Explore the fascinating world of quantum solids in this lecture on topology, correlations, and superconductivity in magic angle graphene. Delve into the intricacies of twisted bilayer graphene, examining its symmetries, band structure, and the concept of 'magic' angles. Discover the importance of moire materials and lattice relaxation in understanding these complex systems. Learn about the chiral model and its implications for perfectly flat bands. Investigate the connections between exactly flat bands and Landau levels, and explore the paradigms for correlated electrons. Gain insights into fractional filling and its potential implications for quantum physics. Conclude with a Q&A session to further deepen your understanding of these cutting-edge concepts in quantum solid-state physics.