoretical problems. To this end a large number of problems are solved which, so far as possible, are selected from machines or structures with which the student is already familiar, or the study of which he is subsequently to take up.

C 1. Analytic Mechanics

Professor Fisher and Assistant Professor Grant

Hancock’s Applied Mechanics for Engineers is used as a text, and this is supplemented with special problems having a direct bearing on the student’s future work in engineering.

Subject C 1 occupies three hours in classroom in the winter term and first half of spring term. To count as five-tenths of a credit.

To be preceded by, or accompanied with A 5 (Calculus).

C 2. Analytic Mechanics

Professor Fisher and Assistant Professor Grant

Subject C 2 continues the work begun in C 1, and is given three hours in class room, twelve weeks, in the fall term. To count as four-tenths of a credit.

To be preceded by C 1 (Analytic Mechanics).

B. Physics

Messrs. Fisher, Partlo, Harrington, Sermon, Longacre, Knaebel and Owens

The aim in the Department of Physics, as in that of Mathematics, is to select such subjects as have, directly or indirectly, a bearing on the practical work of an engineer, and to treat these in as practical a manner as possible. The instruction is given by the laboratory method. The student goes at once into the laboratory and there under the direction of instructors, experiments for himself. The experiments are mostly quantitative.

So far as possible mere mechanical following of direction is excluded, and intelligent thinking is made necessary to the accomplishment of the work. Every effort is put forth to have the student clearly develop and fix in his mind the principles of Physics which he will afterwards use, and also to lay the foundation for that skill in accurate determination of quantity and care of delicate apparatus which are needed by the practical engineer. Accuracy and order are insisted on from the first. Each student receives individual attention, and, with the exception of a few experiments requiring more than one observer, he does his work independently of all other students

The work of the laboratory is accompanied with illustrated lectures, and with textbook and recitation work.

The department is equipped with a good assortment of modern apparatus for lecture illustration and individual experiment.

B1 - B2 - B3. Physics, Mechanics, Light and Heat, Electricity
363 hours

Messrs. Fisher, Partlo, Harrington, Sermon, Gaffney, Longacre and Owens

Eleven hours a week, three hours in classroom, five hours in laboratory, and three hours in preparation, thirty-three weeks, fall, winter and spring terms

Lecture, recitation and laboratory work proceed together throughout the course.

The geometrical side of light is developed mostly in the laboratory and the wave theory in the lecture room with the aid of the optical lantern.

Prerequisites: A minimum of one year of class and laboratory work in high school physics. Must be preceded by A4 (Analytic Geometry).

Textbooks: Kimball – College Physics and Laboratory Physics issued by the Department

B4. Sound
44 hours

Messrs. Partlo and Harrington

Four hours a week, two hours in class and two hours in preparation, eleven weeks, winter term.

This course is designed to take up material of particular interest to electrical engineering students. It will include such subjects as general principles of sound, propagation of sound in different media, acoustics, etc.

To be accompanied with or preceded by B1-B2-B3 (Physics).

B5. Light
72 hours

Messrs. Partlo, Gaffney and Longacre

Six hours a week, three hours in classroom and three hours preparation, twelve weeks, fall term.

This course is offered to those who are making electrical engineering their principal subject, to those who intend taking up electrolytic or electro-metallurgical work, and to any other who wish to become familiar with those modern methods of electrical measurements necessary where there is made any practical application of this agent.

In the course are included the precise measurement of resistance, inductance and capacitance.

To be preceded or accompanied by A6 (Differential Equations) and preceded by B1-B2-B3 (Physics).

Textbook: Terry – Advanced Laboratory Practice in Electricity and Magnetism.

B7. Physical Measurements
120 hours

Messrs. Partlo and Harrington

Ten hours a week, three hours in the classroom, five hours in the laboratory and two hours in preparation, twelve weeks, fall term.

A more advanced course in measurements of precision, open to those who have taken B1-B2-B3 (Physics). The work offered will be mainly in the determination of densities, moments of inertia, calorimetry, photometry, and optics. Each student will work independently of all others and to a considerable extent the choice of the line of work he is to pursue will lie with him.

Prerequisites: A5 (Calculus) and B1-B2-B3 (Physics).

B8. Elementary Optics
40 hours

Messrs. Fisher, Partlo and Sermon

Four hours a week, two hours in classroom and two hours in preparation, ten weeks, spring term.

A course in elementary optics and optical instruments more advanced than that taken up in B2 (Light and Heat) and of particular interest to electrical engineering students.

To be preceded by B1-B2-B3 (Physics).

B58. Elementary Optics Laboratory
50 hours

Messrs. Partlo, Sermon and Longacre

Five hours a week, four hours in the laboratory and one hour in preparation, ten weeks, spring term.

This course is designed to accompany B8 (Elementary Optics) and will include measurements of wave length, index of refraction, interference phenomenae, diffraction, etc.

To be preceded or accompanied by B8 (Elementary Optics)

B102. Elementary Mathematical Physics
72 hours

Mr. Partlo

Six hours a week, two in classroom, four in preparation for twelve weeks

Mathematical analysis of physical problems arising in engineering and geophysics. This course may be devoted to any particular branch of mathematical physics, according to the needs of the students.

To be preceded by A5 (Calculus) and B1-B2-B3 (Physics).

Textbook: Library references.

B106. Electrical and Magnetic Measurements
147 hours

Messrs. Partlo, Gaffney and Longacre

Seven hours a week, two hours in the classroom, four hours in the laboratory, and one hour in preparation, twenty-one weeks, winter and spring terms.

The work of this course is a continuation of that begun in B6 (Electrical Measurements) and is intended for those who wish to pursue further the theory and practice of precise electrical measurements. In the class room the theory is developed and the applications pointed out. In the laboratory the student applies the theory to the experiment.

The course includes the study of circuits containing inductance, capacitance, resistance and electromotive forces; alternating currents; the vacuum tube and circuits containing it; measurements of current, potential difference, electromotive force, magnetic field, permeability, etc.

Examples of all the principal instruments used in modern electrical methods are owned by the institution and are available for work in this course

To be preceded by A6 (Differential Equations) and B6 (Electrical Measurements).

Textbook: Same as in B6.

B201. Physics Research
Maximum of 1000 hours per year

Mr. Fisher

Minimum of ten hours a week, maximum of thirty hours a week during any one term.

Fundamental research in applied physics and geophysics.

To be preceded by A5 (Calculus) and B1-B2-B3 (Physics).

C. Mechanics

Messrs. Fisher and Harrington

An attempt is made in Mechanics to develop the essential principles, and to render the student proficient in applying them to practical rather than theoretical problems. To this end a large number of problems are solved which so far as possible, are selected from machines or structures with which the student is already familiar or the study of which he is subsequently to take up.

C1. Analytic Mechanics
147 hours

Messrs. Fisher and Harrington

Seven hours a week, two hours in classroom, five hours in preparation, twenty-one weeks, winter and spring terms.

This course includes work in statics, flexible cords, rectilinear motion and curvilinear motion. The text is supplemented with special problems having a direct bearing on the student’s future work in engineering.

To be preceded by B1 (Physics) and preceded by or accompanied with A5 (Calculus).

Textbook: Hancock – Applied Mechanics for Engineers.

C2. Analytic Mechanics
108 hours

Messrs. Fisher and Harrington

Nine hours a week, three hours in classroom and six hours in preparation, twelve weeks, fall term.

Subject C2 continues the work begun in C1 and includes moments of inertia, dynamics of rotating bodies, transmission of power and friction of belts and pivot bearings.

To be preceded by C1 (Mechanics).

Textbook: Same as in C1.

B. Physics

Messrs. Partlo, Service, Longacre, Sermon, and Pratt

Introductory courses in general physics are offered at two levels – the one for medical technologists, etc, and the other for candidates for science and engineering degrees. At both levels every effort is made to provide the student with a broad and understanding knowledge of the fundamentals of physics. Whenever possible, the relationships between the principles being studied and scientific or engineering practices are pointed out. The laboratory demonstrations and educational movies are made use of to supplement the lecture and classroom work.

The intermediate and advanced courses in physics are available to both the engineering and the science students to develop and round out their background in fundamental physics. Here, as in the introductory courses, problems and projects are selected from science and engineering applications whenever possible.

Programs ave available for students wishing to major either in physics or engineering physics. Inquiries from interested persons are welcomed by either the registrar or the department.

B1C-2C-3C. General Physics
5-0-5, Fall; 3-0-3, Winter and Spring
264 hours

The classwork is divided as follows: B1C (Mechanics and Sound), B2C (Heat and Light), B3C (Electricity). Since physics provides a substantial part of the background for a scientist or an engineer, this introductory course is made as rigorous and technical as practicable. To be preceded by A4, and to be preceded or accompanied by A5a, A5b, A5c, and B1L-2L-3L.

B1L-2L-3L. General Physics Laboratory
0-4-0; Fall, Winter, and Spring
144 hours

These laboratory courses accompany the corresponding class courses in general physics and are conducted at the same level. Insofar as possible, the laboratory work is coordinated with the classroom work. To be preceded or accompanied by B1C2C-3C.

B6. Electrical Measurements
2-4-2; Fall or Winter
96 hours

Detailed consideration is given to the fundamental aspects of electricity and electrical units. In the course are included precise measurements of resistance, inductance, and capacitance. Prerequisites: A5a, A5b, A5c, and B3.

B10. Photography
2-4-0; Spring
72 hours

For the benefit of students who which to acquaint themselves with the physics and chemistry of photographic equipment and processes. Special attention is given to a study of cameras, lens systems, manipulation, lighting, photographic chemicals and their reactions, films, papers, and dark-room manipulations. Prerequisites: B2 and E3, Pt. I.

B11-12-13. General Physics
3-3-6; Fall, Winter, and Spring
432 hours

A course in general physics to familiarize the student with basic physical principles which will make possible his intelligent use of laboratory equipment. Mechanics, heat, light, sound, and electricity are covered. Emphasis is placed upon problems, to the end that a working knowledge of the subject may be had. Prerequisites: A11-12-13.

B101. Theory of Heat Conduction
3-0-6; Fall
108 hours

Mathematical analysis of heat flow and temperature distribution, with problems and applications in engineering. Solution by Fourier series and Fourier integral; steady states and periodic flow. Prerequisites: A5a, A5b, A5c, and B2.

B102-103-104. Mathematical Physics
2-0-4; Fall, Winter, and Spring
216 hours

Mathematical analysis of physic problems arising in engineering and geophysics. This course may be devoted to any particular branch of mathematical physics, according to the needs of the students. Prerequisites: A5a, A5b, A5c, and B3.

B105. Polarized Light
3-0-3; Fall
72 hours

A more advanced course continuing the work begun in this subject in B2. The course, designed particularly for those students who desire to take up Petrography, deals chiefly with polarization. The subject is presented mainly by experimental lectures. A very complete outfit of projection apparatus is in the possession of the department for use in this course. Prerequisites: B2 and W1.

B106. Electric and Magnetic Measurements
3-3-3; Spring
108 hours

A continuation of work begun in B6, intended for those who wish to pursue further the theory and practice of precise electrical measurements. In the classroom the theory is developed and the applications are pointed out. In the laboratory the student applies the theory to the experiment. The course includes the study of circuits containing inductance, capacitance, resistance, and electromotive forces and the measurement of current, potential difference, magnetic field, permeability, etc. Types of all the principal instruments used in modern electrical methods are owned by the institution and are available for work in this course. To be preceded by B6 and preceded or accompanied by A105.

B107. Electron Tubes
3-4-3; Winter
120 hours

The construction and characteristics of different types of electron tubes and examples of their applications are studied in detail. Stress is laid on uses other than for radio communication. In the laboratory as many as possible of the applications studied in class are examined experimentally. To be preceded or accompanied by B6.

B108. Physical Optics
3-4-5; Spring
144 hours

Intermediate physical optics and optical instruments. Prerequisites: A5a, A5b, A5c, B2, and B3.

B110. Geophysics
3-0-3; Fall and Winter
144 hours

General geophysics. The properties made use of in geophysical prospecting are taken up and the instruments and the methods are studied. Special attention is given to the correlation of the data obtainable with a knowledge of the geological conditions in order that the best possible interpretation may be given to the results. Magnetic, gravitational, elastic, electrical, thermic, and radio-activity methods are studied. Thorough preparation in mathematics, physics, and geology is essential for a proper understanding of the work.

B111. Applied Geophysics
48-150 hours

The amount of time, and the hours, are scheduled to suit the students and the instructor. The course familiarizes the student with the construction and use of instruments used in geophysical prospecting and with methods of interpreting measurements obtained. Prerequisites: B110.

B120. Modern Physics
3-0-6; Fall
108 hours

A survey of atomic and molecular structure, nuclear physics, and radiation, with emphasis on recent developments. Open to seniors with the consent of the department.

B130. Physics in Industry
3-0-6; Spring
108 hours

For senior and graduate students specializing in physics. Advanced students not specializing in physics may elect this course only with departmental permission. Special attention is devoted to the literature of applied physics and other sources dealing with contemporary industrial applications of the methods of physics.

B140. Heat and Thermodynamics
3-0-6; Spring
108 hours

An advanced course dealing with the study of thermal properties of matter, kinetic theory, and physical thermodynamics. Prerequisites: A105 and B1-2-3.

B150. Physics Colloquium I
1-0-2; Fall, Winter, and Spring
108 hours

Discussion of current literature and recent advances in the field of physics, under supervision of the departmental staff. Open to juniors with the consent of the department.

B151. Physics Colloquium II
1-0-2; Fall, Winter, and Spring
108 hours

Same in scope as B150. Open to seniors with the consent of the department.

B201. Physics Research
Maximum of 1080 hours

Minimum of ten hours a week and maximum of thirty hours a week during any one term. Fundamental research in applied physics or geophysics. Prerequisites: A105 and B3.

B250. Physics Colloquium III
1-0-2; Fall, Winter, and Spring
108 hours

Same in scope as B150 and B151. Students electing this course are expected to prepare reports and abstracts for presentation to the group, and to act as moderators of the discussions. Open to graduate students only.

C. Mechanics

Messrs. Partlo, Longacre, and Sermon

To give the student proficiency in applying essential principles to practical as well as theoretical problems, he solves a large number of problems which as far as possible are selected from machines or structures with which he is familiar or which he will subsequently study.

C1a-b. Analytic Mechanics
3-0-5; Winter and Spring
192 hours

Statics, flexible cords, and rectilinear and curvilinear motion. To be preceded by A5a and B1 and preceded or accompanied by A5b and A5c.

C2. Analytic Mechanics
3-0-6; Fall
108 hours

Moments of inertia, dynamics of rotating bodies, transmission of power, and friction of belts and pivot bearings. Prerequisite: C1a and C1b.

C103. Analytic Mechanics
3-0-6; Winter
108 hours

Impulse, momentum, impact, and special topics in kinetics, such as balancing of rotating masses, pendulums, governors, and gyroscopes. Prerequisite: C2.

C104. Elements of Mechanical Vibrations
3-0-6; Spring
108 hours

The more elementary phases of vibrations, and their application to practical problems. Prerequisites: B1, B2, B3, and C2.

Department Courses in Physics

PH201. Elements of Physics I
(0-3-3) Fall
4 hours

General principles of mechanics. Prerequisites: College algebra, trigonometry.

PH202. Elements of Physics II
(0-3-3) Winter
4 hours

General principles of electricity and magnetism. Prerequisite: PH201.

PH203. Elements of Physics III
(0-3-3) Spring
4 hours

General principles of heat, sound, and light. Prerequisite: PH201.

PH207. General Physics I
(2-2-2) Fall, Winter, and Spring
4 hours

An introductory course in mechanics. This is a technical course in physics designed for the student majoring in engineering or its allied sciences. Prerequisite: Preceded or accompanied by MA132.

PH208. General Physics II
(2-2-2) Fall, Winter, and Spring
4 hours

An introductory course in sound, heat, and geometric optics. Prerequisites: PH207, and preceded or accompanied by MA133.

PH209. General Physics III
(2-2-2) Fall, Winter, and Spring
4 hours

An introductory course in electricity and magnetism. Prerequisites: PH207 and preceded or accompanied by MA134.

PH310. General Physics IV
(0-3-0) Fall, Winter, and Spring
4 hours

An introductory course in physical optics and modern physics. Prerequisite: PH209.

PH316. Electrical Measurements
(0-3-0) Fall
3 hours

A course in which detailed consideration is given to the fundamental aspects of electricity and electric units. Precise measurements of resistance, inductance and capacitance are studied. Prerequisite: MA231.

PH317. Electrical Measurements Laboratory
(0-0-2) Winter
1 hour

Laboratory application of the theory discussed in PH316. Prerequisite: PH316.

PH320. Photography
(1-2-2) Fall and Spring
3 hours

For students who wish to acquaint themselves with the physics and chemistry of photographic equipment and processes. A study of cameras, lens systems, lighting, photographic chemicals, films, papers, and darkroom manipulations. Prerequisite PH208.

PH336. Electric and Magnetic Measurements
(0-3-3) Spring
4 hours

A continuation of work begun in PH316-317, intended for those who wish to pursue further the theory and practice of precise electric and magnetic measurements. Types of all the principal instruments used in modern electrical methods are available for use in this course. Prerequisite: PH317.

PH338. Introduction to Optics
(0-3-3) Winter
4 hours

Introduction to geometrical optics, including spherical mirrors, thin and thick lenses, construction and use of optical instruments. Introduction to physical optics, including interference, diffraction, and study of spectra. Prerequisite: PH310.

PH361. Theoretical Physics I
(0-5-0) Fall
5 hours

Mechanics of single particles, systems of particles, and rigid bodies. A vector and differential equation treatment. The material in this course is fundamental to many of the succeeding courses. Prerequisites: PH207, MA310.

PH362. Theoretical Physics II
(0-5-0) Winter
5 hours

An intermediate course covering the fundamental concepts of equilibrium thermodynamics from both the classical point of view of continuous media and the microscopic point of view of statistics. The course includes discussion of the three laws of thermodynamics, the thermodynamic potentials, phase equilibrium, the statistical concept of entropy, etc. Prerequisite: PH361.

