Renuka Rajapakse, PhD

A laboratory course that accompanies PHY 102. Experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.

Seminar on fundamental topics and new discoveries in physics. Also an introduction to the physics major program and faculty research.

Seminar on fundamental topics and new discoveries in physics. Also an introduction to the physics major program and faculty research.

A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.

A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.

A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.

A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.

The development of the mathematical and computational tools needed for solving more advanced physics problems. Series and complex numbers, complex roots and powers, linearity, special matrices, partial differentiation with change of variables, vector fields and physics of div, grad and curl. Analytical solutions and computer simulations are emphasized.

Development of the mathematical tools useful in physics. Vector calculus, linear algebra, matrices, operators, orthogonal functions.

Individual work under the supervision of a faculty member on an experimental, theoretical, or literature review project in physics. This work may lead to a senior thesis project or may be concluded by a written report at the end of the term. May be repeated for up to a maximum of 6 credits toward degree.