# Department of Physics

**Department Chair: James Pientka, Ph.D.**

**Founded in 1939 by the Rev. Francis Sullivan, O.F.M.**

## Faculty

T. Cooke, M.S.

R. M. Oszwaldowski, Ph.D.

J. M. Pientka, Ph.D.

The program in physics is designed to provide opportunities for the undergraduate student to develop the skills essential for graduate school, industry, government service and the teaching of physics. The physics curriculum offers two degree tracks designed to prepare a student for employment or further study in physics or in the various engineering fields, such as, but not limited to, electrical and mechanical engineering. Students with an interest in biophysics may take a minor in biology, or take a set of recommended biology electives. Physics majors have gone on to careers in physics, civil, electrical, & mechanical engineering, biomechanical engineering and medicine. The department also provides a fundamental physics foundation for other science disciplines. Physical science courses are available to those not majoring in the sciences.

A chapter of Sigma Pi Sigma, National Physics Honor Society, has been established to give recognition to outstanding students.

The Physics Department operates the SBU Observatory, which is equipped with an 11 inch Schmidt-Cassegrainian telescope. Interested students may participate in the Orion Astronomy Club.

**Engineering Physics (ENGR)**

**ENGR-103 ENGINEERING GRAPHICS I (3 Credits)**

Introduction to engineering drawing and Computer Aided Drafting (CAD).

**ENGR-203 STATICS (3 Credits)**

Engineering mechanics, applied mathematics, concurrent forces, statics on rigid bodies, equilibrium, friction, three-dimensional theory, energy principles.

**Prerequisite(s):** Take PHYS-103

**ENGR-204 DYNAMICS (3 Credits)**

Kinematics and dynamics of a particle. Rigid bodies, momentum principles, work and energy, vibrations, kinematics and dynamics in three-dimensional space.

**Prerequisite(s):** Take ENGR-203

**ENGR-205 STRENGTH OF MATERIALS (3 Credits)**

Elementary analysis of strength and deformation of deformable bodies subject to various force systems. Strain and stresses in solids of one, two, and three dimensions.

**Prerequisite(s):** Take ENGR-203

**ENGR-220 INTRODUCTION TO MATLAB (3 Credits)**

This course introduces students to MatLab, one of the most widely used software packages for technical and scientific calculation, and to the numerical solution of problems in physics and engineering.

**ENGR-252 ENGINEERING MECHANICS (3 Credits)**

The study of statics and dynamics with engineering applications. Deformation, strain and stresses in solids of one, two, and three dimensions. Introduction to the mechanics of continuous media, the kinematics and dynamics of fluids; viscous flow, turbulence. Bernoulli's theorem and the Navier-Stokes equation.

**ENGR-262 ELECTRONICS (3 Credits)**

This course is designed for the advanced undergraduate student or the incoming graduate student who desires a basic training in electronics. The course seeks to acquaint the student with the physical principles which govern the use of electronic devices and to allow the student to use these components in the design of circuits.

## Physics (PHYS)

**PHYS-COMP WRITTEN COMPREHENSIVES (0 Credits)**

**PHYS-103 GENERAL PHYSICS I (3 Credits)**

An introductory course in physics for students of science and engineering. Topics include: vectors, statics, dynamics, rotation, conservation laws, vibrations and thermodynamics. Students without calculus admitted with permission of instructor.

**Corequisite(s):** TAKE MATH-151Take PHYL-103

**PHYS-104 GENERAL PHYSICS II (3 Credits)**

Topics include: electricity and magnetism, circuit analysis, electromagnetic waves, optics and modern physics. Students without calculus admitted with permission of instructor.

**Prerequisite(s):** Take PHYS-103 MATH-151

**Corequisite(s):** PHYL-104

**PHYS-110 PHYSICS FOR MEDICAL TECHNICIAN (4 Credits)**

A one-semester general physics course which emphasizes the principles of physics that are most important to a medical technician. The course topics include optics, forces, motion, energy, heat, fluids, electricity and radioactivity.

**PHYS-201 THEORETICAL MECHANICS (3 Credits)**

Vector algebra and calculus. Kinematics of a point. Dynamics of a system of points. Kinematics of rigid bodies. Impulse, momentum, work and energy.

**PHYS-203 MODERN PHYSICS (3 Credits)**

A study of transition from classical to modern physics. Topics treated are relativity, electromagnetic radiation, discoveries of electron and nucleus, Bohr Theory of atomic structure and introductory quantum mechanics. (formerly Atomic Physics).

**PHYS-252 ENGINEERING MECHANICS (3 Credits)**

The study of statics and dynamics with engineering applications. Deformation, strain and stresses in solids of one, two, and three dimensions. Introduction to the mechanics of continuous media, the kinematics and dynamics of fluids; viscous flow, turbulence. Bernoulli's theorem and the Navier-Stokes equation.