PH363. Theoretical Physics III
(0-5-0) Spring
5 hours

Electrostatics and magnetostatics presented from the standpoint of field theory. Electric and magnetic properties of matter. Maxwell’s equations, the potentials, Pynting’stheorem. Free use of vector analysis throughout. Prerequisites: PH316, PH317, MA311, MA415 (may be taken concurrently) or permission of instructor.

PH380. Introduction to Geophysics
(0-3-0) Fall
3 hours

A study of the broad aspects of geophysics as related to terrestrial magnetism and electricity, oceanography, earthquake seismology, volcanism, mountain building, geodesy, and isostasy. Open to juniors with the consent of the department.

PH381. Geophysics I
(0-3-0) Fall
3 hours

Magnetic and gravitational prospecting methods. A study of fundamental principles, instruments, field methods, and interpretation. Special attnetion is given to geological and mining problems and to geological conditions which may influence interpretation. Prerequisites: GE102 and PH209.

PH382. Geophysics II
(0-3-0) Winter
3 hours

Electric, seismic, and radiometric methods of prospecting. A study of natural and induced seismic and electrical fields in the earth’s surface and a brief introduction to well logging. Emphasis is placed on interpretation of data with reference to engineering and geological problems. Prerequisites: GE102 and PH209.

PH385. Applied Geophysics
(0-0-4) Spring
2 hours

A laboratory and field course to familiarize the student with the construction, calibration, and use of selected geophysical prospecting equipment. Emphasis is placed on the recording, reduction, mapping, and interpretation of data. Prerequisites: PH381 and PH382.

PH411. Advanced Undergraduate Laboratory
(0-0-6) Fall
2 hours

Experiments in all areas of classical and modern physics with emphasis on the effect of the instruments or the experimental method on the result. Student initiative, originality, and ingenuity is emphasized. Prerequisites: PH317, PH436, MA310.

PH412. Advanced Undergraduate Laboratory
(0-0-6) Winter
2 hours

PH413. Advanced Undergraduate Laboratory
(0-0-6) Spring
2 hours

PH418. Intermediate Optics
(0-3-3) Spring
4 hours

A continuation of PH338. Selected topics in geometric optics. Physical optics including polarization, spectra, and quantum optics. Prerequisites: MA311 and PH338.

PH422. Modern Physics Seminar
(0-3-0) Spring
3 hours

Detailed discussion of selected topics in modern physics, including relativity, high energy physics, and “strange” particles. Current literature will be used as source material. Topics will be presented by students and by the instructor. Admission by permission of the Department.

PH425. Response of Physical Systems
(0-3-0) Fall
3 hours

A study of the theory applicable to physical systems and the application of mathematics to system response. Admission by permission of the department.

PH435. Introductory Plasma Physics
(0-3-0) Fall
3 hours

An introductory course in the theoretical aspects of plasmas including statistical distribution functions, charged particle behavior in static and time varying electric and magnetic fields, and microscopic and macroscopic plasma characteristics. Prerequisites: PH363, PH461 (may be taken concurrently).

PH436. Electronics I
(0-3-3) Spring
4 hours

Fundamental principles of electron ballistics, electron emission, gaseous conduction, multi-element tubes, and solid-state electronics. Also rectifier tubes and circuits. Prerequisite: PH310.

PH437. Electronics II
(0-3-3) Winter
4 hours

The fundamental principles of circuits and amplifiers, vacuum tub oscillators, wave shaping devices, and photoelectric cells. Prerequisite: PH436.

PH440. Space Science
(0-3-0) Fall
3 hours

Space exploration techniques, aeronomy, trapped radiation, interaction of the geomagnetic field with the solar wind, interplanetary medium, solar physics, planetary atmosphere, stellar physics, cosmogony. Prerequisites: PH310 and permission of instructor.

PH451. Senior Physics Colloquium
(0-2-0) Fall
1 hour

PH452. Senior Physics Colloquium
(0-2-0) Winter
1 hour

PH453. Senior Physics Colloquium
(0-2-0) Spring
1 hour

Discussion of current literature and recent advances in the field of physics, under supervision of the department staff. Open to seniors with the consent of the department.

PH461. Theoretical Physics IV
(0-5-0) Fall
5 hours

Plane electromagnetic waves in empty space, reflection, refraction, diffraction, dispersion. The field of an oscillating dipole; spherical waves. Electron theory of dielectric constant; permeability, polarization. Prerequisite: PH363.

PH462. Theoretical Physics V
(0-5-0) Winter
5 hours

A study of the foundations of modern physics including the great ideas and experiments of the late 19th and 20th centuries which culminated in the quantum theory. Development of the quantum theory and its applications in atomic and molecular structure and solid state physics. Prerequisites: PH361, MA310 and permission of the instructor.

PH463. Theoretical Physics VI.
(0-5-0) Spring
5 hours

A study of very recent developments in physics, the relativity theory, nuclear physics, high energy physics, the particles of modern physics. Prerequisites: PH462 and permission of instructor.

PH465. Classical Wave Motion
(0-3-0) Winter
3 hours

A comprehensive treatment of the propagation of disturbances through compressible and incompressible fluids and through deformable solid bodies. Prerequisites: PH310 or PH461, MA310 and permission of instructor.

PH470. Introduction to Solid State Physics
(0-3-0) Fall
3 hours

A study of the physical properties of crystalline solids including structural, mechanical, thermal, and electrical properties which can be treated by classical or semi-classical methods. Prerequisites: MA310, PH310, and permission of the instructor.

PH483. Seismic Prospecting for Oil
(0-3-0) Spring
3 hours

A study of theory and practice in seismic prospecting for oil, including instrumentation, field techniques, seismological wave theory, and actual field problems. Prerequisite: PH382.

PH484. Well Logging
(0-3-0) Spring
3 hours

Theory and application of well logging as related to geological correlation problems and the quantitative determinations of porosity, permeability, and connate water saturations. Includes electrical, radioactive, caliper, induction, magnetic, temperature, and velocity logging. Prerequisites: PH381 and PH382.

PH487. Special Problem in Geophysics
3 hours

An elective course involving undergraduate research in exploration, instrumentation, or theory. Scheduled by arrangement; admission by permission of the department.

PH488. Problems in Mining Geophysics
(0-3-0) Fall
3 hours

A study of interpretation of geophysical problems associated with the mining industry. Prerequisite: PH385.

PH490. Special Problems in Physics
Fall, Winter, and Spring
1-6 hours

A course designed to permit students to study a particular area of physics at greater depth than is done in presently scheduled formal courses. Prerequisites: Junior or senior standing and permission of instructor.

PH500. Graduate Research
9-15 hours

Research in physics or geophysics. Scheduled by arrangement; admission by permission of the department.

PH504. Introduction to Seismology
(0-3-0) Fall
3 hours

Basic theory of seismology, propagation of waves, energy transfer through the earth, and problems associated with earthquake seismology. Admission by permission of the department.

PH510. Theory of Geophysical Instrumentation
(0-3-0) Spring
3 hours

The theory involved in the design of geophysical instruments. Prerequisites: MA310 and PH436.

PH512. Methods of Geophysical Interpretation
(0-3-0) Winter
3 hours

Statistical and analytical methods of analysis of magnetic and gravimetric anomalies. Calculation of anomalies and terrain effects for two dimensional bodies by means of line integrals and higher order derivatives. Prerequisites: MA310, PH381, and PH382.

PH516. Geophysics Seminar
(0-3-0) Winter
3 hours

An exhaustive study of a particular topic in geophysics Choice of topic is left to staff and students. Selection of tipic made during fall term prior to course offering. Admission by permission of department.

PH522. Theoretical Physics I.
(0-4-0) Fall
4 hours

An introduction to field theory including the Lorentz transformation, waves, Maxwell’s equations, Lagrange’s and Hamilton’s equations, and scalar and vector fields. Prerequisites: MA310, MA425, PH310 and permission of the department.

PH523. Theoretical Physics II
(0-4-0) Winter
4 hours

The general methods for the solution of boundary value problems including Laplace’s equation, the wave equation, Eigen functions, integral representation, and Legendre functions. Prerequisite: PH522.

PH524. Theoretical Physics III
(0-4-0) Spring
4 hours

Potential theory and wave theory described with the aid of Green’s functions and integral equations. Prerequisite: PH523.

PH532. Advanced Solid State Physics
(0-3-0) Spring
3 hours

Ferromagnetism, band theory,semiconductivity,superconductivity, lattice defects, crystal field theory. Prerequisite: PH470.

PH533. Quantum Mechanics I
(0-3-0) Winter
3 hours

A study of the origin and mathematical formulation of Quantum Theory, the Uncertainty Principle, Schrodinger’s Equation, and applications to simple systems. Prerequisites: MA310, PH310, and permission of the instructor.

PH534. Quantum Mechanics II
(0-3-0) Spring
3 hours

A continuation of PH533 including approximation methods, the matrix formulation, spin and angular momentum, and many-electron systems. Prerequisite: PH533.

PH540. Kinetic Theory and Statistical Mechanics
(0-3-0) Fall
3 hours

A study of the mean free path, distribution of molecular velocities, transport phenomena, quantum statistics, derivation of the laws of thermodynamics, and applications to a perfect gas. Prerequisite: PH446 or equivalent.

PH544. Nuclear Physics I
(0-3-0) Winter
3 hours

Natural and induced radioactivity, constitution of the nucleus, properties of radiation and their interactions with matter. Radioactive decay series, time constants and equilibria, the relation between radioactivity and nuclear changes, stable and unstable nuclei and relation to radioactivity Prerequisite: PH422.

PH545. Nuclear Physics II
(0-3-0) Spring
3 hours

Review of radioactivity, interactions of alpha particles and other nucleons with matter, discovery of the neutron, its place in the nucleus, the neutrino, energy relations and energy levels of the nucleus. Study of other particles such as the meson, and their relation to the nucleus. Prerequisite: PH422 or equivalent.

PH561. Special Topics in Physics
(0-3-0) Fall
3 hours

PH562. Special Topics in Physics
(0-3-0) Winter
3 hours

PH563. Special Topics in Physics
(0-3-0) Spring
3 hours

The subject matter may vary from term to term and from year to year depending on the needs of advanced students. Admission by permission of the department.

Department Courses in Physics

PH010 Development of Physics Skills
(0-1-0) Fall, Winter, and Spring
1 hour

May be repeated for a maximum of 3 credits. Individualized instruction in physics problem solving and general study skills from professional physics coaches. Benefits students looking for help with demanding college-level physics courses (PH201 through PH310). Graded on pass/fail basis. Credits do not count toward graduation. Prerequisite: permission of instructor.

PH020 Team Approach to Learning Physics
(0-1-0)
1 hour

May be repeated for a maximum of 3 credits. Collaborative approach to the study of physics. Students meet 3 hours per week with 4 to 6 team members who are concurrently taking the same physics course in general physics (PH204 or PH205). Students will work under the direction of a professional physics coach to learn the team approach to problem solving. Benefits students looking for help with demanding courses and who would also like experience in team problem solving. Graded pass/fail. Credits do not count toward graduation. Prerequisite: permission of instructor; corequisite: PH204 or PH205.

PH130 Introductory Astronomy
(3-0-0) Fall
3 hours

Fundamentals of astronomy, including Kepler’s and Newton’s laws of motion, origin and evolution of the solar system, and an introduction to galactic astronomy, extra-galactic astronomy, cosmology, and modern astronomical instrumentation, including space-based astronomy.

PH181 Introductory Physics Laboratory I
(0-0-2) Fall, Winter, Spring, and Summer
1 hour

Principles of classical mechanics investigated using discovery-based laboratories.

PH182 Introductory Physics Laboratory II
(0-0-2) Fall, Winter, Spring, and Summer
1 hour

Principles of electricity and magnetism investigated using discovery-based laboratories. Prerequisite: PH181.

PH183 Introductory Physics Laboratory III
(0-0-2) Fall, Winter, Spring, and Summer
1 hour

Principles of thermodynamics, waves, optics and modern physics investigated using discovery based labs. Prerequisite: PH182.

PH201 Elements of Physics I
(3-0-0) Fall, Winter, and Summer
3 hours

General principles of particle, rigid body, vibrational, and fluid mechanics. Prerequisite: MA131 or MAT111; and PH181.

PH202 Elements of Physics II
(3-0-0) Winter, Spring, and Summer
3 hours

General principles of electricity, magnetism, heat, mechanical waves, and sound. Prerequisite: PH201 and PH182.

PH203 Elements of Physics III
(3-0-0) Fall and Spring
3 hours

General principles of geometrical and physical optics and modern physics. Prerequisite: PH201 and PH183.

PH204 General Physics I
(2-2-0) Fall, Winter, Spring, and Summer
4 hours

Calculus-based introduction to mechanics, including kinematics of motion in one and two dimensions. Newton’s laws, conservation of energy and momentum, rotational motion, simple harmonic motion, and the universal law of gravitation. Prerequisite: PH181; corequisite: MA151.

PH205 General Physics II
(2-2-0) Fall, Winter, Spring, and Summer
4 hours

Calculus-based introduction to electricity and magnetism, including electric and magnetic fields, Gauss’ law, capacitance resistance, magnetic induction, inductance, electromagnetic waves, and geometric optics. Prerequisites: PH182 and PH204; corequisite: MA152.

PH206 General Physics III
(2-2-0) Fall, Winter, Spring, and Summer
4 hours

Introduction to thermodynamics, including kinetic theory, geometrical optics, wave motion, and the physics of the atom. Prerequisite: PH183, PH205 and MA152

PH251 Sophomore Journal Club
(0-2-0) Fall
1 hour

Discussion of recent research in physics. Prerequisite: sophomore standing.

PH310 General Physics IV
(2-2-0) Fall, Spring, and Summer
4 hours

Concepts of modern physics, including atomic view of matter and radiation, relativity, quantum mechanics, radioactivity, and fission. Prerequisite: PH205

PH316 Electronics for Scientists I
(0-3-3) Fall
4 hours

An introduction and survey of analog electronics with an emphasis on their use in the laboratory. To include linear devices and basic linear circuit analysis for both AC and DC signals, non-linear devices such as diodes, transistors, and integrated circuits such as op-amps, with an emphasis on their use, as well as the connections between components, including basic transmission line theory. Prerequisite: PH205; or permission of the department.

PH330 Introduction to Remote Sensing
(0-3-0) Fall
3 hours

Concepts of remote sensing including an introduction to radiation, remote sensing instrumentation including multispectral and hyperspectral sensors, earth resource satellites, and image interpretation and processing. Applications of specific projects in biology, civil engineering, electrical engineering, forestry, geophysics, and physics will be presented. Prerequisites: junior standing in above mentioned departments; or permission of instructor.

PH332 Theoretical Mechanics I
(0-3-0) Winter
3 hours

Intermediate-level study of classical mechanics. Topics include the motion of a single particle, the simple harmonic oscillator, and centra-force motion. Prerequisite: PH204; corequisite: MA250.

PH333 Theoretical Mechanics II
(0-3-0) Spring
3 hours

Continuation of PH332. Topics include the description of motion in non-inertial reference frames, the motion of systems of particles, rigid body motion, and an introduction to Lagrangian mechanics. Prerequisite: PH332.

PH337 Electronics for Scientists II
(0-3-3) Winter
4 hours

A continuation of PH316 with an emphasis on digital electronics and their use in the laboratory. Topics include binary arithmetic, boolean logic, basic logic gates, flip-flops, counters, clocks, registers, and large-scale integrated circuits, such as microcontrollers and microprocessors. Analog to digital and digital to analog conversion, basic parallel and serial digital communication techniques, and other topics related to the use of these devices in the laboratory will also be covered. Prerequisite: PH316 or permission of the department.

PH345 Thermodynamics and Statistical Mechanics
(0-4-0) Spring
4 hours

First and second laws of thermodynamics, phase equilibrium, and thermodynamic potentials. Microscopic formulation of the laws of thermodynamics including the statistical development of the concept of entropy. The Maxwell-Boltzmann, Bose-Einstein, and Fermi-Dirac distributions are introduced and related to physical problems. Prerequisite: PH206 or PH310.

PH360 Geometrical and Physical Optics
(0-3-3) Spring
4 hours

The treatment of mirrors and lenses using geometrical optic techniques and a study of interference, diffraction, and polarization. Prerequisites: PH206; corequisite: MA310.

PH401 Special Relativity Theory
(0-3-0) Winter
3 hours

Introduction to special relativity theory from its historical and experimental origin, including its conceptual development in kinematics, dynamics, and electromagnetism. Prerequisite: junior standing, permission of instructor.

PH405 Qualitative Methods in Problem Solving
(0-1-0) Fall
1 hour

Methods of problem solving including scaling, numerical estimation, and dimensional analysis. Problems may be taken from standardized exams. Prerequisite: senior standing.

PH411 Senior Laboratory/Project
(0-0-6) Fall
2 hours

Advanced laboratory techniques emphasized in a series of experiments in classical and modern physics. Prerequisites: PH337.

PH412 Senior Laboratory/Project
(0-0-6) Winter
2 hours

Introduction to research under the guidance of a faculty member. In addition, creative problem solving will be assessed via a student-initiated project. Prerequisites: PH411.

PH413 Senior Laboratory/Project
(0-0-6) Spring
2 hours

Continuation of research under the guidance of a faculty member, culminating in a written report and presentation of results at an undergraduate research forum. Prerequisites: PH412.

PH417 Nuclear Radiation Measurements
(0-2-3) Fall
3 hours

Instrument and measurement theory, combined with laboratory practice in the use of all available types of apparatus, for the detection and characterization of nuclear radiation. Sampling techniques are considered and error analysis is applied to develop skills in interpretation of results. Prerequisite: PH310 or PH420; or permission of instructor

PH418 Intermediate Optics
(0-3-3) Fall
4 hours

In-depth study of physical optics, including interference, diffraction, and polarization. Also includes the physics of color. Prerequisites: PH360, and MA310.

PH420 Quantum Mechanics I
(0-3-0) Fall
3 hours

Introduction to the foundations of modern physics that culminated in the quantum theory. Also includes the development of Schrodinger’s wave mechanics. Prerequisite: PH206 or PH310, and MA310.

