This course will give you a practical introduction to experimental atomic physics by having you do real, publishable research. While this course-based-research program is focused on high precision spectroscopy, you will gain skills that can be generally applied to investigational science in experimental design, experimental iteration/systematic error analysis, data analysis, and writing scientific papers for publication.

This course will give you a practical introduction to experimental atomic physics by having you do real, publishable research. While this course-based-research program is focused on high precision spectroscopy, you will gain skills that can be generally applied to investigational science in experimental design, experimental iteration/systematic error analysis, data analysis, and writing scientific papers for publication.

This course will give you a practical introduction to experimental atomic physics by having you do real, publishable research. While this course-based-research program is focused on high precision spectroscopy, you will gain skills that can be generally applied to investigational science in experimental design, experimental iteration/systematic error analysis, data analysis, and writing scientific papers for publication.

The special theory of relativity; the wave equation and mathematics of waves; optical phenomena of interference and diffraction; particle and wave models of matter and radiation, Bohr model of atomic structure; introduction to fundamental principles and problems in quantum mechanics; introduction to nuclear physics. Prerequisite: (PHY 118 or PHY 119) and MTH 112.

This course covers a variety of math topics of particular use to physics and engineering students. Topics include differential equations, complex numbers, Taylor series, linear algebra, Fourier analysis, partial differential equations, and a review of multivariate calculus, with particular focus on physical interpretation and application. Prerequisites: MTH 212 and PHY 117 or PHY 119, or equivalent. Enrollment limited to 30.

This course covers a variety of math topics of particular use to physics and engineering students. Topics include differential equations, complex numbers, Taylor series, linear algebra, Fourier analysis, partial differential equations, and a review of multivariate calculus, with particular focus on physical interpretation and application. Prerequisites: MTH 212 and PHY 117 or PHY 119, or equivalent. Enrollment limited to 30.

Simple harmonic motion, fluids, electricity and magnetisms. Lab experiments are integrated into the in-class lectures, discussions and problem solving activities. Three extended-length classes/week plus a discussion section. Satisfies medical school and engineering requirements for an introductory physics II course with labs. Prerequisite: PHY 117. Enrollment limited to 28.

Simple harmonic motion, fluids, electricity and magnetisms. Lab experiments are integrated into the in-class lectures, discussions and problem solving activities. Three extended-length classes/week plus a discussion section. Satisfies medical school and engineering requirements for an introductory physics II course with labs. Prerequisite: PHY 117. Enrollment limited to 28.

The concepts and relations (force, energy and momentum) describing physical interactions and the changes in motion they produce, along with applications to the physical and life sciences. Lab experiments, lectures and problem-solving activities are interwoven into each class. Discussion sections offer additional help with mathematics, data analysis and problem solving. This course satisfies medical school and engineering requirements for an introductory physics I course with labs.

The concepts and relations (force, energy and momentum) describing physical interactions and the changes in motion they produce, along with applications to the physical and life sciences. Lab experiments, lectures and problem-solving activities are interwoven into each class. Discussion sections offer additional help with mathematics, data analysis and problem solving. This course satisfies medical school and engineering requirements for an introductory physics I course with labs.