**PHYS-301 ELECTRICITY & MAGNETISM I (3 Credits)**

Topics covered include vector analysis, selected topics in vector calculus, the electrostatic field of force, Gauss' law and the application of these principles to the solution of problems involving various geometries is considered. The electrostatic field in dielectric media, boundary value problems in dielectric media and electrostatic energy and the application of energy concepts are studied. Electric current and circuit analysis are included. Other topics include the magnetic field of steady currents, electromagnetic induction, magnetic properties of matter, magnetic energy, slowly varying currents, Maxwell's Equations and the applications of Maxwell's Equations.

**PHYS-302 ELECTRICITY & MAGNETISM II (3 Credits)**

**Prerequisite(s):** Take PHYS-301

**PHYS-304 THERMODYNAMICS (3 Credits)**

Temperature, thermodynamic systems, work, the First Law, heat, ideal gases, the Second Law, reversibility and irreversibility, the Carnot cycle, entropy, Boltzmann statistics, equipartition of energy. Introductory statistical mechanics.

**PHYS-309 EXPERIMENTAL PHYSICS I (3 Credits)**

This course introduces the student to the experimental techniques associated with the intermediate level physics courses. Choice of experiments will depend upon the student's background and interest.

**PHYS-312 INTERN. IN APPLIED PHYSICS (3 Credits)**

This course is a practicum designed to give qualified juniors an opportunity to spend a summer in a structured industrial or research setting so that they can immerse themselves in a project involving applied physics. Open to second-semester junior physics majors and with special permission students with a physics minor.

**PHYS-403 ELECTRONICS (3 Credits)**

This course is designed for the student who desires a basic training in electronics. The course seeks to acquaint the student with the physical principles which govern the use of electronic devices and to allow the student to use these components in the design of circuits.

**PHYS-404 SOLID STATE (3 Credits)**

Crystal Structures and solids. Lattice vibrations. Thermal properties of solids,

**Prerequisite(s):** Take PHYS-203

**PHYS-406 INTRODUCTORY QUANTUM MECHANICS (3 Credits)**

De Broglie waves and wave packets, the Schroedinger equation, applications to one-dimensional problems, the hydrogen atom, perturbation theory, angular momentum and electron spin.

**Prerequisite(s):** Take PHYS-203

**PHYS-407 TOPICS IN BIOPHYSICS (3 Credits)**

A study of the principles and experimental techniques of physics as they apply to biological systems. Special emphasis will be given to the interactions as they occur on the molecular level.

**PHYS-408 OPTICS (3 Credits)**

Study of wave motion, Huygen's principle, dispersion. Some facts concerning the spectrum, interference, diffraction, double refraction, plane polarized light, the electromagnetic theory of light, velocity of light, the origin of spectra.

**PHYS-409 EXPERIMENTAL PHYSICS II (3 Credits)**

This course is a continuation of Physics 309. Experiments of a more sophisticated nature are available. The experiments are related to lecture courses at the senior level.

**PHYS-410 SPECIAL PROBLEMS IN PHYSICS (3 Credits)**

Designed to allow qualified seniors to undertake independent study or experimentation in some subject in physics under the direct supervision of one of the department staff. Modern computer methods will be employed wherever possible so that the student may become acquainted with the programming, etc.

**PHYS-451 APPLIED PROB.COMPUTATIONAL PHY (3 Credits)**

Problem solving in a wide range of engineering and physics applications, including electricity and magnetism, solid and fluid mechanics, optics, thermal physics, atomic and nuclear physics. Emphasis is placed on numerical methods, approximation techniques and advanced computer skills for solutions of problems arising in realistic engineering situations.

**Prerequisite(s):** Take CS-127 or ENGR-220

**PHYS-452 Applied Methods in Computational Physics (3 Credits)**

Practice in the numerical solution of differential equations and systems of such equations. Finite difference and finite element methods are used on applications drawn from several areas of physics and engineering.

**Prerequisite(s):** Take PHYS-451

**PHYS-490 SENIOR COMPREHENSIVES (0 Credits)**

This is an oral comprehensive required of all physics seniors.

## Physics Lab (PHYL)

**PHYL-103 GENERAL PHYSICS I LAB (1 Credit)**

Basic experiments in classical physics designed to complement the topics covered in Physics 103.

**Corequisite(s):** Take PHYS-103

**PHYL-104 GENERAL PHYSICS LAB II (1 Credit)**

Basic experiments in classical and modern physics designed to complement topics covered in Physics 104.

**Corequisite(s):** Take PHYS-103Take PHYS-104

**PHYL-110 MED. TECH LAB (1 Credit)**

Two hours per week laboratory with experiments in areas covered in Physics 110.