PH421 Quantum Mechanics II
(0-3-0) Winter
3 hours

Continuation of the development of Schrodinger’s wave mechanics including orbital and spin angular momenta, and magnetic interactions with applications to the hydrogen atom and multielectron atoms. Prerequisite: PH420.

PH422 Quantum Mechanics III
(0-3-0) Spring
3 hours

Continuation of the applications of quantum theory to multielectron atoms, molecules, and solids, including an introduction to quantum statistical physics. Prerequisite: PH421.

PH426 Electricity and Magnetism I
(0-4-0) Winter
4 hours

Intermediate study of the basic theory of electricity, including a detailed study of electrostatic field theory. Prerequisites: PH205, MA310, and PH332.

PH427 Electricity and Magnetism II
(0-4-0) Spring
4 hours

Continuation of PH426, including magnetostatics, Maxwell’s equations, and electromagnetic wave theory. Prerequisite: PH426.

PH430 Stellar Astrophysics
(0-3-0) Winter
3 hours

Topics include an overview of observational astrophysics, stellar structure, atomic properties of matter, radiation and energy transport in stellar interiors, and stellar evolution to the Main Sequence. Prerequisites: PH130, PH206, and MA310; or graduate standing.

PH432 Galactic Astrophysics
(0-3-0) Winter
3 hours

Topics include evolution away from the Main Sequence, including deviations from hydrostatic equilibrium and final stages of stellar evolution, the interstellar medium hydrodynamics of star formation, galaxies and galactic formation. Prerequisites: PH130, PH206, and MA310; or graduate standing.

PH431 Nuclear Power Systems Design
(0-3-0) Spring
3 hours

Nuclear reactor physics combined with related discussions of power conversion concepts and design calculations. Includes the relationship of power to the time- and space-dependent fission heat source and the heat removal characteristics of the reactor core. Prerequisite: PH310 or PH420; or permission of instructor.

PH440 Intermediate Theoretical Mechanics
(0-3-0) Fall
3 hours

Continuation of PH333. Topics include variational methods in physics, Lagrangian and Hamiltonian mechanics, theory of vibrations, and special relativity. Prerequisites: PH333.

PH444 Introduction to Nuclear Physics
(0-3-0) Spring
3 hours

Ground state properties of stable nuclei of atoms. Includes modes of disintegration of unstable nuclei and elementary theories of alpha, beta, and gamma decay. Prerequisite: PH420 or CH313.

PH451 Senior Physics Colloquium
(0-3-0) Fall
1 hour

PH452 Senior Physics Colloquium
(0-3-0) Winter
1 hour

PH453 Senior Physics Colloquium
(0-3-0) Spring
1 hour

Discussion of current literature and recent advances in the field of physics under the supervision of department staff. Oral and written presentations are required as is attendance at the departmental colloquium. Prerequisites: senior standing and permission of instructor.

PH470 Solid-state Physics
(0-3-0) Winter
3 hours

Crystal structures, X-ray diffraction, phonons, free electron theory of metals, and rediments of band theory. Prerequisites: CH102; and PH206 or PH310; and MA310.

PH480 Computers in Physics – Introduction
(1-0-6) Fall
4 hours

Review of basic numerical methods relevant for computer applications in physics. Individual programming is required for numerical studies of classical physics problems. Various stochastic computation methods in physics are introduced. Prerequisites: CS110 or CS121; MA310, and senior standing.

PH481 Computers in Physics – Experiment and Analysis
(1-0-6) Winter
4 hours

How computers are used for data acquisition, data treatment and analysis, graphics display, and controlling experiments. Develops skills necessary to interface and automate instruments and systems. Prerequisite: CS110 or CS121; and PH337.

PH482 Computers in Physis – Theory
(1-0-6) Spring
4 hours

Role of computer simulation in physics with emphasis on methodologies, data and error analysis, approximations, and potential pitfalls. Methodologies may include Monte Carlo simulation, molecular dynamics, Hartree-Fock and Density Functional Theory. Prerequisites: PH480; and PH310 or PH420; or permission of instructor.

PH490 Special Problems in Physics
Fall, Winter, and Spring
Variable to 12

Selected additional topics in physics based on interests of faculty and students. Anticipated topics include stellar astrophysics, galactic astrophysics, introduction to materials physics, introduction to atmospheric physics, and introduction to the physics of fluids. Interested students should contact the Physics Department. Prerequisites: junior or senior standing; and permission of instructor.

• Darlene Avendt, Sr. Typist 1978-1979, Clerk 1979-1980
• Mary Berwald, Sec. 1981-1983
• Pamm Besmer Sec. 1989-1999, 2001-2004
• Kathi Blaisdell, Sec. 1978-1979
• Judy Chapman, Dept Coord. 2000-2001
• David Cook, Machinist 1997-2005
• Kathleen Corbett, Sec. 1988-1989
• Cynthia Dunstan, Admin. Aide 1981-1986
• Lisa Dwyer, Sec 1988-1989, Admin. Aide 1989-1991
• Pam Givens, Sec 2004-2004
• Gina Goudge, Dept Coord. 1998-2000
• Marilynn Hanson, Admin. Aide 1977-1979
• Davin Helminen, Electronics Technician 1978-1989
• Cynthia Heimke, Sec 1979-1981
• Jerry Hester, Demo/Lab Coordinator 1996-2004
• Helene Hiner, Sec. 1984-1986, Admin. Aide 1986-1989
• Linda J. Horton, Sec. 1970-1972
• Carl J. Huss, Lab Tech ~1948-49
• Allyson Jabusch, sec. 1997-1998
• Claire Julio, Clerk 1980-1995
• Madonna Kajander, Clerk 1984-1986
• David Kalliainen, Machinist ?-1997
• Jeanne Kangas, Sr Typist 1973-1974
• Martha Kipina, Sec. 1983-1984
• Andrea Lappi (nee Suomi), Admin Aide 1991-1998, Dept. Coord. 2007-
• Deborah Magnuson, Clerk 1979-1981
• Marvin Manninen, Asst. Lab/Demo coordinator 2005-2006
• Linda Martino, Clerk 1983-1985
• Chris Mattson, Sec. 2000-2001
• Mike Meyer, Demo/Lab Coordinator 2004-2007, Lecturer 2007-2010, Senior Lecturer 2010-
• Marian E. Michels, Sec 1972-1973
• Cindy Molnar, Sec. 1999-2001, Dept Coord 2001-2002
• Jeanne L. Musich, Sec 1975-1978
• Victor Muzzin, Lab/Demo Asst. 2006-2007
• Cynthia Nahrgang, Sec. 1973-1974
• Jesse Nordeng, Machinist 2005-
• Lori Patrick, Sec. 1995-1996
• Susan Peterson, Clerk 1983-1986
• Elizabeth Pollins, Dept Coord, 2002-2007
• Diane Reich, Sec -1979, Admin Aide 1979-1981
• Marg Rohrer, Sec 1999-2000, 2002-2013
• Steve Routsala, Electronics Tech. 1989-2002
• Scott Rutterbush, Lab Sys. Assoc. 2007-2016
• Debra Sauer, Sr. Typist 1976-1977
• Diann Suess, Sr Typist 1974-1975
• Aurilee Smith, Sec. 1989-1995
• Michael T Sorochman, Lab Tech 1968-1978
• Gloria Strieter, Typist 1984-85
• Howard Stocker, Lab. Tech ~1955 -?
• Deborah Volonino, Sr Clerk, 1978-1979
• Julie Walter, Sec. 1985-1986
• Kathy Wollan, Sec. 2004-2014
• Diana Young, Sec. 2014-2014

Abbreviations

• PH - Physics
• EP - Engineering Physics
• AP - Applied Physics
• AG - Applied Geophysics
• GE - Geophysical Engineering

In 1974 the Geophysics program was moved to the Department of Geology.

