Explore the fundamental concepts of differential forms in this comprehensive 7-hour course. Delve into the tangent space, 1-forms, and m-forms, understanding their geometric interpretations and algebraic properties. Learn about the wedge product and its significance in differential geometry. Discover how to integrate differential forms, from 1-forms to m-forms, and apply these techniques to classic problems like u-substitution and change of variables. Examine the exterior derivative, its properties, and its connection to vector calculus. Investigate the Hodge operator and its role in relating differential forms to familiar vector calculus concepts. Apply differential forms to Maxwell's equations in electromagnetism. Finally, study the integration of m-forms over m-chains and explore the boundaries of m-cells and m-chains, providing a solid foundation in this powerful mathematical framework used in physics and advanced geometry.