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Explores the core concepts of Brownian motion, from molecules to cells, including its history, hypothesis versus description, Langevin's solution, and methods for measuring Brownian motion.
Explores molecular structures, including nucleotides, polymers, and lipid formations, emphasizing the importance of secondary structures in biological functions.
Explores forces and compartments in computational cell biology, emphasizing the significance of indirect forces mediated by the environment and the role of compartments in cellular functions.
Explores cellular cytoskeleton components, including actin filaments and microtubules, and discusses solvent-free molecular dynamics and Monte Carlo simulations.