Graduates

• 2024 Counts, Caleb PH
• 2024 Kalajdziovski, David AP
• 2024 Lambert, Grant PH
• 2024 Martin, Michael PH
• 2024 Richards, Dylan PH
• 2024 Turkovich, Jimmy AP
• 2024 Watson, Daniel PH
• 2024 Wendt, Michael AP
• 2024 Yu, Cong PH
• 2023 Aldrich, Casey PH
• 2023 Dickert, Riley PH
• 2023 Folcik, Nick, PH
• 2023 Flittie, Jason AP
• 2023 Gonzalez, Alex PH
• 2023 Jensen, Oliver PH
• 2023 Koshar, Dan PH
• 2023 Momirovska, Tia PH
• 2023 Ogilvie, Sidney PH
• 2023 Sloma, Benj PH
• 2022 Fritts, Marc PH
• 2022 Hellman, Bethany PH
• 2022 Huffman, Sarah AP
• 2022 Kieft, Trevor AP
• 2022 Knight, Dalton PH
• 2022 Palmer, Anthony PH
• 2022 Pozza, Marco PH
• 2022, Reller, Wyatt AP
• 2022 Zeiter, Kaz PH
• 2021 Cotter, Ezra PH
• 2021 Downs, Reed A. PH
• 2021 Gaertner, Zoe D. AP
• 2021 Harris, Jack E. PH
• 2021 Haw, Jonah M. PH
• 2021 Hawry, Conner N. PH
• 2021 Kerr, Aleister W. PH
• 2021 Kline, Michelle R. PH
• 2021 Larson, Alan PH
• 2021 Mashburn, Carter R. PH
• 2021 Pinto Reveggino, Renato PH
• 2021 Sanchez, Adam T. PH
• 2021 Tuson, Sabrina J. AP
• 2021 Vallazza-Margl, Wolfgang K. PH
• 2021 Wilson, Noah F. PH
• 2020 Cowles, Matthew J. PH
• 2020 De Mario, Matthew J. PH
• 2020 Herzog, Ian G. PH
• 2020 Hjorth, Zackerie W. PH
• 2020 Janisch, John W. PH
• 2020 Krueger, Adam J. PH
• 2020 Lehto, Jason AP
• 2020 Leversee, River A. PH
• 2020 Morgenstern, Megan E. PH
• 2019 Anderson, Kaelan R. AP
• 2019 Berman, Jonathon E. PH
• 2019 Groetsch, Samuel J. PH
• 2019 Schlorke, Nathan S. PH
• 2018 Berriel, Sasha N. AP
• 2018 Bosko, Paul T. AP
• 2018 Cruikshank, Owen D. PH
• 2018 Friesema, Stefan L. AP
• 2018 Johnson, Daniel J. PH
• 2018 Kaminski, Taylor M. AP
• 2018 Massoglia, Crystal A. PH
• 2018 Nelson, Seth R. PH
• 2018 Stenger, Robert J. PH
• 2018 Zamaites, Jonathan A. PH
• 2017 Chibirev, Illiya PH
• 2017 Hermann, Austin T. PH
• 2017 Johnson, Floyd B. PH
• 2017 Manning, Benjamin T. PH
• 2017 Mohrman, Kelci A. PH
• 2017 Rhodes, Aric M. PH
• 2017 Schimler, Parker B. PH
• 2017 Sheidler, Colin P. PH
• 2017 Videtich, Nicholas S. PH
• 2016 Foetisch, Michael S. AP
• 2016 Hallfrisch, Joshua D. PH
• 2016 Harp, Tyler S. PH
• 2016 Innis, Robert D. PH
• 2016 Kinney, Gregory M. PH
• 2016 Pauli, Logan S. PH
• 2016 Robare, Andrew L. PH
• 2016 Rocheleau, Kevin B. PH
• 2016 Russell, David M. PH
• 2016 Shock, Cameron J. PH
• 2016 Small, Angela J. PH
• 2016 Spaight, James R. AP
• 2016 Trevillian, Cody A. PH
• 2015 Bell, Cody L. PH
• 2015 Bush, Christopher E. PH
• 2015 Chmielewski, Jeanine A. PH
• 2015 Laxo, Adam N. PH
• 2015 Mazur, Curtis J. PH
• 2015 Morris, Eric D. PH
• 2015 Salmon, Cody J. PH
• 2015 Schroeder, Luke A. PH
• 2015 Small, Mick D. AP
• 2014 Adler, Michael C. PH
• 2014 Charnawskas, Joseph C. PH
• 2014 Dipple, Stephen W. PH
• 2014 Furlich, Greg D. PH
• 2014 Hopkins, Sawyer S. PH
• 2014 Jacobson, Darcy M. PH
• 2014 Makoutz, Emily A. PH
• 2014 Nicklas, Brent C. PH
• 2014 Riederer, Adam D. PH
• 2014 Solis, Charles D. PH
• 2013 Brennan, Mackenzie P. PH
• 2013 Cox, Kathryn M. PH
• 2013 Curtis, Jonathan L. PH
• 2013 Dillon, Abigal C. PH
• 2013 Dobbs, Jeremy S. PH
• 2013 Kaphengst, Eric M. PH
• 2013 King, Clarence C. PH
• 2013 Malec, Benedict J. PH
• 2013 McCarthy, Katelyn P. PH
• 2013 Miltenberger, Ethan R. PH
• 2013 Plamondon, Tyler J. PH
• 2013 Smock, Jacob W. PH
• 2013 Sutton, Katelyn P. PH
• 2013 Van Damme, Derek J. (VanderLaan) PH
• 2012 Anton, Nigel L. PH
• 2012 Burrill, Daniel J. PH
• 2012 Connolly, Ryan P. PH
• 2012 Holmes, Justin C. PH
• 2012 Ingram, Mark V. PH
• 2012 Leonard, Edward M. PH
• 2012 Nelson, Arin D. PH
• 2012 Nerem, Matthew P. PH
• 2012 Solfest, Peter M. PH
• 2012 West, Jessica L. PH
• 2012 Woodward, (Fan) Xin Xin PH
• 2011 Beaulieu, Travis W. AP
• 2011 Black, Nicholas A. PH
• 2011 Gorkowski, Kyle J. PH
• 2011 Gurganus, Renee M. (Batzloff) AP
• 2011 Guthrie, Matthew W. PH
• 2011 Hallfrisch, Valerie A. PH
• 2011 Lau, Gregory M. PH
• 2011 Meingast, Karl M. AP
• 2011 Miller, Daniel J. PH
• 2011 Patrick, Albert A. PH
• 2011 Petersen, Eric A. PH
• 2011 Scanlon, Erin M. PH
• 2011 Wilm, Joseph D. PH
• 2011 Wojdula, Justin K. PH
• 2010 Bollen, Viktor PH
• 2010 Conrad, Eric D. PH
• 2010 DeWahl, Aaron M. AP
• 2010 Freeman, Daniel R. AP
• 2010 Greenwood, Lauren E. AP
• 2010 Hennen, John A. PH
• 2010 Hunt, Curtis N. PH
• 2010 Kangas, Joel J. PH
• 2010 Kelley-Hoskins, Nathan C. PH
• 2010 Kinder, Erich W. AP
• 2010 Lemmens, Ryan J. AP
• 2010 Nerat, Steven M. PH
• 2010 Nordsiek, Hansen PH
• 2010 Schafer, Christopher T. AP
• 2010 Szedlak, Anthony D. PH
• 2009 Blanchard, Alexandria V. PH
• 2009 Blaser, Rachel A. PH
• 2009 Boluyt, Martin PH
• 2009 Bougher, Jamie L. PH
• 2009 Butler, Carrie E. PH
• 2009 Carlin, Caleb M. AP
• 2009 Deschaine, Jacob S. PH
• 2009 Dunkman, Matthew G. PH
• 2009 Galbraith-Frew, Jessica G. PH
• 2009 Hinkley, Nathan M. PH
• 2009 Husted, Brian S. PH
• 2009 Johnson, Brandon C. PH
• 2009 Kestner, Daniel J. PH
• 2009 Kilpela, Samuel T. PH
• 2009 Rojas, Paul N. PH
• 2009 Swatowski, Brandon W. AP
• 2009 Tootle, Samuel D. AP
• 2009 Wiley, Nathan D. PH
• 2008 Aden, Michael C. PH
• 2008 Ames, Ashley P. AP
• 2008 Banyai, Douglas R. AP
• 2008 Coupland, Ben R. AP
• 2008 Foley, Justin M. AP
• 2008 Gookin, Benjamin C. PH
• 2008 Gussert, Michael P. PH
• 2008 Hansen, Matthew P. PH
• 2008 Hegg, Anthony C. PH
• 2008 Huyck, Jennifer L. AP
• 2008 Irish, Stephanie L. PH
• 2008 Niffenegger, Robert J. PH
• 2008 Thorne, Katie K. PH
• 2007 DeConinck, Adam J. PH
• 2007 Grochowski, Joseph R. AP
• 2007 Robinson, Carly B. AP
• 2007 Rosten, Rachel C. PH
• 2007 Ryba, Nolen A. PH
• 2007 Schalk, Katie E. PH
• 2007 Scholfield, Brian J. PH
• 2007 Sneller, Paul M. PH
• 2004 Fleming, Andrew J. AP
• 2004 Ftaclas, Michael Z. PH
• 2004 Kestner, Jason PH
• 2004 Kuehl, Joseph J. PH
• 2004 Lapham, Timothy L. PH
• 2004 Lightfoot, Nicholas R. PH
• 2004 Occhipinti, Chris O. AP
• 2004 Sells, Christopher J. PH
• 2004 Ulmen, Benjamin A. PH
• 2003 Black, Katrina E. (Vestal) PH
• 2003 Black, Nathanael D. PH
• 2003 Erickson, Nathan W. PH
• 2003 Harrington, David M. AP
• 2002 Beranek, Stephen R. AP
• 2002 Boline, Daniel D. PH
• 2002 Hagood, Sean P. AP
• 2002 Kiefer, Peter A. PH
• 2002 Kilpela, Daniel W. AP
• 2002 Nezich, Daniel A. PH
• 2001 Grimes, Ryan M. AP
• 2001 Holmlund, John E. PH
• 2001 Ip, Tsun AP
• 2001 Lanterman, Daniel D. AP
• 2001 Larsen, Michael L. PH
• 2001 Leanna, Andrew J. PH
• 2001 Sekercioglu, Erhan M. PH
• 2001 Van Wasshenova, Daniel J. PH
• 2001 Vopal, James P. PH
• 2001 Wiggins, David L. PH
• 2000 Brosnan, Jennings A. AP
• 2000 Karpus, John F. AP
• 2000 Landmark, Kevin J. PH
• 2000 Miner, Andrew J. AP
• 2000 O’Brien, Erich M. AP
• 2000 Oros, David P. PH
• 2000 Rohde, Charles A. PH
• 2000 Schury, Peter H. PH
• 2000 Stanich, Matthew W. PH
• 2000 Wyman, Max D. PH
• 1999 Chizmadia, Kristin L. (Garn) AP
• 1999 Fachting, Charles D. AP
• 1999 Kendall, Annikka M. AP
• 1999 Lybert, Stacy A. PH
• 1999 Moor, Daniel L. AP
• 1999 Ringle, Ryan J. PH
• 1999 Rogers, Jeremy D. PH
• 1999 Zimmer, George A. PH
• 1998 Kalogerakos, Robert H. AP
• 1998 Larson, Kimberly J. (Wegner) PH
• 1998 Petteys, Rebecca S. PH
• 1997 Kaye, Michael N. PH
• 1997 Keranen, Wayne M. AP
• 1997 Lewandowski, Heather J. PH
• 1997 Noble, Scott D. AP
• 1997 Rex, Thomas F. PH
• 1996 Chan, Wai Can PH
• 1996 Chye, James D. PH
• 1996 Daniels, Michael J. AP
• 1996 Holcomb, James W. AP
• 1996 LaMothe, Joseph A. PH
• 1996 Lee, Chiao Ming PH
• 1996 Nichols, William T. III PH
• 1996 Pfund, William C. AP
• 1995 Babcock, Brook D. AP
• 1995 LaCosse, Jason A. AP
• 1995 Lepak, Phillip K. PH
• 1995 McAfee, Sean M. PH
• 1995 Tolkkinen, Les E. PH
• 1995 Webb, Andrew D. PH
• 1995 Weil, James D. PH
• 1994 Hall, Bryan E. AP
• 1994 Maxwell, Jason A. PH
• 1994 Peltier, Scott J. AP
• 1994 Rehse, Steven J. PH
• 1994 Thom, Michael W. AP
• 1994 Thyren, John P. AP
• 1993 Abbitt, Guy L. AP
• 1993 Barber, Michael J. PH
• 1993 Bowman, Eric J. PH
• 1993 Cunningham, Robert M. AP
• 1993 Delene, David J. AP
• 1993 Dewing, Mark D. PH
• 1993 Goold, Eric B. PH
• 1993 Harrison, James F. PH
• 1993 Kahn, Aaron D. AP
• 1993 Kaufman, Lloyd M. AP
• 1993 Letendre, Adam E. II AP
• 1993 Simpson, Robert C. PH
• 1993 Strutz, Shane J. AP
• 1993 Symons, Timothy R. PH
• 1992 Boyce, Brent R. AP
• 1992 Harbison, William H. II AP
• 1992 Hintz, Thomas H. PH
• 1992 Langer, Robert R. PH
• 1992 Paeth, Brian A. PH
• 1992 Passmore, Heather A. (Detko) PH
• 1992 Ross, Aaron A. AP
• 1992 Russell, Gregory B. AP
• 1992 Waters, Gary A. PH
• 1991 Gray, Thomas E. AP
• 1991 Haanpaa, Douglas P. AP
• 1991 Hoin, Francis A. PH
• 1991 Keranen, Joel A. AP
• 1991 Krieger, Theodore J. PH
• 1991 Miesch, Mark S. AP
• 1991 Rady, Todd F. AP
• 1991 Williams, James B. II AP
• 1990 Arndt, David R. AP
• 1990 Bylaska, Eric J. AP
• 1990 Crossman, Michael D. AP
• 1990 Darin, Scott D. AP
• 1990 Evensen, Harold T. AP
• 1990 Fons, John T. PH
• 1990 Montgomery, Sarah E. AP
• 1990 Plank, Adam E. AP
• 1990 Rabideau, Heidi S. (Hardin) PH
• 1990 Schmidt, Christopher T. PH
• 1989 French, Todd E. PH
• 1989 Greiner, Ulrich J. PH
• 1989 Handlovits, Steven M. AP
• 1989 Johnson, Allen D. AP
• 1989 Moehs, Douglas P. PH
• 1989 Nicklas, Christopher T. PH
• 1989 Yeager, Charles J. PH
• 1988 Bennis, George L. PH
• 1988 Dace, Gregory E. AP
• 1988 Goksel, Cedetas N. Sibel AP
• 1988 Kersjes, Glen A. AP
• 1988 Latham, Leslie O. Jr. AP
• 1988 Leigh, Marlisa K. (MacLeod) PH
• 1988 Marlin, Thaddeus D. PH
• 1988 Nickolaus, Kevin C. PH
• 1988 Penney, Rodney R. AP
• 1988 Puisto, Denise M. (Rolando) AP
• 1988 Quigley, Victor E. II AP
• 1988 Siskaninetz, William J. AP
• 1988 Theeuwes, Timothy J. AP
• 1988 Thelen, Dean M. AP
• 1988 Tisko, Edmund L. AP
• 1988 Witteveen, David M. PH
• 1987 Graber, Joel H. PH
• 1987 Gutkowski, Seth A. AP
• 1987 Krembel, Michelle M. AP
• 1987 Long, Stephen M. AP
• 1987 Luckey, Charles L. PH
• 1987 Mulvihill, Patrick J. AP
• 1987 Pakkala, William F. AP
• 1987 Pfaff, Raman AP
• 1987 Robens, Wayne D. AP
• 1987 Schmich, Robert M. AP
• 1987 Wyble, Douglas J. AP
• 1986 Allis, Steven D. PH
• 1986 Austin, Mitchell B. AP
• 1986 Borek, Leonard A. AP
• 1986 Herres, Michael J. AP
• 1986 Irwin, Bradley D. AP
• 1986 Johnson, John D. PH
• 1986 Joitke, Paul L. AP
• 1986 Keane, David K. AP
• 1986 Munn, Cathleen L. (Learmont) AP
• 1986 Pullen, E. Hugh AP
• 1986 Swartz, Raymond L. Jr. PH
• 1985 Depew, Debra A. (Brady) AP
• 1985 Hill, Susan E. PH
• 1985 Jones, Steven C. AP
• 1985 Kangas, Kim A. AP
• 1985 Karasti, John G. AP
• 1985 Miller, Peter A. AP
• 1985 Rose, Todd E. AP
• 1985 Umlor, Michael T. AP
• 1985 Wayne, Lawrence E. PH
• 1984 Drews, Andrew R. PH
• 1984 Flancher, Rodney S. AP
• 1984 Grantner, Stephen P. AP
• 1984 Kugler, Thomas R. AP
• 1984 Labelle, Robert D. PH
• 1984 Lutz, Jerry L. AP
• 1984 Morris, Jeffrey Allen AP
• 1984 Northrop, Patrick J. AP
• 1984 Parry, Donald E. AP
• 1983 Anderson, John S. PH
• 1983 Duffin, Eric W. AP
• 1983 Fernholz, Richard C. PH
• 1983 Giordano, James R. AP
• 1983 Jacobs, Dr. Mark W. AP
• 1983 Terry, Mary M. (Wallace) AP
• 1983 Thode, Steven PH
• 1983 Tollefson, Jan E. AP
• 1983 Turner, Brian P. PH
• 1982 Domke, Laurine L. (Roeske) AP
• 1982 Luft, Joseph R. AP
• 1982 Schaudt, Kimberly J. PH
• 1981 Beglau, David A. AP
• 1981 Gay, David H. AP
• 1981 Hughes, Charles A. AP
• 1981 Michelini, David G. AP
• 1981 Niessen, Marcus B. AP
• 1981 Turkal, Mark A. PH
• 1981 Wigent, Robert G. II AP
• 1980 Boutilier, Alan D. AP
• 1980 Clarke, Charles P. AP
• 1980 Endres, Ned M. AP
• 1980 Ferguson, Kristopher G. AP
• 1980 Foster, Michael B. AP
• 1980 Harju, Ricky S. PH
• 1980 Lowrance, Deborah S. (Lund) AP
• 1980 Schmich, Arnold W. AP
• 1980 Schmidt, William M. PH
• 1980 Soltesz, Steven M. PH
• 1980 Stoyack, Joseph E. III AP
• 1980 Tomsovic, Steven L. PH
• 1979 Boyce, Jeffrey W. PH
• 1979 Carter, Robert G. AP
• 1979 Evans, Bruce A. AP
• 1979 Genutis, Kenneth J. AP
• 1979 Goliber, Thomas E. AP
• 1979 Gravel, David P. AP
• 1979 Mead, Wilfred A. AP
• 1979 Rock, David K. AP
• 1979 Smith, Brenda R. PH
• 1979 Winegarden, Jerry D. AP
• 1979 York, Brian R. PH
• 1979 Ytsma, Theodore A. AP
• 1978 Cooper, Sheila A. (Grennan) PH
• 1978 Herr, Dean M. PH
• 1978 Kaminsky, Herman A. AP
• 1978 Kenyon, Robert Y. PH
• 1978 Martin, Perry L. AP
• 1978 Nesbitt, James A. III AP
• 1978 Schnars, Michael J. AP
• 1978 Wilson, William J. AP
• 1978 Zasadil, Scott E. PH
• 1977 Hart, William G. Jr. AP
• 1977 Javor, Kenneth J. PH
• 1977 Petzold, Lee D. AP
• 1977 Shell, Allyn M. AP
• 1977 Smith, Bradford C. AP
• 1977 Tiede, John W. AP
• 1976 Bell, Ronald S. AP
• 1976 Capizzo, James F. AP
• 1976 Connolly, Paul A. AP
• 1976 Halstead, Lawrence L. AP
• 1976 Johnson, William C. AP
• 1976 Kaptur, Paul R. AP
• 1976 Kuhn, David K. PH
• 1976 Malpass, Richard A. PH
• 1976 Meade, Marvin E. II AP
• 1976 Mohr, Thomas J. AP
• 1976 Palmgren, Gary M. AP
• 1976 Taddeucci, Terry N. PH
• 1976 Tuley, Orville L. AP
• 1976 Vogel, Michael A. AP
• 1975 Argall, Gerald A. AP
• 1975 Baldwin, Dale B. AP
• 1975 Bayn, Gregory J. AP
• 1975 Dombroski, Raymond J. Jr. PH
• 1975 Field, Jack C. Jr. AP
• 1975 Fornell, Carl V. AP
• 1975 Hargreaves, Steven L. AP
• 1975 Lodden, James A. AP
• 1975 Meernik, Paul R. PH
• 1975 Nicol, Daniel L. AP
• 1975 Oshel, Edward R. PH
• 1975 Pasek, Dennis A. PH
• 1975 Paul, Harold W. AP
• 1975 Repar, Mary J. AP
• 1975 Reuter, Roderick J. PH
• 1975 Roblee, Ronald S. AP
• 1975 Scott, Walter L. PH
• 1975 Skiba, Thomas R. AP
• 1974 Aitken, Scott R. PH
• 1974 Braman, Darrell B. AG
• 1974 Czuhai, Kirk G. PH
• 1974 Eenigenburg, Donald G. AP
• 1974 Graham, Donald E. AP
• 1974 Jarvis, George G. AP
• 1974 Mania, Robert C. Jr. PH
• 1974 McCal, Dennis M. PH
• 1974 McEwan, Charles J. PH
• 1974 Mills, Virginia L. AG
• 1974 Myers, Michael T. PH
• 1974 Ockert, Al J. PH
• 1974 Parry, John O. II AP
• 1974 Pulsipher, James C. PH
• 1974 Schmalz, Mark S. AP
• 1974 Stevens, Carl J. PH
• 1974 Stone, Jeffery K. AP
• 1974 Strobel, James R. PH
• 1974 Vahrenwald, John C. AP
• 1973 Courtemanche, Andre N. PH
• 1973 Cupal, Paul R. AP
• 1973 Edinborough, Thomas W. AG
• 1973 Fisk, Randall J. PH
• 1973 Jackson, Mark E. PH
• 1973 Klein, Robert D. AP
• 1973 Kneisel, Lawrence L. PH
• 1973 Maxwell, Arthur A. AG
• 1973 Mendlowitz, Joseph S. PH
• 1973 Pelton, John R. AG
• 1973 Purdum, Lewis E. Jr. AP
• 1973 Ruotsala, James E. AG
• 1973 Schwab, Philip M. AP
• 1973 Southgate, R. Jay AP
• 1973 Szenina, Donald J. PH
• 1973 Wick, Vernon C. PH
• 1973 Wood, Richard A. PH
• 1973 Zollner, Bruce M. PH
• 1972 Barth, Paul R. AG
• 1972 Bedore, Theodore L. Jr. AP
• 1972 Byrd, David M. PH
• 1972 Case, Ronald J. AP
• 1972 Corrado, Joseph A. Jr. PH
• 1972 Cozzuol, James M. AP
• 1972 Dibert, David J. AP
• 1972 Gump, Timothy J. PH
• 1972 Houston, John C. AP
• 1972 Kukoski, Leonard T. AG
• 1972 Lafleur, Keith G. PH
• 1972 Oikarinen, Peter D. AP
• 1972 Runnoe, Dennis H. AP
• 1972 Shiflet, Gary J. PH
• 1972 Sipple, Gary J. AP
• 1972 Voisin, James S. PH
• 1972 Zulauf, Gary B. PH
• 1971 Abraham, Ronald C. AP
• 1971 Bancroft, Daniel W. AP
• 1971 Bartalot, Louis R. Jr. AP
• 1971 Bendick, James A. AP
• 1971 Burk, Norman D. AP
• 1971 Byar, Gary R. AG
• 1971 Detwiler, Richard L. AP
• 1971 Garz, Thomas E. PH
• 1971 Gilbert, John L. PH
• 1971 Johnson, Donald W. AG
• 1971 King, David R. AP
• 1971 McKereghan, Michael P. AP
• 1971 Michaels, Paul AG
• 1971 Petzke, Richard A. AP
• 1971 Rowe, Bruce R. PH
• 1971 Schroeder, Gerald C. Jr. AP
• 1971 Schulz, Earl J. AP
• 1971 Scripsick, Ronald C. PH
• 1971 Wilfinger, Erich L. AP
• 1970 Aittama, James C. PH
• 1970 Anderson, Keith W. AG
• 1970 Brayak, Thomas L. PH
• 1970 de, Carle Robert J. AG
• 1970 Gendzwill, Robert G. AG
• 1970 Hemming, Lawrence P. AG
• 1970 Jefferson, Stanley J. PH
• 1970 Johnson, Toby J. AG
• 1970 Kissinger, David G. AG
• 1970 Klemm, Lorraine A. (Pelto) AP
• 1970 Linnard, Jon W. AP
• 1970 Martin, Robert E. Sr. AP
• 1970 Miatech, Gerald J. Jr. AG
• 1970 Moss, Myron H. AG
• 1970 Phillips, Gerald R. AP
• 1970 Raimer, Timothy J. PH
• 1970 Rowe, Joseph H. II AP
• 1970 Samolewski, Terry S. AG
• 1970 Sharp, Thomas H. AG
• 1970 Stevens, John W. AP
• 1970 Sweet, Kenneth O. AG
• 1970 Wiegand, John S. AP
• 1970 Winter, Helmut AP
• 1970 Wood, James N. AP
• 1970 Woodroffe, B. Thomas AP
• 1969 Archibald, J. Michael Jr. PH
• 1969 Bretney, John C. AP
• 1969 Coleman, Michael C. PH
• 1969 Davis, Billy Jr. PH
• 1969 Davis, John B. PH
• 1969 Franti, Glenn W. AP
• 1969 Golas, Michael A. PH
• 1969 Green, Michael D. PH
• 1969 Hansen, David A. PH
• 1969 Jivery, Warren T. AP
• 1969 Johnson, William J. AG
• 1969 Kinder, Paul J. AP
• 1969 Knuth, Kurt V. AP
• 1969 Kosch, Russell E. AG
• 1969 Marchi, Mark L. AP
• 1969 McIntyre, Richard H. AP
• 1969 Monroe, James L. PH
• 1969 Plutchak, Thomas M. PH
• 1969 Rabideau, Kenneth E. Jr. AP
• 1969 Rather, Stephen H. AG
• 1969 Savino, Ronald F. AP
• 1969 Van Dyk, David J. PH
• 1968 Aho, Gary D. AG
• 1968 Beauregard, Donald F. PH
• 1968 Crozier, Kim E. AP
• 1968 Dick, Richard L. AG
• 1968 Esh, Carl A. AP
• 1968 Fogle, Gregory A. AG
• 1968 Hurlbut, Ronald S. PH
• 1968 Ingalls, Randy W. AG
• 1968 Justice, Jerome L. AG
• 1968 Kalnbach, Barry W. AG
• 1968 Kleekamp, Gary L. AP
• 1968 Lalonde, Ronald H. AP
• 1968 Liedtke, Richard C. PH
• 1968 McEachen, Robert G. PH
• 1968 McLean, Daniel J. AP
• 1968 Middleton, Robert S. AG
• 1968 Mukavetz, Dale W. AP
• 1968 Murray, John C. AG
• 1968 Reblin, Michael T. AG
• 1968 Stafford, John F. AG
• 1968 Stewart, Stephen M. AP
• 1968 Sturkol, Elm AP
• 1967 Antler, Garry C. AP
• 1967 Ashcraft, Richard N. GE
• 1967 Ball, James H. AP
• 1967 Best, Howard C. AP
• 1967 Bohren, James F. AP
• 1967 Bullock, Jeffrey S. AP
• 1967 Calihan, Donald L. AG
• 1967 Cromie, James D. AP
• 1967 Elliott, James B. AP
• 1967 Fox, David M. PH
• 1967 Gray, Richard F. GE
• 1967 Greenlee, Michael D. GE
• 1967 Harris, Cassius A. IV AP
• 1967 Kaufman, James J. AP
• 1967 Klusendorf, Lloyd W. AP
• 1967 Kortge, Jerry W. AP
• 1967 Maki, Douglas W. PH
• 1967 Newsome, Arthur G. AP
• 1967 Ng, David M. AP
• 1967 Ramia, Leo F. PH
• 1967 Richards, Guy C. AP
• 1967 Tabar, Melvin M. PH
• 1967 Waller, William G. PH
• 1967 Yoder, Robert C. AP
• 1966 Beres, William J. GE
• 1966 Chew, Gary P. AP
• 1966 Croy, Pamela A. (Mumford) PH
• 1966 Davidson, John A. Jr. PH
• 1966 DeYoung, Don B. AP
• 1966 Evans, Douglas A. AP
• 1966 Fabry, Paul A. AP
• 1966 Fehniger, Michael J. PH
• 1966 Franz, Niccolas L. AP
• 1966 Freeman, Thomas J. PH
• 1966 Fritz, John E. Jr. AP
• 1966 Garrow, Charles G. AP
• 1966 Hein, Louis F. PH
• 1966 Knight, James E. GE
• 1966 Knivila, Allan R. AP
• 1966 Kortge, James O. AP
• 1966 Lemieux, Louis J. AP
• 1966 Liptak, Ronald J. AP
• 1966 Loeber, Jan PH
• 1966 Lubaczewski, Ladislaus S. Jr. PH
• 1966 Maki, Dennis A. AP
• 1966 Merits, Gerald V. PH
• 1966 Perkins, William A. AP
• 1966 Phillips, Wayne G. PH
• 1966 Richter, Frederick A. GE
• 1966 Roth, William A. Jr. AP
• 1966 Shustrom, Jerome J. AP
• 1966 Simonen, Edward P. PH
• 1966 Slocum, Frederick V. AP
• 1966 Snowden, Byron S. III AP
• 1966 Urbaniak, Roger L. AP
• 1966 Vogt, Werner R. PH
• 1966 White, Brian G. GE
• 1966 Williams, James R. AP
• 1966 Wuerthele, William E. PH
• 1966 Zeigler, Charles W. AP
• 1965 Cavagnetto, Douglas F. PH
• 1965 Christoff, William J. AP
• 1965 Farsky, Robert A. AP
• 1965 Grobar, James F. AP
• 1965 Hellman, Gerald J. AP
• 1965 McLean, Michael B. AP
• 1965 Molloy, Robert C. AP
• 1965 Odell, Jack L. II AP
• 1965 Pokorny, George J. AP
• 1965 Polus, Paul A. PH
• 1965 Rooney, James J. AP
• 1965 Roti Roti, Joseph L. PH
• 1965 Stone, Gregory L. GE
• 1965 Streiffert, Daniel L. GE
• 1965 Thuma, W R GE
• 1964 Barkalow, Bruce H. AP
• 1964 Carlson, David O. AP
• 1964 Casanova, C. David AP
• 1964 Chamberlain, Peter G. GE
• 1964 Cooper, James G. AP
• 1964 Cox, Marvin J. AP
• 1964 Dever, David J. PH
• 1964 Freimark, Ronald J. PH
• 1964 Fuller, Dr. Brent D. GE
• 1964 Gasper, John PH
• 1964 Horseman, Marlin L. AP
• 1964 Johnson, John C. AP
• 1964 Jones, Roger H. AP
• 1964 Kauppila, Walter E. PH
• 1964 Klemett, E. Alrick AP
• 1964 Lyon, Gordon E. PH
• 1964 Meyer, Ronald A. AP
• 1964 Nelson, Jerold T. AP
• 1964 Pohanka, Robert C. AP
• 1964 Smith, Burris R. AP
• 1964 Street, Ronald L. AP
• 1964 Teneyck, Michael B. AP
• 1964 Truax, John D. AP
• 1964 Umbarger, C. John PH
• 1964 VanDomelen, John F. AP
• 1963 Baxandall, John L. AP
• 1963 Bazzett, William J. AP
• 1963 Beckius, William J. AP
• 1963 Borg, Jon M. AP
• 1963 Brunsdon, Robert N. AP
• 1963 Casagranda, Jack P. GE
• 1963 Case, Stuart W. EG
• 1963 Compton, Russell A. PH
• 1963 Dzierwa, David J. GE
• 1963 Essig, Thomas H. AP
• 1963 Gibson, James C. PH
• 1963 Gould, Thomas H. Jr. AP
• 1963 Grindall, George E. AP
• 1963 Haglund, Aldon W. PH
• 1963 Hellman, Gene R. AP
• 1963 Henderson, Douglas D. AG
• 1963 Klemett, Philip E. AP
• 1963 Knivila, Bruce A. W. AP
• 1963 Leu, Joseph A. AP
• 1963 Love, James L. AP
• 1963 Luoma, Warren L. AP
• 1963 MacLeod, Jon H. AP
• 1963 Martin, Michael D. GE
• 1963 Meanley, Edward S. PH
• 1963 Murray, Peter R. PH
• 1963 Ochodnicky, Samuel S. AP
• 1963 Pietila, Peter W. PH
• 1963 Pound, David E. PH
• 1963 Rubin Di Borbo, George S. PH
• 1963 Schieman, Dennis M. AP
• 1963 Schmitt, John L. PH
• 1963 Schultz, Richard C. GE
• 1963 Spigarelli, Richard V. AP
• 1963 Strahl, James F. AP
• 1963 Suppelsa, Anthony B. PH
• 1963 Thibault, Harry G. AP
• 1963 Wait, Donald E. AP
• 1963 Webb, Bruce D. AP
• 1963 Wickstrom, Gail A. PH
• 1963 Wozniak, Fredrick J. AP
• 1962 Adams, Carl R. AP
• 1962 Belland, Michael D. PH
• 1962 Berkes, John S. GE
• 1962 Brierley, John G. PH
• 1962 Cooke, Robert F. AP
• 1962 Coppernoll, William C. PH
• 1962 Cupal, Jerry J. AP
• 1962 Decaire, John A. AP
• 1962 DeGroot, Peter B. PH
• 1962 Duca, Sharon L. (Gore) EP
• 1962 Falkenstein, William L. AP
• 1962 Fitzgerald, John T. AG
• 1962 Floodstrand, Frederic H. PH
• 1962 Hansen, G. Bruce AP
• 1962 Helmick, Roger D. AP
• 1962 Herron, Lee F. AP
• 1962 Hill, Richard W. AP
• 1962 Johnson, James D. AP
• 1962 Johnson, James R. AP
• 1962 Jonas, Peter W. PH
• 1962 Labo, Jack A. AP
• 1962 Lambert, Samuel C. AP
• 1962 McGregor, Robert H. PH
• 1962 Pietila, Paul D. AP
• 1962 Rhoney, Gary E. AP
• 1962 Schroder, John W. AP
• 1962 Schwenk, Carl G. GE
• 1962 Thorley, Frank Jr AP
• 1962 Wirtanen, Dalton N. PH
• 1961 Bennett, Eugene J. EP
• 1961 Bisson, Bernard J. EP
• 1961 Callahan, Andrew C. PH
• 1961 Crawford, Bruce D. AP
• 1961 DeForest, Sherman E. PH
• 1961 Finnegan, Stephen A. GE
• 1961 Heinz, Miles T. Jr. EP
• 1961 Henderson, Lee H. GE
• 1961 Johnson, William L. AP
• 1961 Klammer, Richard A. EP
• 1961 Klusendorf, Roy E. EP
• 1961 Kopish, Rodney S. EP
• 1961 Koponen, Brian L. EP
• 1961 Kuivanen, C. Leslie EP
• 1961 Larsen, Norman H. EP
• 1961 Larson, Arthur L. GE
• 1961 Lind, Robert W. PH
• 1961 Martin, Sara F. (Higgins) PH
• 1961 McLaughlin, David J. EP
• 1961 Palluconi, Benita E. (Bulera) PH
• 1961 Palluconi, Frank D. PH
• 1961 Phillips, David W. EP
• 1961 Sauer, Edward J. AP
• 1961 Vertin, Gordon J. PH
• 1961 Weiderman, John S. EP
• 1961 Wittenbach, Larry C. AP
• 1961 Ziegler, Robert E. GE
• 1960 Bradley, David L. PH
• 1960 Buckman, Leonard C. EP
• 1960 Bufe, Charles G. GE
• 1960 Chalmers, Harold GE
• 1960 Coates, Philip D. EP
• 1960 Easton, James W. GE
• 1960 Farley, Wayne G. GE
• 1960 Farm, Peter D. EP
• 1960 Fazekas, Geza A. EP
• 1960 Flaningam, Dona L. (Graham) PH
• 1960 Goulette, Edwin A. EP
• 1960 Grates, Roger G. AP
• 1960 Hannemann, Martin D. EP
• 1960 Hoyer, Ruben R. PH
• 1960 Isley, Loren D. EP
• 1960 Jenney, Joe A. EP
• 1960 Kirkpatrick, Robert W. PH
• 1960 Kitching, Rene A. EP
• 1960 Lehto, Wayne K. EP
• 1960 Moksvold, Tor W. EP
• 1960 Peterson, James M. PH
• 1960 Rosendahl, Lowell F. EP
• 1960 Stauffer, Donald R. PH
• 1960 Usowski, Anton B. EP
• 1960 Van Voorhis, Gerald D. GE
• 1960 Walker, Richard L PH
• 1960 Wieber, Robert H. EP
• 1960 Zandi, Leonard A. Jr. EP
• 1959 Budgin, Alexander M. PH
• 1959 Davis, Eddison J. GE
• 1959 DuBay, Neil E. PH
• 1959 Eliasson, Brian L. PH
• 1959 Givens, Clark R. PH
• 1959 Grewe, David D. PH
• 1959 Johnson, Norman L. EP
• 1959 Kauppila, James E. EP
• 1959 Kilpela, James M. EP
• 1959 Loncharte, Robert G. EP
• 1959 Norton, Boyd E. EP
• 1959 Nyman, Oscar W. PH
• 1959 Sowers, Donald L. EP
• 1959 Taylor, John B. III EP
• 1959 Wilson, Howard L. PH
• 1959 Zier, Robert E. PH
• 1958 Beck, Richard H. GE
• 1958 Carlson, James M. PH
• 1958 Deane, Delight H. (Koski) EP
• 1958 Gonser, John M. EP
• 1958 Gregg, Jerry O. GE
• 1958 Hastedt, Frank R. PH
• 1958 Kandarian, Robert EP
• 1958 MacIntosh, Kenneth M. EP
• 1958 O’Neill, David W. EP
• 1958 Oinas, George I. EP
• 1958 Randell, Lloyd K. AP
• 1958 Spahn, Robert J. EP
• 1957 Barlow, Kent M. EP
• 1957 Borton, Max A. EP
• 1957 Brooke, Robert L. PH
• 1957 Bullock, Donald L. PH
• 1957 Gendzwill, Don J. EP
• 1957 Kellokoski, David E. EP
• 1957 Koskela, Paul E. EP
• 1957 McLean, Thomas L. AP
• 1957 Pudvan, Allen E. EP
• 1957 Starner, Duane L. EP
• 1956 Boyd, William T. EP
• 1956 Carr, Marvin J. EP
• 1956 Daavettila, Donald A. EP
• 1956 Erickson, William H. EP
• 1956 Gildersleeve, Phyllis M. (Legault) PH
• 1956 Liikala, Ronald C. EP
• 1956 McKee, Ronald L. EP
• 1956 Schreiber, Herbert G. EP
• 1955 Carlson, Robert W. EP
• 1955 Darby, Edward J. EP
• 1955 Dennis, Ronald L. PH
• 1955 Hanson, Roland C. EP
• 1955 Herron, Thomas J. EP
• 1955 Hussin, James J. EP
• 1955 Mattson, Rodney A. EP
• 1955 Parks, Philip N. EP
• 1955 Ross, Wesley J. EP
• 1954 Berquist, David L. EP
• 1954 Krieger, Edward L. Jr. EP
• 1954 Mezzano, William E. EP
• 1954 Rose, Francis I. EP
• 1954 Sanborn, Gordon R. PH
• 1954 Wehner, Donald R. EP
• 1954 White, Kathleen M. (McCune) PH
• 1953 Cloutier, Roy L. EP
• 1953 Dahlberg, Duane A. PH
• 1953 Eickmann, James W. PH
• 1953 Frantti, Gordon E. EP
• 1953 Penprase, William H. Jr. EP
• 1953 Recksiedler, Arthur L. EP
• 1952 Croteau, Charles J. PH
• 1952 Culp, Richard J. EP
• 1952 Eisenlord, John B. EP
• 1952 Jansen, Peter N. Jr. PH
• 1952 Koskela, Arne C. EP
• 1952 Lazarus, David H. EP
• 1952 Maclaren, Richard A. PH
• 1951 Hansen, Harold J. Jr. EP
• 1951 Long, James E. PH
• 1951 Summerfield, Patricia L. PH
• 1950 Athakravi, Mohchoke PH
• 1950 Buelteman, Herbert O. PH
• 1950 Evans, John P. PH
• 1950 Goode, Paul J. PH
• 1950 Griffith, Thomas J. EP
• 1950 Karry, Russell W. EP
• 1950 Kimball, Clyde W. EP
• 1950 McKindles, Gerald T. EP
• 1950 Stanley, Gordon L. PH
• 1950 Stenson, Carl W. EP
• 1950 Watson, Richard L. EP
• 1949 Ahlstrom, Clarence W. EP
• 1949 Bishop, Dwight E. EP
• 1949 Erwin, John W. EP
• 1949 Matheson, Robert R. PH
• 1949 Miatech, Gerald J. EP
• 1949 Shandley, Paul D. EP
• 1948 Chimino, David F. EP
• 1948 Coon, Marvin L. Jr. EP
• 1948 Gabriel, Walter J. PH
• 1948 Kelly, Leroy C. EP
• 1948 Sloan, Gilbert J. PH
• 1948 Vogeler, William K. EP

