The first part of my general physics class was mechanics.
During the spring of my senior year I took a class called "Applied Vector Calculus" in which I did a project invloving electricity. This project can be seen here.
In the spring of my senior year I took a thermodynamics class. The class involved a big project for which I had to find a more efficient numerical method of finding the area enclosed between a set of curves than dividing it into rectangles. The project can be seen here.
In the spring of my senior year I took a class on classical mechanics. One of the first projects involved deriving a set of equations that govern the motion of a double pendulum using the Lagrangian. It can be found here.
In the fall of my senior year I took a class called "Modern Physics," which consisted of two halves. The first half was dedicated to Special Relativity while the second involved Quantum Mechanics. While talking about the Black Body Radiation problem, we came across an interesting question in the textbook. One time we spent the entire class period trying to derive one of the equations in the book but were always making a silly mistake somewhere. Later that day I solved the problem. Here's the solution.
During my senior year I was working on a project in Quantum Mechanics for my distinction.
The first part of "Modern Physics," a class I took in the fall of my senior year was Special Relativity. It was a solid introduction to the conceptual part of relativity, such as length contraction and time dilation, and the mathematical aspects, especially the use of tensors.
During the fall of my senior year I took "Mathematical Physics." The course covered a variety of topics, ranging from 3D coordinate transformations to Fourier Transforms to special relativity. During an exploration of curvilinear coordinate systems, I had to derive gradient, divergence, curl, and Laplacian for Spherical Coordinates. My work can be found here.