Physics

Courses Taught

• AST 101 Solar System Astronomy
  Overview of behavior and properties of planets, satellites, and minor members of the solar system. Subjects include basic phenomena of the visible sky, gravitation and orbital mechanics, results of telescopic and space research, and theories of the origin and evolution of the solar system. Course satisfies science distribution requirement for nonscience majors. Three classes and a laboratory.
• AST 102 Stellar Astronomy
  Overview of current knowledge about the universe beyond the solar system from a physical and evolutionary standpoint. Subjects include observational properties of stars, methods of observation and analysis of light, nature of stellar systems and interstellar material, principles of stellar structure and evolution, and overall structure and development of the physical universe. Course satisfies laboratory science distribution requirement for nonscience majors. Three classes and a laboratory.
• FYS 101-3 We are Made of Stars
  Description – In this course we will learn how our chemical composition is connected to the stars, exploring our fundamental relationship to these very exotic yet very common objects. We will examine the origin and evolution of some of the more common (and uncommon) elements on the periodic table from an astronomer’s point of view. To do this we will learn some astronomy basics about stars and planets, how we learn about these objects via the light they emit and the telescopes that help us capture that light, and multiple aspects of our relationship with the elements on the periodic table. This focus on our physical relationship with the stars requires that we examine the evolution of astronomy as a discipline of scientific study. Throughout this course we will constantly ask ourselves how we know what we know and how our knowledge is informed by the scientific method, research, and technological development.
• FYS 106-3 STEM From The Ground Up: The Thrills and Skills of Science
  In this seminar STEM Scholars students will learn what distinguishes science from other modes of inquiry, and be introduced to skills used throughout the various STEM disciplines. Through readings, analyses, discussions and engaging group activities, the STEM Scholars will learn what scientists do and how they do it, with special emphases on the importance of problem solving, quantitative skills, and clear communication with fellow scientists and the general public. Students will learn about the history of science, proper experimental design, uncertainty, and methods for collecting, interpreting and analyzing data. We will discuss how basic scientific research informs technological applications used in our daily lives; learn about cutting-edge scientific discoveries as well as discuss the ethical issues involved in the pursuit and application of science. This seminar focuses on a multidisciplinary approach to learning, understanding, discussing and practicing the specific skills necessary for students participating in the STEM Scholar program in preparation to a successful career in the STEM fields at Gettysburg College and after graduation.
• PHY 103 Elementary Physics
  General coverage of the fields of classical and modern physics. Course is for students in biology, environmental science, the health professions. Non-science majors should enroll in PHY101. Prerequisite: Sophomore status and facility in algebra and geometry. Three class hours and three laboratory hours.
• PHY 104 Elementary Physics
  General coverage of the fields of classical and modern physics. Course is for students in biology, environmental science, the health professions, etc. Prerequisite: Physics 103 and facility in algebra and geometry. Three class hours and three laboratory hours
• PHY 109 Introductory Physics I
  Standard first semester calculus based Physics course designed to support the curricula of Chemistry and Biochemistry & Molecular Biology majors. The course will explore a wide range of topics including Newtonian mechanics, work & energy, circular motion, rotational kinematics/dynamics, fluids, concepts of heat & temperature, kinetic theory, and thermodynamics. Prerequisite: Calculus 111 (can be taken concurrently) and sophomore or higher status and CHEM or BMB Major.. Three class hours and three laboratory hours.
• PHY 110 Introductory Physics II
  Standard second semester calculus based Physics course designed to satisfy the major requirements for Chemistry, and Biochemistry and Molecular Biology majors but can be taken by other students that meet the requirements. The course will explore a wide range of topics including vibrations and sound, light, optics, electricity and magnetism, and electric circuits. Prerequisite: Physics 109. Three class hours and three laboratory hours.
• PHY 111 Introductory Modern Physics I
  An introduction to conservation laws and modern physics: the conservation of momentum, energy, and angular momentum as fundamental laws, vectors and the concept of velocity, superposition and the interference of waves, physical optics, introductory principles of quantum physics, and applications in atomic, nuclear, and particle physics. Four class hours and three laboratory hours.
• PHY 112 Introductory Modern Physics II
  An introduction to classical and relativistic mechanics: Newton’s dynamical laws of motion, orbital mechanics, the Newtonian synthesis of terrestrial and celestial mechanics, and the special theory of relativity. Differential and integral calculus is introduced and used. Prerequisites: Physics 111 and Math 111, which may be taken concurrently, or permission of instructor. Four class hours and three laboratory hours.
• PHY 381 Special Topics in Physics
  Topics in physics not covered in the usual curriculum. Topics vary from year to year and may include relativity; astrophysics; advanced topics in modern optics, solid state physics and electromagnetism; fundamental particles and nuclear structure; the physics of plasmas and various mathematical topics in physics (topology, special functions, fractals). Prerequisites: Upper division standing and approval by instructor. Three class hours
• PHY 420 Advanced Research Methods in Physics
  Laboratory course with experiments drawn from various areas of physics, such as optics, electromagnetism, atomic physics, and nuclear physics, with particular emphasis on contemporary methods. Error analysis, experimental techniques, and written and oral communication are stressed. Prerequisite: Physics 310 and either Physics 324, Physics 352, Chemistry 306 or an approved junior-level laboratory course.
• PHY 460 Individualized Study-Research
  Individualized research counting toward the minimum requirements in a major or minor, graded A-F. Experimental or theoretical investigation of a research-level problem selected by a student in consultation with a faculty member. Students should arrange for supervision by the end of the junior year. Open only to senior physics majors. Results of the investigation are reported in a departmental colloquium and senior thesis. Prerequisite: Approval by department by the end of junior year.