Abbreviations

• SPH - Physics
• SAP - Applied Physics
• SPE, SEP - Engineering Physics
• EMY - Metallurgical Engineering, Physics Option
• GEO - Geophysics

• 2023 Dharmendra Pant, PhD Engineering-Computational Science and Engineering
  Study of Electronic and Magnetic Properties of Bilayer Graphene Nanoflakes and Bimetallic  Chalcogenides Using First-Principles Density Functional Theory and Machine Learning
  

  Advisor: Ranjit Pati

• 2023 Joshua (J.D) Brandewie MS SPH
  Coursework
  Advisor:  Elena Giusarma
  
• 2023 Alyssa Horne, MS SPH
  Coursework
  Advisor: Ranjith Pati
  
• 2023 Hiterndra Singh, MS SPH
  Coursework
  Advisor: Ranjith Pati
  
• 2022 Alex. Buiciuc, MS SPH
  Coursework
  Advisors: Dr. Ranjith Pati
• 2022 Samuel, Groestsch, MS SPH
  Application of Argon Pressure Broadened Rubidium Vapor Cells as Ultra-Narrow Notch
  Advisors: Dr. Jacek Borysow
• 2022 Ian Herzog, MS SPH
  A Combined Spectral and Energy Morphology Analysis of Gamma Ray Source HAWC  J2031+415 in the Cygnus Constellation
  Advisors: Dr. Petra Huentemeyer

• 2022 Zackerie, Hjorth, MS SPH 

  A Surrogate Model of Molecular Dynamics Simulations for Polar Fluids: Supervised Learning  Methods for Molecular Polarization and Unsupervised Methods for Phase Classification Advisor: Dr. Issei Nakamura

• 2022 Sonali, Mohan, MS SPH

  Preliminary Studies of Background Rejection Capabilities for the Southern Wide-field Gamma-ray  Observatory 

  Advisor: Dr. Petra Huentemeyer

• 2022 Megan, Morgenstern, MS SAP  

  Optical and Single Particle Properties of North Atlantic Free Tropospheric Aerosols and  Implications for Aerosol Direct Radiative Forcing 

  Advisor: Dr. Claudio Mazzoleni 

• 2022 Rhiannon Turner, MS SPH 

  Coursework  

  Advisor: Dr. Petra Huentemeyer

   

  2022 Aaron Wildenborg, MS SAP  

  Coursework  

  Advisor: Dr. Jae Yong Suh 

• 2022 Jesse Anderson, PhD IAS
  The Variability of the Saturation Ratio in Clouds
  Advisor: Will Cantrell
  
• 2022 Tong Gao, PhD SAP
  Machine Learning-Driven Surrogate Models for Electrolytes
  Advisor: Issei Nakamura
  
• 2022 Neerav Kaushal, PhD SAP
  Toward Deep Learning Emulators for Modeling the Large-Scale Structure of the Universe
  Advisor: Elena Giusarma
  
• 2022 Geeta Sachdeva, PhD SAP
  Theoretical Investigation on Optical Properties of 2D Materials and Mechanical Properties  of Polymer Composites at Molecular Level
  Advisor: Ravi Pandey
  

• 2022 Sambhawana Sharma, PhD SPH 

  Boron Nitride Nanostructures: Synthesis, Characterization, and Application in Photovoltaics  and Biomedicine 

  Advisors: Yoke Khin Yap and Dongyan Zhang

• 2022 Andrew Puyleart, PhD SAP
  Searching for Anomalous Extensive Air Showers Using The Pierre Auger Observatory  Fluorescence Detector
  Advisor: Dr. Brian Fick
  
• 2021 Abu Sayeed Md Shawon, PhD SAP
  Activation Scavenging of Aerosol: Effect of Turbulence and Aerosol-Composition 
  Advisor: Dr. Will Cantrell
  
• 2021 Subin Thomas, PhD IAS
  Modeling and Numerical Simulations of the Michigan Tech Convection Cloud Chamber
  Advisor: Dr. Raymond Shaw

• 2021 Sandip, Aryal, PhD SAP 

  A Computational Study of Properties of Core-Shell Nanowire Heterostructures Using  Density Functional Theory

  Advisor: Dr. Ranjit Pati

   

  2021 Narun Nahar, PhD IAS
  

  Physicochemical Properties of Atmospheric Aerosols and their Effect on Ice Cloud  Formation
  Advisor: Dr. Will Cantrell

   

  2021 SeyedMostafa ,Rezaeitaleshmahalleh, MS SAP 

  Radial Basis Function Method for Computational Photonics 

  Advisor: Dr. Ramy El-Ganainy

• 2021 Elise Rosky, MS SPH

  Investigating Ice Nucleation at Negative Pressures Using Molecular Dynamics: A First Order  Approximation of the Dependence of Ice Nucleation Rate on Pressure  

