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Energy interactions
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Energy interactions
Lecture
Protein Folding: Free Energy and Interactions
Explores protein folding, free energy, interactions, equilibrium, and binding in cellular processes.
Lecture
Protein Folding: Thermodynamic Insights
Delves into the energetic determinants of protein folding, equilibrium constants, and thermodynamic properties of proteins, emphasizing enthalpy, entropy, and heat capacity.
Lecture
Second Law of Thermodynamics
Explores the Second Law of Thermodynamics, Gibbs Free Energy, equilibrium constants, and Le Châtelier's Principle.
Lecture
Thermodynamic Functions and Equilibria: Mathematical Tools
Discusses thermodynamic functions, their mathematical tools, and key relationships between state variables in thermodynamics.
Lecture
Thermodynamic Equilibria: Solution Models
Explores solution models for binary mixtures, including regular and real solutions, exchange energy, and thermodynamic quantities.
Lecture
Energy Minimization in Biological Systems: Equilibrium Models
Covers energy minimization models in biological systems, focusing on equilibrium and the roles of entropy and hydrophobicity.
Lecture
Thermodynamic Equilibrium
Covers the law of mass action, equilibrium establishment, and application examples in thermodynamics.
Lecture
Chemical Potential and Thermodynamic Functions in Mixtures
Covers chemical potential variations and thermodynamic functions in mixtures, emphasizing their implications in real and ideal gases.
Lecture
Thermodynamic Equilibria: Concepts and Calculations
Covers basic thermodynamic conventions, chemical potential, vapor pressure, and the relationship between chemical potential and pressure in gases.
Lecture
Thermodynamics II: Entropy and Gibbs Energy
Explores entropy, Gibbs energy, spontaneity of reactions, and equilibrium constants in thermodynamics.
Lecture
Chemical Thermodynamics: Entropy and Gibbs Energy
Explores chemical thermodynamics, entropy, enthalpy, Gibbs energy, and chemical equilibrium.
Lecture
Nuclear Fission: Energy Release and Neutron Interactions
Explores nuclear fission, energy release, fission neutrons, and practical fuels in a nuclear reactor.
Lecture
Interactions with Surface and Atmosphere: Energy Balance
Covers the interactions of electromagnetic radiation with the Earth's surface and atmosphere, focusing on energy balance and spectral signatures.
Lecture
Intermolecular Interactions: Energy Functions & Protein Structure
Explores empirical energy functions, bond potentials, van der Waals interactions, and Coulomb's law in molecular interactions.
Lecture
Polymer Science: Secondary Interactions and Cohesive Energy
Explores polymer structures, cohesive energy, molecular orbitals, and non-covalent interactions influencing molecular organization.
Lecture
Fluid-Structure Interactions: Vortex Dynamics and Energy Harvesting
Delves into unsteady deformations of elastic structures driven by vortex shedding and their application in energy harvesting.
Lecture
Energy landscape: Symmetric Interactions
Explores the energy landscape in symmetric interactions, emphasizing the importance of symmetric weights and random patterns.
Lecture
Electrokinetic Devices: Energy Harvesting and Water Interaction
Explores electrokinetic devices for energy harvesting and water interaction, including large-scale utilities and portable devices.
Lecture
Hamiltonian of Heisenberg: Interaction and Energy Levels
Covers the Hamiltonian of Heisenberg and the interaction between classical magnetic moments.