  Co-Advisors: Dr. Raymond Shaw and Dr. Will Cantrell

• 2021 Amin, Hashemo MS SPH
  Control of Spontaneous Emission Dynamics in Microcavities with Chiral Exceptional Surfaces
  Advisors: Dr. Ramy EL-Ganainy
• 2021 Rosky, Elise MS SPH
  Investigating Ice Nucleation at Negative Pressures Using Molecular Dynamics: A First Order Approximation of the Dependence of Ice Nucleation Rate on Pressure
  Advisors: Raymond Shaw and Will Cantrell
• 2021 Md Shawon, Abu Sayeed PhD SAP
  Activation Scavenging of Aerosol: Effect of Turbulence and Aerosol-Composition
  Advisor: Will Cantrell
• 2021 Lata, Nurun PhD ATM
  Physiochemical Properties of Atmospheric Aerosols and Their Effect on Ice Cloud Formation
  Advisor: Will Cantrell
• 2021 Aryal, Sandip PhD SPH
  A Computational Study of Properties of Core-Shell Nanowire Heterostructures Using Density Functional Theory
  Advisor: Ranjit Pati

• 2021 Thomas, Subin PhD ATM
  Modeling and Numerical Simulations of the Michigan Tech Convection Cloud Chamber
  Advisor: Raymond Shaw

• 2021 Guo, Qing PhD SPH
  Application of Graphene-Based 2D Materials and Exploration of Lithium Polysulfides Solid Phases – First-Principles Study Based on Density Functional Theory
  Advisor: Ravindra Pandey

• 2021 Acharya, Amit PhD SPH
  Van der Waals Quantum Dots: Synthesis, Characterization, and Applications
  Advisor: Yoke Khin Yap

• 2021 Capek, Tyler PhD SPH
  Understanding the Effects of Water Vapor and Temperature on Aerosol Using Novel Measurement Methods
  Advisor: Claudio Mazzoleni

• 2021 Rezaei, Mostafa MS SAP
  Radial Basis Function Method for Computational Photonics
  Advisor: Ramy El-Ganainy

• 2021 Hashemi, Amin MS SAP
  Control of Spontaneous Emission Dynamics in Microcavities with Chiral Exceptional Surfaces
  Advisor: Ramy El-Ganainy

• 2021 Babu, Rishi MS SPH
  Coursework Masters
  Advisor: Robert Nemiroff

• 2021 Simonson, Lucas MS SAP
  Coursework Masters
  Advisor: Ramy El-Ganainy

• 2020 Hona, Binita PhD SPH
  Cosmic-Ray Acceleration in the Cygnus OB2 Stellar Association
  Advisor: Petra Huentemeyer

• 2020 Dahiwale, Aishwarya MS SPH
  Phase Resolved Analysis of PSR J2032.2+4126
  Advisor: Petra Huentemeyer

• 2019 Packard, Corey PhD ATM
  Investigation of Light Transport and Scattering in Turbulent Clouds: Simulations and Laboratory Measurements
  Advisor: Raymond Shaw

• 2019 Zhang, Jinlin PhD SPH
  Light-matter interactions in plasmonic arrays, two-dimensional materials and their hybrid nanostructures
  Advisors: Jae Yong Suh and Yoke Khin Yap

• 2019 Zhong, Qi PhD SPH
  Physics and applications of exceptional points
  Advisor: Ramy El-Ganainy

• 2019 Chandrakar, Kamal  PhD ATM
  Aerosol-Cloud Interactions in Turbulent Clouds: A Combined Cloud Chamber and Theoretical Study
  Advisor: Raymond Shaw

• 2019 Brisbois, Chad PhD SPH
  Understanding the Very High Energy γ-ray Emission From A Fast Spinning Neutron Star Environment
  Advisor: Petra Huentemeyer

• 2019 Tangmatitham, Matipon PhD SPH
  Location, Orbit and Energy of a Meteoroid Impacting the Moon During the Lunar Eclipse of January 21, 2019 and Testing the Weak Equivalence Principle with Cosmological Gamma Ray Bursts
  Advisor: Robert Nemiroff 

• 2019 Rodriguez-Feo, Eduardo MS ATM
  Light Propagation Through A Turbulent Cloud: Comparison of Measured and Computed Extinction
  Advisor: Raymond Shaw

• 2019 Kalita, Armin MS SAP
  Synthetic Saturable Absorber
  Advisor: Ramy El-Ganainy

• 2019 Shock, Cameron MS SPH
  The Solvation Energy of Ions in a Stockmayer Fluid
  Advisor: Issei Nakamura

• 2019 Bertschinger, Kevin MS SAP
  Energy Transfer of 𝑬𝒖𝟐+ and 𝑴𝒏𝟐+ in N𝒂(𝑺𝒓,𝑩𝒂)𝑷𝑶𝟒 and 𝑩𝒂𝟐𝑴𝒈(𝑩𝑶𝟑)𝟐
  Advisor: Jae Yong Suh

• 2019 Videtich, Nicholas S. MS SPH
  Laser Induced Phase Transformations and Fluorescence Measurements from Nanodiamond Particles
  Advisor: Jae Yong Suh

• 2018 Bhandari, Janarjan PhD IAS
  Morphology and Mixing State of Soot and Tar Balls: Implications for Optical Properties and Climate
  Advisor: Claudio Mazzoleni

• 2018 Desai, Neel Uday PhD IAS
  Investigation of Microphysical Properties of Laboratory and Atmospheric Clouds Using Digital In-Line Holography
  Advisor: Raymond Shaw

• 2018 Karki, Dolendra PhD SPH
  Magnetless and Topological Edge Mode-Based On-Chip Isolators and Spin-Orbit Coupling in Magneto-Optic Media
  Advisor: Miguel Levy

• 2018 Waters, Kevin PhD SPH
  First-Principles Investigation of Interfacial Properties of Boron-Nitride
  Advisor: Ravi Pandey

• 2018 Ye, Mingxiao PhD SPH
  Synthesis, Characterization, and Application of 2D Transition Metal Dichalcogenides
  Advisor: Yoke Khin Yap

• 2018 Jaishi, Meghnath PhD SPH
  Probing Quantum Transport in Three-Terminal Nanojunctions
  Advisor: Ranjit Pati

• 2018 Muqri, Aeshah Khudaysh PhD SPH
  Angle-Resolved Optical Spectroscopy of Plasmonic Resonances
  Advisor: Jae Yong Suh

• 2018 Wilson, Teresa A. PhD SPH
  Evaluating the Effectiveness of Current Atmospheric Refraction Models in Predicting Sunrise and Sunset Times
  Advisor: Robert Nemiroff and Jennifer Bartlett

• 2018 Bhandari, Shiva PhD SPH
  Synthesis & Applications of One & Two-Dimensional Boron Nitride Based Nanomaterials
  Advisor: Yoke Khin Yap

• 2018 Blasiola, Brandon D. MS SAP
  Novel Faraday Rotation Effects Observed in Ultra-Thin Iron Garnet Films
  Advisor: Dr. Miguel Levy

• 2018 Qian, Ziwei MS SPH
  Effects of Ionic Liquid on Lithium Dendrite Growth
  Advisor: Dr. Issei Nakamura

• 2018 Robare, Andrew MS SPH
  Study of The Cygnus Region with Fermi and HAWC
  Advisor: Dr. Petra Huentemeyer

• 2018 Coel, Matthew MS SPH
  Effects of Mass & Distance Uncertainties on Calculations of Flux from Giant Molecular Clouds
  Advisor: Dr. Petra Huentemeyer

• 2017 Teimourpour, Mohammad Hosain PhD SPH
  Quantum Inspired Symmetries in Laser Engineering
  Advisor: Ramy El-Ganainy

• 2017 Yang, Fan PhD IAS
  Laboratory, Computational & Theoretical Investigations of Ice Nucleation & its Implications for Mixed Phase Clouds
  Advisor: Raymond Shaw

• 2017 Wang, Gaoxue PhD SPH
  First-Principles Studies of Group IV and Group V Related Two Dimensional Materials
  Advisor: Ravi Pandey

• 2017 Tiwari, Bishnu PhD SPE
  CVD Synthesis, Processing, Quantification, and Applications of Boron Nitride Nanotubes
  Advisor: Yoke Khin Yap

• 2017 Solares, Hugo Alberto Ayala PhD SPH
  Search for High-Energy Gamma Rays in the Northern Fermi Bubble Region with the HAWC Observatory
  Advisor: Petra Huentemeyer

• 2017 Rahman, Ashfiqur MS SAP
  Synthetic Saturable Absorber Using Non-Uniform Jx Waveguide Array
  Advisor: Dr. Ramy El-Ganainy

• 2017 Karki, Sarita MS SAP
  Laboratory Studies of the Interstitial Aerosol Removal Mechanisms in a Cloud Chamber
  Advisor: Dr. Will Cantrell

• 2017 Anderson, Jesse MS SAP
  The Variability of the Water Vapor Saturation Ratio Due to Mixing
  Advisor: Dr. Will Cantrell

• 2017 Gerhardt, Michael MS SPH
  Gamma/Hadron Separation with the HAWC Observatory
  Advisor: Dr. Petra Huentemeyer

• 2017 Sadatgoltabarestani, Mehdi MS SAP
  Coursework Masters
  Advisor: Dr. Yoke Khin Yap

• 2016 Li, Jie PhD SPE
  Investigation of the Resistance to Demagnetization in Bulk Rare-Earth Magnets Comprised of Crystallographically-Aligned, Single Domain Crystallites with Modified Intergranular Phase
  Advisor: Peter D. Moran

• 2016 Niehaus, Joseph Daniel PhD IAS
  Laboratory Measurements of Contact Nucleation by Mineral Dust, Bacteria, and Soluble Salts
  Advisor: Will Cantrell

• 2016 Gona, Lokesh MS SPH
  Coursework Masters
  Advisor: Dr. Jae Yong Suh

• 2016 Shaw, Mary Amanda MS SAP
  Testing Lidar-Radar Derived Drop Sizes Against In SITU Measurements
  Advisor: Dr. Alexander Kostinski

• 2016 Rahman, Md Mahfuzur MS SPH
  Coursework Masters
  Advisor: Dr. Warren Perger

• 2015 Zhou, Hao PhD SPH
  Search for TeV Gamma-Ray Sources in the Galactic Plane with the HAWC Observatory
  Advisor: Petra Huentemeyer

• 2015 Abdalmoneam, Marwa Hefny PhD SPH
  Relativistic Configuration Interaction Calculations of the Atomistic Properties of Selected Transition Metal Positive Ions: Ni II, V II and W II
  Advisor: Donald R. Beck

• 2015 Sharma, Noopur PhD ATM
  Laboratory and Field Investigation of Mixing, Morphology and Optical Properties of Soot and Secondary Organic Aerosols
  Advisor: Claudio Mazzoleni

• 2015 Hao, Boyi PhD SPE
  Functionalized Boron Nitride Nanotubes for Electronic Applications
  Advisor: Yoke Khin Yap

• 2015 Chakravarty, Ashim PhD SPH
  Geometry Induced Magneto-Optic Effects in LPE Grown Magnetic Garnet Films
  Advisor: Miguel Levy

• 2015 Yapici, Tolga PhD SPH
  A Method for Determining the Mass Composition of Ultra-High-Energy Cosmic-Rays by Predicting the Depth of First Interaction of Individual Extensive Air Showers
  Advisor: Brian Fick

• 2015 Banyai, Douglas R. PhD SPH
  Multiscale Examination and Modeling of Electron Transport in Nanoscale Materials and Devices
  Advisor: John Jaszczak

• 2015 Dhital, Niraj PhD SPH
  Search for Long-Lived Weakly Interacting Particles Using the Pierre Auger Observatory
  Advisor: Brian Fick

• 2015 Dhungana, Kamal B. PhD SPH
  Understanding Electronic Structure and Transport Properties in Nanoscale Junctions
  Advisor: Ranjit Pati

• 2015 Spirito, Kiley J. MS SPH
  Barium Concentrations in Rock Salt by Laser Induced Breakdown Spectroscopy
  Advisor: Jacek Borysow

• 2015 Majumdar, Anindya MS SPH
  Study of Non-Reciprocal Dichroism in Photonic Structures
  Advisor: Miguel Levy

• 2014 Gurganus, Colin PhD ATM
  Investigating the Role of the Contact Line in Heterogeneous Nucleation with High Speed Imaging
  Advisor: Raymond Shaw

• 2014 China, Swarup PhD ATM
  Morphology and Mixing State of Atmospheric Particles: Links to Optical Properties and Ice Nucleation
  Advisor: Claudio Mazzoleni

• 2014 Sua, Yong Meng PhD SPH
  Quantum Correlations of Lights in Macroscopic Environments
  Advisors: Kim Fook Lee and Jacek Borysow

• 2014 Liu, Chunhui PhD SPH
  Interaction of Nanomaterials With Biomolecules and Lipid Membranes
  Advisors: Ravi Pandey

• 2014 Woodward, Xinxin MS SPH
  The Three Dimensional Shape and Roughness of Mineral Dust by Atomic Force Microscope
  Advisor: Will Cantrell

• 2014 Gurganus, Renee MS SPH
  Coursework Masters
  Advisor: Aleksey Smirnov, GMES

• 2014 Gurganus, Colin MS SPH
  Coursework Masters
  Advisor: Raymond Shaw

• 2013 Savaikar, Madhusudan PhD SPE
  Stochastic Charge Transport in Multi-island Single-electron Tunneling Devices
  Advisors: John Jaszczak and Paul Bergstrom

• 2013 Beals, Matthew PhD ATM
  Investigations of Cloud Microphysical Response to Mixing Using Digital Holography
  Advisor: Raymond Shaw

• 2013 Dissanayake, Neluka PhD SPE
  Magneto-Photonic Crystals for Optical Sensing Applications
  Advisor: Miguel Levy

• 2013 Zhong, Xiaoliang PhD SPH
  Electronic Transport in Low-Dimensional Nanostructures - Theoretical Study With Application
  Advisor: Ravindra Pandey

• 2013 Kumar, Pradeep PhD SPE
  Nonlinear Effects in Magnetic Garnet Films and Nonreciprocal Optical Bloch Oscillations in Waveguide Arrays
  Advisor: Miguel Levy 

• 2013 Mongkolsittisilp, Ajaree MS SPH
  Optimal Shape in Electromagnetic Scattering by Small Aspherical Particles
  Advisor: Alex Kostinski

• 2013 Joshi, Ravi MS SPH
  Adventures in Friedmann Cosmologies—Interaction of Positive Energy Densities with Negative Energy Densities and Curvature of the Universe
  Advisor: Robert Nemiroff

• 2013 Black, Nick MS SPH
  Quadrupole Levitation of Particles in a Thermodynamically Realistic Cloud Environment
  Advisor: Raymond Shaw

• 2013 Kantamneni, Abhilash MS SPH
  Coursework Masters
  Advisor: Robert Nemiroff

• 2012 Mukhopadhyay, Saikat PhD SPH
  Quantum Modeling of Bioconjugated Nanomaterials
  Advisor: Ravindra Pandey

• 2012 Mandal, Subhasish PhD SPE
  Charge and Spin Transport in Nanoscale Junction from First Principles.
  Advisor: Ranjit Pati

• 2012 Bunker, Kristopher MS SPH
  Measurements of Ice Nucleation by Mineral Dusts in the Contact Mode
  Advisor: Will Cantrell

• 2012 Zhao, Haiqing MS SPH
  Stability and Properties of Di-phenylalanine Peptide Nanotube Studied by Molecular Dynamics Simulation
  Advisor: Ulrich H.E. Hansmann

• 2012 Kelley-Hoskins, Nathan MS SPH
  Calibration of the HAWC Gamma-Ray Observatory
  Advisor: Petra Huentemeyer

• 2011 Shahmoradi, Amir MS SPH
  Coursework Masters
  Advisor: Robert Nemiroff
• 2011 Prasad, Abhishek PhD SPE
  Functional ZnO Nanostructures for Electronic and Energy Application.
  Advisor: Yoke Khin Yap
• 2011 Blaser, Rachel MS SPH
  Four-Window Technique for Measuring Optical-Phase-Space-Time-Frequency Tomography.
  Advisor: Kim Fook Lee
• 2011 Hollinger, Mathew MS SPH
  Development of a Quartz-Enhanced Photoacoustic Instrument for the Characterization of Aerosol Optical Properties.
  Advisor: Claudio Mazzoleni
• 2011 Tewary, Mukul MS SPH
  Coursework Masters
  Advisor: Ravindra Pandey
• 2011 Galbraith-Frew, Jessica MS SPH
  Measuring Energy Spectra of TeV Gamma-ray Emission from the Cygnus Region of our Galaxy with Milagro.
  Advisor: Petra Huentemeyer
• 2011 Rojas, Paul MS SPH
  Characterizing a Single Photon Counter.
  Advisor: Kim Fook Lee
• 2011 Anderson, Amalia PhD SPH
  Development of Record-Breaking Statistics for Climatological Time-Series Analysis.
  Advisor: Alex Kostinski
• 2011 Pal, Partha PhD SPH
  Quantum Transport in a Single Molecular Junction.
  Advisor: Ranjit Pati
• 2010 Karna, Sanjay MS SPH
  Synthesis of Graphene Sheeets by Catalytic Chemical Vapor Deposition.
  Advisor: Yoke Khin Yap
• 2010 Lee, Chee Hui PhD SPH
  Boron Nitride Nanotubes: Synthesis, Functionalization and Potential Applications.
  Advisor: Yoke Khin Yap
• 2010 Pandey, Archana PhD SPE
  PMMA-CNT Matrix for Vacuum Electronics, Biosensing and Energy Applications.
  Advisor: Yoke Khin Yap
• 2010 Lu, Jiang PhD SPH
  Dynamics of Settling Charged Particles in Turbulence: Theory and Experiments.
  Advisor: Raymond Shaw
• 2010 Wu, Zhuoyuan PhD SPE
  Planar Magneto Photonic and Gradient Photonic Structures: Crystals and Metamaterials.
  Advisor: Miguel Levy
• 2010 Moscatello, Jason P. PhD SPE
  Growth, Modification and Integration of Carbon Nanotubes into Molecular Electronics.
  Advisor: Yoke Khin Yap
• 2010 Xie, Ming PhD SPE
  Synthesis and Characterization of Advanced Nanomaterials for Energy Applications.
  Advisor: Yoke Khin Yap
• 2009 El-Houssieny, Ehab E. MS SPH
  Continuous Monitoring of Comet Holmes from Before the 2007 Outburst.
  Advisor: Robert Nemiroff
• 2009 Singh, Abhay P MS SPH
  Synthesis and Characterization of Pure and Nitrogen Doped Carbon Nanostructures.
  Advisor: Yoke Khin Yap
• 2009 Kar, Parimal PhD SPH
  Proteins in Silico-Modeling and Sampling.
  Advisor: Ulrich Hansmann
• 2009 Kim, May E. MS SPH
  A Survey of Thermodynamic Properties of Supercooled Water.
  Advisor: Alex Kostinski
• 2009 Brickman, Aaron MS SPH
  Coursework Masters
  Advisor: Peter Moran
• 2009 Panigrahi, Puspamitra PhD SPH
  Controlling Electronic and Magnetic Properties of Ultra Narrow Multilayered Nanowires.
  Advisor: Ranjit Pati
• 2009 Zhou, Ziyou PhD SPH
  Metal-Oxide Film and Photonic Structures for Integrated Device Applications.
  Advisor: Miguel Levy
• 2009 He, Haiying PhD SPH
  Electron Transport in Molecular Systems.
  Advisor: Ravindra Pandey
• 2008 Saw, Ewe Wei PhD SPH
  Studies of Spatial Clustering of Inertial Particles in Turbulence.
  Advisor: Raymond Shaw
• 2008 Valavala, Pavan Kumar MS SPH
  A First-Principles Study of Electronic Properties of Carbon Nanotubes.
  Advisor: Ranjit Pati
• 2008 Domeier, Eric MS SPH
  RCI Techniques for Calculating Energy Levels and Oscillator Strengths: Application to Gd IV and Yb I.
  Advisor: Donald Beck
• 2008 Pan, Lin PhD SPH
  Ab Initio RCI Calculations of Atomic Properties of Selected Transition Metal Ions.
  Advisor: Donald Beck
• 2008 Patla, Bijunath PhD SPH
  Mapping the Sun as a Transparent Gravitational Lens.
  Advisor: Robert Nemiroff
• 2008 Ochshorn, Eli PhD SPH
  Studies of Thin Water Films and Relevances to the Heterogeneous Nucleation of Ice.
  Advisor: Will Cantrell
• 2008 Vanga, Raghav PhD SPH
  Relaxor Peizoelectric Film Actuators, Waveguides, and Photonic Crystals: Fabrication and Characterization.
  Advisor: Miguel Levy
• 2007 Han, Liang MS SPH
  Report Title: Replica Exchange Aided Wang-Landau Algorithm For Protein Folding.
  Advisor: Ulrich Hansmann
• 2007 Gowtham, S. PhD SPE
  Development of A High Performance Parallel Computing Platform and Its Use in the Study of Nanostructures: Clusters, Sheets and Tubes.
  Advisor: R. Pandey
• 2007 Wei, Yanjie PhD SPH
  On Side-Chain and Backbone Ordering in Polypeptides.
  Advisor: Ulrich Hansmann
• 2007 Wu, Shun MS SPH
  Report Title: Growth and Characterization of Carbon Nanotubes and Quantum Dots.
  Advisor: Yoke Khin Yap
• 2007 Huang, Xiaoyue PhD SPE
  Dimensional Effects on the Magnetic Domains in Planar Magnetophotonic Crystal Waveguides.
  Advisor: Miguel Levy
• 2007 Giri, Gouri Shankar MS SPH
  Report Title: Magnetron Sputter Fabrication of Magnetic Garnet Thin Films and Their Characterization.
  Advisor: Miguel Levy
• 2007 Panigrahi, Puspamitra MS SPH
  Report Title: Magnetic Properties of One Dimensional Fe/Pt/Fe Multilayer Nanowire.
  Advisor: Ranjit Pati
• 2007 Younk, Patrick PhD SPH
  Cosmic Rays at the Ankle, a study using the Pierre Auger Observatory.
  Advisor: Brian Fick
• 2007 Chye, James PhD SPH
  Determining Primaries in the Ultra-High Energy Cosmic Rays Utilizing Surface Detector Signal Trace Analysis.
  Advisor: David Nitz
• 2007 Fugal, Jacob PhD SPE
  In-situ Measurement and Characterization of Cloud Particles with Digital In-line Holography.
  Advisor: Raymond Shaw
• 2007 Wang, Jiesheng PhD SPH
  Phase Control of Boron Nitride Thin Films and Nanostructures.
  Advisor: Yoke Khin Yap
• 2007 Ulmen, Benjamin MS SPH
  Growth of Vertically-aligned Carbon Nanotubes and Their Application as Electron Field Emitters.
  Advisor: Yoke Khin Yap
• 2007 Lau, Kah Chun PhD SPH
  First-Principles Studies of Boron Nanostructures : Clusters, Sheets and Nanotubes.
  Advisor: R. Pandey
• 2007 Kayastha, Vijaya Kumar PhD SPE
  Catalytic Growth of Single-, Double-, and Multi-walled Carbon Nanotubes and Studies of their Potential Applications.
  Advisor: Yoke Khin Yap
• 2006 Verma, Himanshu MS SPH
  Report Title: Optical and compositional Characterization of RF Magnetron Sputtered Garnet Thin Films.
  Advisor: Miguel Levy
• 2006 Shet Tilvi, Vithal MS SPH
  Detection of Micro-Gamma Ray Bursts And Test of Lorentz Invariance.
  Advisor: Alex Kostinski
• 2006 Mensah, Sam MS SPH
  Growth and Characterization of Zinc Oxide Nanostructures.
  Advisor: Yoke Khin Yap
• 2006 Zhou, Changgong PhD SAP
  Aperture Assisted Laser Direct Write.
  Advisor: Edward Nadgorny
• 2006 Larsen, Michael PhD SPH
  Studies of Discrete Fluctuations in Atmospheric Phenomena.
  Advisor: Alex Kostinski
• 2006 Roy, Ankita MS SPH
  Hyperspectral Imaging: Correlation Formalism and Application for Diagnostics of RF-Plasma used for Growth of Carbon Nanotubes.
  Advisor: Jacek Borysow
• 2005 Menda, Jitendra MS SPH
  Coursework Masters
  Advisor: Yoke Khin Yap
• 2005 Webb, Adam J MS SPH
  A Performance Analysis of NQR Gradiometers in Non-Ideal Conditions.
  Advisor: B H Suits
• 2005 Aleksenko, Vasyl MS SPH
  Hydrophobic Scoring of Proteins.
  Advisor: Ulrich Hansmann
• 2005 Dorofeev, Alexei PhD SPH
  Simulation of Inclined Air Showers.
  Advisor: David F. Nitz
• 2004 Wilson, Aaron MS SPH
  Time Independent Fourier Transform Spectrometer.
  Advisor: J. B. Rafert
• 2004 Roland, Teboh MS SPH
  Surface Enhanced Isotope Exchange Reactions Between Water and Gaseous Deuteruim.
  Advisor: Jacek Borysow
• 2004 Gao, Da PhD SPH
  Monte Carlo Simulations of Surface Phase Transitions and Morphology Dynamics.
  Advisor: John A. Jaszczak
• 2004 Vanga, Lakshman Kumar MS SPH
  Growth and Processing of Vertically Aligned Multiwalled Carbon Nanotubes.
  Advisor: Yoke Khin Yap
• 2004 Mi, Youshi MS SPH
  Heterogeneous Ice Nucleation on Volcanic Ash.
  Advisor: Raymond Shaw
• 2004 Vutukuri, Sreenivasulu MS SPH
  First-Principles Studies of the Crystal and Vibrational Structure of Pentaerythritol and PETN under Hydrostatic Pressure.
  Advisor: Warren F. Perger
• 2004 Sergeyev, Alex MS SPH
  Generation and Characterization of Laboratory Aerosol Particles.
  Advisors: Raymond Shaw and Jacek Borysow
• 2004 Yang, Weidong PhD SPH
  Pupil Phase Apodization for Achromatic Imaging of Extra-solar Planets.
  Advisors: Alexander B. Kostinski and Christ Ftaclas
• 2004 Yang, Qiang PhD SPH
  The Curvature Adaptive Optics System Modeling.
  Advisors: Christ Ftaclas and R. J. Nemiroff
• 2003 Peng, Yong PhD SPH
  Helix Formation and Folding in Biological Macromolecules.
  Advisor: Ulrich Hansmann
• 2003 Jiang, Hutian PhD SPH
  Theoretical Study of Scintillating Fluoride Crystals – Methodology and Application.
  Advisor: R. Pandey
• 2003 Pereira, Wellesley PhD SPH
  The CONCAM Global Sky Monitoring Network. Its Evolution and the Creation of a Performance Model.
  Advisor: R. J. Nemiroff
• 2002 Kandalam, Anil PhD SPH
  Electronic Structure Calculations of Group III Nitride Clusters.
  Advisor: R. Pandey
• 2002 Ghimire, Shankar MS SAP
  Coursework Masters
  Advisor: M. Levy
• 2002 Lu, Zhaolin MS SPH
  Coursework Masters
  Advisor: M. Levy
• 2002 Darling, Joe MS SPH
  Coursework Masters
  Advisor: D. F. Nitz
• 2001 Norquist, Peggy PhD SPH
  Relativistic Configuration Interaction Calculations for Au LXVII, Br XXIII, Ta II, and the negative ions of Ru, Os, and Ba.
  Advisor: D. R. Beck
• 2001 Chen, Chen MS SPH
  Fabrication, Stoichiometry and Structural Analysis of Single-Crystal PZN-PT Films.
  Advisor: M. Levy
• 2001 Prasad, Raghava PhD SPH
  The Effects of Motion on Magnetic Resonance for Quadrupolar Nuclei in Solids.
  Advisor: B. H. Suits
• 2001 Chye, James MS SPH
  Automated Edge Detection for Remotely Sensed Imagery.
  Advisors: J. B. Rafert and J. Wells Budd
• 2000 Che, HaiHong, MS SPH
  Source Density Evolution and Luminosity Function of Gamma-ray Bursts.
  Advisor: R. J. Nemiroff
• 2000 Leckenby, Henry (Harry) J. PhD SPH
  Full Wilson-Devinney Analysis of Cataclysmic Variables Through the Computer Modeling of the Accretion Disks.
  Advisor: J. B. Rafert
• 2000 Hiratani, Masato PhD SPH
  Theoretical Study of Dislocation Motion in Metals.
  Advisor: E. M. Nadgorny
• 2000 Tews, Michael MS SPH
  Methodology of Relativistic Autoionization, Application to the Lifetime of the 5d6s6p 4F9/2 State in Ba-.
  Advisor: D. R. Beck
• 1999 Xiang, Kai-hua PhD SPH
  A Theoretical Study of Structural and Electronic Properties of H-silsesquioxanes.
  Advisor: R. Pandey
• 1999 Underdown, Frank PhD SPH
  Laser Guidance of Mesoscopic Particles
  Advisor: M. Renn
• 1999 Koivunen, Alan PhD SPH
  The Feasibility of Data Decorrelation to Improve the Performance of Doppler Weather Radar: Computational Studies.
  Advisor: A. B. Kostinski
• 1999 O’Malley, Steven PhD SPH
  Relativistic Configuration Interaction Calculations of Atomic Properties of Cs II, Sn– and La–.
  Advisor: D. R. Beck
• 1998 Sampath, Suresh PhD SPH
  Synthesis and Study of Oxide Spinels.
  Advisor: R. Pandey/J. C. Cordaro
• 1998 Hart, Christopher L. MS SPH
  The MTU Visible Hyperspectral Instrument (VHSI) Basic Design, Theory, Operation, and Proof of Concept.
  Advisor: J. B. Rafert
• 1998 Fu, Yi PhD SAP
  Collision Induced Spectra in Gases.
  Advisor: A. Borysow/J. B. Rafert
• 1998 Seng, William F. PhD SPH
  Scattering and Absorption in Complex Systems: The Electro-Optics of Zn-Doped Magnesium Orthosilicates, Aircraft Coatings, and Satellite Standards.
  Advisor: J. Cordaro/J. B. Rafert
• 1998 Pati, Bhabana PhD SPH
  Single-Mode Tunable Ti:Sapphire Laser and Its Application to Generate Coherent UV Radiation.
  Advisor: J. Borysow
• 1998 Swaminathan, Srirama V PhD SPH
  Magnetic Resonance Imaging of Materials with Large Quadrupolar Interaction.
  Advisor: B. H. Suits
• 1998 Zapol, Peter PhD SPH
  Calculations of Bulk and Defect Properties in Binary and Ternary Semiconductors.
  Advisor: R. Pandey
• 1997 Woodraska, Donald L. PhD SPH
  Monte Carlo Simulation of Diamond-Cubic {111} Surfaces.
  Advisor: J. Jaszczak
• 1997 Cunningham, Robert MS SPH
  The Use of Time Domain ESR Spectroscopy for Obtaining Density Profiles of a Compressible Fluid.
  Advisor: J. Borysow
• 1997 Pawse, Archana PhD SAP
  Use of Hysteresis Parameters and Electron Spin Resonance Spectroscopy for Identifying Volcanic Ash.
  Advisor: S. Beske-Diehl (Geology)
• 1997 Zheng, Chunguang PhD SAP
  Computational Study of Collision-Induced Dipole Moments and Absorption Spectra of H2-H2.
  Advisor: A. Borysow
• 1997 Apte, Palash PhD SPH
  NMR Study and Hardness Behavior of Nanophase Al/Al-Oxide Consolidated Composite.
  Advisor: B. H. Suits
• 1997 Gruszka, Marcin P. PhD SAP
  Computational Study of Rotational-Translational Collision-Induced Absorption Spectroscopy of Gaseous CO2.
  Advisor: A. Borysow/J. B. Rafert
• 1997 Park, Yongtae MS SPH
  Parity Nonconservation in Ba+ Atoms via CI/MBPT Method and Fine-Structure Splitting of Some High-L States of Helium
  Advisor: W. Perger
• 1996 Krishnan, Ajit PhD SPH
  Positron Annihilation Studies of Ferroelectrics and Related Perovskite Oxides.
  Advisor: D. J. Keeble/J. B. Rafert
• 1996 Pakhomov, Andrew V PhD SPH
  Time Resolved Laser Spectroscopy for Detection of Environmentally Hazardous Metals: Kinetic Approach.
  Advisor: J. Borysow
• 1996 Bashyam, Ramakrishnan PhD SAP
  Growth and Characterization of Diamond Films Fabricated Using Hot Filament Chemical Vapor Deposition.
  Advisor: D. J. Keeble
• 1996 Huang, Jinming MS SPH
  Dislocation Motion and Multiplication in Ordered Intermetallics.
  Advisor: E. Nadgorny
• 1996 Rathor, Manuj MS SPH
  Electrical Characterization of MBE Grown Ge1-xCx Thin Films
  Advisor: M. Krishnamurthy/R. Pandey
• 1996 Dong, Chun MS SPH
  Monte Carlo Study of the Square-Well Fluid.
  Advisor: B. H. Suits
• 1996 Umlor, Michael T PhD SAP
  A Positron Annihilation Investigation of Open Volume Defects in GaAs Grown by Molecular Beam Epitaxy.
  Advisor: D. J. Keeble/R. Pandey
• 1996 Kroner, Philipp MS SPH
  Polarization of a High Frequency Modulated Laser Diode for a Multiplexed Optical Communication Link.
  Advisor: J. Borysow
• 1996 Veliah, Sundar PhD SAP
  Density Functional Theory Calculations of Metal Oxide Clusters.
  Advisor: R. Pandey
• 1995 Sutjianto, Amin PhD SPH
  Study of Dissociative Hydrogen Adsorption on Lithium Oxide Terraces and Steps.
  Advisor: R. Pandey/S.-W. Tam
• 1995 Puntambekar, Upendra MS SPH
  Simulation of Point-Defects in Magnesium Sulfide.
  Advisor: R. Pandey/S. Seidel
• 1995 Kwiatkowski, John PhD SAP
  Applications of Polarized Waves in Radar Sensing of Precipitation: Computational Studies.
  Advisor: A. B. Kostinski
• 1995 Kulkarni, Manish MS SPH
  Signal Processing of Random Phasors: Remote Sensing Applications.
  Advisor: A. B. Kostinski
• 1995 Hoin, Francis A. MS SPH
  Emission Spectrometry for the Qualitative Determination of Atomic Oxygen Densities in an Oxygen Plasma.
  Advisor: J. Borysow
• 1995 Dinov, Konstantin PhD SAP
  Rare Earth Relativistic Configuration Interaction Calculations.
  Advisor: D. R. Beck
• 1994 Filimonov, Serguei PhD SPH
  Laser Diagnostics for Plasma Processes.
  Advisor: J. Borysow/E. Nadgorny
• 1994 Datta, Debasis PhD SPH
  Ab Initio MR-RCI Calculations of [(n – 1)d + ns]N Atomic Bound States: Application to Hyperfine Structure and Electron Affinity Studies.
  Advisor: D. R. Beck
• 1994 Coke, Larry PhD SAP
  A Computational Study of Time-Dependent Driven Cavity Flow.
  Advisor: A. B. Kostinski
• 1994 Augustyniak, Edward PhD SPH
  Kinetics of A, B, and C Triplet States of Molecular Nitrogen in the Pulsed Discharge and Afterglow.
  Advisor: J. Borysow
• 1993 Yang, Xiaoyang PhD SAP
  Structures and Stability of Alkali Fluoride Micro-Clusters.
  Advisor: R. Pandey
• 1993 Wilken, Douglas Edward PhD SAP
  A Nuclear Magnetic Resonance Study of the Surface Oxides on Aluminum Metal Particles.
  Advisor: B. H. Suits
• 1993 Jackson, Robert D. MS SPH
  Development of a Time-Domain ESR Spectrometer.
  Advisor: S. A. Marshall/L. Leifer
• 1992 Zhang, Yajing MS SPH
  Selective Etching of Intermetallics.
  Advisor: E. Nadgorny
• 1992 Zhong, Zhong MS SPH
  An Experimental Study of a GEC Reference RF Plasma Cell: Set Up, Electrical Characterization and Plasma Properties.
  Advisor: E. Nadgorny
• 1992 Wang, Rhonghai MS SPH
  Positron Lifetime Spectroscopy on Selected Polymers.
  Advisor: J. Waber
• 1992 Sood, Sanjay MS SPH
  Ab Initio Hartree-Fock Calculations of Structural and Electronic Properties of Magnesium Sulphide and Magnesium Selenide.
  Advisor: R. Pandey
• 1992 Pearce, John P. MS SPH
  An X-ray investigation of Zn1-xCdxSe / ZnSe Superlattice Crystals.
  Advisor: D. Yoder-Short
• 1992 Liu, Yunyi MS SPH
  An Investigation of the EPR Spectrum of Divalent Manganese in Zinc Selenide Powders.
  Advisor: S. A. Marshall
• 1991 Zuo, Jun PhD SAP
  An ICECAP Study of the Lithium Trapped-Hole Center in Magnesium Oxide.
  Advisor: A. B. Kunz
• 1991 Zhang, Yuenian PhD SAP
  An EPR and ENDOR Investigation of the Vk-Centers in Single Crystal Potassium Chloride.
  Advisor: S. A. Marshall
• 1991 Yu, Cheng PhD SAP
  An EPR Investigation of Ag0 and Ag2+ in Irradiated Single Crystal of Potassium Fluoride Doped with Silver Fluoride.
  Advisor: S. A. Marshall
• 1991 Yang, Xiaoyang MS SPH
  Hartree-Fock and Monte Carlo Simulation of Alkali Halide Clusters.
  Advisor: R. Pandey
• 1991 Witteveen, David M. MS SPH
  Thermal Infrared Remote Sensing of Volcanic Plumes Using the Thematic Mapper Rapiometer.
  Advisor: A. B. Kostinski
• 1991 Plude, Geralyn Y. MS SPH
  Nuclear Quadrupole Resonance Imaging of Powdered Solids.
  Advisor: B. H. Suits
• 1991 Gay, David Howard PhD SAP
  Ab Initio Intermolecular Potentials for CH4 and H2O Including Fourth Order Many-Body Effects with Monte-Carlo Simulations.
  Advisor: D. R. Beck
• 1991 Dai, Houfeng MS SPH
  Ab Initio Potential Study of Methane Dimer, Methane Water Dimer and Water Dimer.
  Advisor: D. R. Beck
• 1990 Wang, Sha MS SPH
  Calculation of Ground and Excited State Energies of Atomic and Molecular Systems Using UHF Theory Coupled with KLP.
  Advisor: A. B. Kunz
• 1990 Hill, Susan Ellen PhD SAP
  An Ab Initio Investigation of Poly(ethylene oxide) and its Interactions with Poly(ethylene oxide) and the alpha-Alumina (0001) Surface.
  Advisor: M. J. Seel
• 1990 Cai, Ziyong PhD SAP
  An Ab Initio Relativistic Many-Body Calculation of Hg 6p2 Resonance States, Including Continuum Effects.
  Advisor: D. R. Beck
• 1989 Zhang, Yuenian MS SPH
  Electron Spin Resonance Investigation of Magnesium Oxide Single Crystals Containing Mn2+ and Fe3+ Impurities.
  Advisor: S. A. Marshall
• 1989 Zeng, Peitao MS SPH Ab Initio Potential Energy Surfaces for CH4-H2O and CH4-H2S.
  Advisor: D. R. Beck
• 1989 Yu, Cheng MS SPH EPR Investigation of the Superconductor YBa2Cu3O7.
  Advisor: S. A. Marshall
• 1989 Woon, David Evan PhD EMY
  Ab Initio Intermolecular Potential Energy Surfaces for the Hydrogen Sulfide Dimer, Including Studies of the Third-Order Many-Body Perturbation Theory Correction and Nonadditive Effects.
  Advisor: D. R. Beck
• 1989 Shi, Xiang Jun MS SPH
  Study of Electronic Structure in Alkaline-Earth Oxides and Alkaline-Earth Sulfides.
  Advisor: A. B. Kunz
• 1989 Lutz, Jerry L. MS SPH
  Nuclear Magnetic Resonance Imaging of Defect Densities in Solids.
  Advisor: B. H. Suits
• 1989 Lu, Jianhua MS SPH
  Crystal Growth of Cd1-xMnxS by Chemical Vapor Transport.
  Advisor: D. Yoder-Short
• 1989 Kaldon, Philip Edward PhD SAP
  Ab Initio Studies of the Dissociation of an Energetic Solid (Nitromethane) in the Presence of Neighboring Charge Defects.
  Advisor: A. B. Kunz
• 1989 Huang, Kanglin MS SPH
  Computer Simulation of Sintering by Surface Diffusion.
  Advisor: J. Jaffe
• 1989 Gao, Guang PhD EMY
  Implementation of the KKLP Procedure to the Study of Electronic Structure of Molecular Crystals and Its Application to RDX.
  Advisor: A. B. Kunz
• 1988 Zuo, Jun MS SPH
  Simulation of Isovalent Impurities in Magnesium Oxide Using Hartree-Fock Clusters.
  Advisor: A. B. Kunz
• 1988 Wilken, Douglas E. MS SPH
  An Analysis of Magnetic Field Gradient Coils for NMR Imaging.
  Advisor: B. H. Suits
• 1988 Shen, Wei MS SPH
  Study of Sintering Mechanism of Ice.
  Advisor: S. M. Lee
• 1988 Kaldon, Philip Edward MS SPH
  An Ab Initio Study of the K-alpha Spectra of Lithium Ions in Lithium Halides (LiX).
  Advisor: A. B. Kunz
• 1988 Cai, Ziyong MS SPH
  A Non-Relativistic Study of the Electron Affinities of Bound States in Negative Transition Metal Ions.
  Advisor: D. R. Beck
• 1987 Meng, Jie PhD EMY
  The optical transition of the impurity copper ion in alkali halides.
  Advisor: A. B. Kunz
• 1987 Woon, David E. MS SPH
  A Correlated Study of the Ground and Excited States of the Vk-center in Lithium Fluoride.
  Advisor: D. R. Beck
• 1987 Umlor, Michael T. MS SPH
  Imaging Electromagnetic Fields Using the Magnetic Resonance Absorption Spectrum of a Paramagnetic Gas.
  Advisor: S. A. Marshall
• 1987 Knivila, Allan R. MS SPH
  A Correlated Ab Initio Study of Charged Defects in Crystalline Ammonium Perchlorate.
  Advisor: A. B. Kunz
• 1986 Lucas, David PhD EMY
  The Electronic Structure of Nitromethane (CH3NO2).
  Advisor: D. R. Beck
• 1985 Thode, Steven MS SPH
  Determination of the Hall Coefficient Anisotropy Using Helicon Resonance.
  Advisor: M. Huberman
• 1985 Parent, Mark G. MS SPH
  Comments on the ESR Spectrum of the Tetragonally Distorted Cr+3 Ion in Magnesium Oxide Single Crystals.
  Advisor: S. A. Marshall
• 1984 Fernholz, Richard C. MS SPH
  K-X-ray-gamma-gamma Directional Correlation in the Decay of Ba-133.
  Advisor: G. P. Agin
• 1981 Wetzel, Robert Bruce MS SPH
  Optical Phase Function Measurement for Snow Crystals.
  Advisor: M. Gimmestad
• 1979 Fealko, Daniel Robert MS SPH
  Measurements of Transition Probabilities in Argon.
  Advisor: K. M. Baldwin
• 1978 Reynolds, William R. MS SPH
  Prediction Modeling of Surface Temperature of a Conducting Body Interacting with Non-Steady State Ambient Conditions.
  Advisor: S. M. Lee
• 1977 Mcewan, Charles J. MS SPH
  An Absorption Fine Structure Study of the Cobalt K-Edge in Concentrated Aqueous Solutions.
  Advisor: R. O. Keeling, Jr.
• 1977 Lucas, David J. MS SPH
  A Gamma-Gamma Directional Correlation Study of the Cs-133 Levels from Ba-133 Electron Capture Decay.
  Advisor: V. R. Potnis
• 1976 Root, Joseph J. MS SPH
  A Study of the Cobalt K-Absorption Edge in Some Spinels.
  Advisor: R. O. Keeling, Jr.
• 1976 Riedlinger, Beth A. MS SPH
  Application of the Leopard-Spots Computer Code to the Spent Fuel Storage Problem.
  Advisor: G. P. Agin
• 1976 Mania Jr, Robert C. MS SPH
  The Accumulation and Testing of Apparatus for Gamma Ray Coincidence and Angular Correlation Experiments.
  Advisor: G. P. Agin
• 1976 Czuhai, Kirk G. MS SPH
  A Study of Energy Converting Efficiencies in the United States with the Aid of a Set of Digital Computer Programs to Portray the Future Energy Demands of the Household and Commercial, Transportation, and Industrial Sectors During the Period 1980 to 1990.
  Advisor: G. P. Agin
• 1975 Purdum Jr, Lewis E. MS SPH
  Determination of Energies and Relative Intensities of Gamma Rays in the Decay of 111Ag.
  Advisor: G. P. Agin
• 1974 Shiflet, Gary J. MS SPH
  Analysis and Construction of a Thin Film Thermocouple.
  Advisor: K. M. Baldwin
• 1974 LaFleur, Keith G. MS SPH
  A Normal Mode Vibrational Analysis of Linear Lattices using the Method of Extra Forces.
  Advisor: S. M. Lee
• 1973 Gilbert, John Lee MS SPH
  Evaluation of Theoretical Models for the Microwave Radiation from an Argon Induction-Coupled Plasma using a Microwave Radiometer.
  Advisor: K. M. Baldwin
• 1972 Tauke, Glen John MS SPH
  A Study of Twinning in Hematite.
  Advisor: R. O. Keeling, Jr.
• 1972 Hurlbut, Ronald Scott MS SPH
  The Development and Application of an Instrument to Measure Transpiration from Individual Leaves.
  Advisor: D. G. Yerg
• 1972 Gekas, James Charles MS SPH
  Measurement of the Fermi Neutron Age in Water using a Simulated Infinite Plane Source of Plutonium Beryllium.
  Advisor: D. A. Daavettila
• 1971 Van Dyk, David J. MS SPH
  A Mossbauer Investigation of the Magnetic Properties of a Natural Crystal of Ilmenite-Hematite Solid Solution.
  Advisor: R. O. Keeling, Jr.
• 1971 Rogow, Ricardo MS SPH
  Measurement of Energies and Relative Intensities of Gamma Rays in the Decay of 169Yb.
• 1971 Franti, Glenn MS SPH
  Electron Diffraction Studies of Twinning in alpha-Hematite.
  Advisor: R. O. Keeling, Jr.
• 1970 Marchi, Mark Louis MS SPH The Design of a Vacuum Chamber for the Detection of Electrons Using a Si(Li) Semiconductor Detector.
• 1970 Lashmore, David S. MS SPH
  An Investigation of Evaporation Techniques for Thin Film Multilayer Dielectric Mirrors.
  Advisor: K. M. Baldwin
• 1969 White, Thomas L. MS SPH
  The Vibronics and Infrared Absorption Coefficient for the Finite Non-Symmetrical Diatomic Linear Lattice.
  Advisor: S. M. Lee
• 1969 Trapanese, Alfred J. MS SPH
  Calibration of a Lithium-Drifted Germanium Detector.
  Advisor: G. P. Agin
• 1968 Saunders, Ralph S. MS SPH
  A Laser Interferometer for Measuring the Refractive Indices of Gases.
  Advisor: K. M. Baldwin
• 1968 Deyoung, Donald Bouwman MS SPH
  Investigation of the Titanomagnetite Mineral Series by Mossbauer Spectroscopy.
  Advisor: R. O. Keeling, Jr.
• 1967 Lubaczewski Jr., Ladislaus S MS SPH
  Determination of the Electron Density in an Argon Plasma Using a Laser Interferometer.
  Advisor: K. M. Baldwin
• 1967 Cupal, Jerry J. MS SPH
  A Study of the Remanent Magnetization in the Basal Plane of Natural Hematite.
  Advisor: R. O. Keeling, Jr.
• 1967 Croy, Pamela Ann MS SPH
  An Ultrasonic Measurement of Temperature in an Argon Plasma.
  Advisor: K. M. Baldwin
• 1967 Chen, Shou-Sun MS SPH
  The Mossbauer Effect in Fe-57 on Silica and Alumina Surfaces.
  Advisor: R. O. Keeling, Jr.
• 1967 Barkalow, Bruce Harold MS SPH
  A Differential Emissivity Thermopile Calorimeter for Measuring Radiant Heat Exchange.
  Advisor: K. M. Baldwin
• 1966 Stauffer, Donald Raymond MS SPH
  Microwave Radiometric Investigations in an Induction-Coupled Argon Plasma at Atmospheric Pressure.
  Advisor: K. M. Baldwin
• 1966 Pohanka, Robert MS SPH
  A Magnetohydrodynamic Measurement of the Boundary Layer Thickness in Mercury.
  Advisor: K. M. Baldwin
• 1966 Odell II, Jack L. MS SPH
  Investigating the Magnetic Structure of alpha-Hematite by Mossbauer Spectroscopy.
  Advisor: R. O. Keeling, Jr.
• 1965 Sigamoney, Asai Kurugula MS SPH
  An Investigation of an Induction-Coupled Argon Plasma at Atmospheric Pressure Using Ultrasonic Probes.
  Advisor: K. M. Baldwin
• 1965 Schramm, Raymond E. MS SPH
  Mossbauer Analysis of the Magnetic Structure of Hematite.
  Advisor: R. O. Keeling, Jr.
• 1965 Murray, Peter R. MS SPH
  On the Usefulness of Nonsystematic Zero Intensity X-ray Reflections in Crystal-Structure Analysis.
  Advisor: R. O. Keeling, Jr.
• 1964 Suppelsa, Anthony Bernard MS SPH
  The Crystal Structure Analysis of Aluminum Nitrate Heptahydrate
• 1964 Johnson, James Donald MS SPH
  A Partial Solution of the Structure of Magnesium Nitrate Hexa-hydrate.
  Advisor: R. O. Keeling, Jr.
• 1964 Hill, Richard Warren MS SPH
  A Study of the Crystal Structure of Aluminum Nitrate Nonahydrate.
• 1963 Nakayama, Takashi MS SPH
  Structural Changes in the Transformation from Hematite to Magnetite.
• 1962 DeForest, Sherman Edward MS SPH
  Energy Transfer in Jack Pine as Related to Infra-red Reflectivity on Cones, Bark, and Needles.
  Advisor: D. G. Yerg
• 1958 Daavettila, Donald A. MS SEP
  Dynamic Steam Void Experiment in ZPR-VII.
  Advisor: R. F. Makens
• 1957 Mattson, Rodney A. MS SEP
  The Determination of Soluble Poison Concentrations in H2O.
  Advisor: R. F. Makens
• 1954 Recksiedler, Arthur Lloyd MS SEP
  Two-Step Capture Gamma-Ray Cascades in Cadmium-114 and Chlorine-36.
• 1954 Dahlberg, Duane Arlen MS SPH
  Analyses of Neutron Resonances in the Isotopes of Zinc.
• 1953 Culp, Richard John MS SEP
  A Determination of the Energy of Antimony-Beryllium Photoneutrons.
  Advisor: T. C. Sermon

Kusum Potnis established the Vasant R. Potnis Endowed Fellowship fund in memory of her late husband and physics professor emeritus. Dr. Potnis was a faculty member from 1968 until his retirement in 1996; he passed away in 2012. The Fellowship will provide financial support for graduate students pursuing a Master’s or PhD in physics.

Bacon was a Physics Department Faculty member, specializing in Geophysics, from 1950 to 1974 when the geophysics major was moved to the Geology department. He earned the Distinguished Research Award in 1960.

Fisher joined the faculty in 1895 and served as a faculty member for 50 years, much of that time as Head of the Math and Physics Department. He continued his involvement with the alumni association for almost twenty years after that.

William Longacre joined the faculty in 1929, retiring in 1971 after 42 years of service on the faculty including as Physics Department Head and Director of Geophysics.

Fay Partlo began on the faculty as an instructor in Math and Physics in 1923 and would later serve as the first Physics Department Head after the separation of Math and Physics. In 1953 he left his position as Professor of Physics and Dean of the College to become president of the South Dakota School of Mines.

Tom Sermon joined the Math and Physics department in 1926. Along the way he would serve as Professor and Head of the Physics department from 1949 to 1953, and then as registrar from 1954 until 1970.

Ian Shepherd was brought in to be Professor and Head of the Physics department in 1977 after a very long and difficult search. Unfortunately, he passed away due to illness within his first year at Tech.

Established in 1973 by Marc’s parents, Frank and Winifred Blackford, in memory of their son who was killed by a drunk driver in a 1973 car accident in Houghton. At the time of his death, Marc was a junior at MTU, majoring in physics.

John Miles was a devoted MTU alumnus and supported the University in an extraordinary way through the Presidents Club, McNair Society, and was a member of the Dillman Society. He graduated from MTU in 1935, having earned a BS in Electrical Engineering. Endowed scholarships were established in his name in support of graduate programs in Physics, Materials, and Electrical Engineering.

Howard Wilson, a U.P. native, obtained a BS in Physics at MCMT (now MTU) in 1959. After graduate work in Nuclear Physics at Indiana University, he worked at Science Applications International Corp (SAIC) in San Diego, CA, and is now retired. The Howard L and Marjie L Wilson Endowed Scholarships were established in 2000 to recognize MTU students pursuing a Bachelor of Science, Engineering, or post graduate degree.

Prof. Jerry Hall Service taught physics for 39 years. He was a member of the Tech Physics department from 1932 to 1952 and department head in 1947-48. A captain in the US Navy, he took time out during WW II to serve his country. When Service passed away at age 92, his family created a memorial fund in his honor, asking that the fund’s income be used to help Tech’s library purchase books or other materials in the fields of physics and astronomy.