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Related lectures (32)
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Damped Harmonic Oscillator
Covers the damped harmonic oscillator in quantum optics, discussing alternative descriptions and extensions like finite temperature.
Temperature, Pressure, Chemical Potential
Explores temperature, pressure, and chemical potential in simple systems, along with reversible processes and powers.
Temperature Independent Ref (Band Gap)
Covers the design and analysis of temperature-independent references and band gap circuits.
Temperature and Kinetic Energy in Ideal Gas
Explores ideal gas behavior, temperature, pressure, and kinetic energy relationships, and the principle of thermodynamics.
Finite Elements Method: Application Example 2D
Explores the application of finite elements method in 2D temperature distribution on a square plate.
Thermal Machines: Carnot Cycle and Efficiency Principles
Discusses the Carnot cycle, thermodynamic temperature, and the efficiency of thermal machines, including real and ideal models.
Gas Laws: Dynamics
Delves into gas dynamics, exploring momentum changes during collisions and the principles of temperature and kinetic energy.
Two phase flow and heat transfer: temperature field exercise
Guides students in finding the temperature field inside a tube.
Damped Harmonic Oscillator: Quantum Gases
Covers the damped harmonic oscillator and its extensions in quantum gases.
Thermal Conductive Transfer: Composite Wall Study
Explores conductive heat transfer in composite walls, analyzing temperature distribution and determining surface temperatures using thermodynamic principles.
MILP Model and Typical Days by FM
Discusses MILP model, typical days, clustering, and extreme periods analysis in energy systems optimization.
Physics-inspired Machine Learning for Materials Discovery
Delves into physics-inspired machine learning for materials discovery, emphasizing atomic-scale modeling, thermodynamics, anharmonic free energies, and symmetry in machine learning models.
Capacitor and Self-Heating in a Wire
Covers the simulation of a capacitor and self-heating in a wire using Comsol.
Paramagnetism: Microcanonical vs Canonical Treatment
Delves into the microcanonical and canonical treatment of paramagnetism in external fields.
Thermal Analysis of Foundry: Chvorinov Theory
Explores foundry casting conditions, defects reduction, and Chvorinov's thermal analysis theory in the foundry process.
Computational Quantum Physics
Covers path-integral ground state methods and Monte Carlo simulations in computational quantum physics.
Temperature and Agitation Analysis
Covers the analysis of temperature and agitation in a controlled chamber.
Atmospheric Models: Homogeneous & Constant Gradient
Covers the concepts of homogeneous atmosphere, adiabatic atmosphere, and constant gradient atmosphere.
Vector Fields: Gradient and Divergence
Covers vector fields, gradient, divergence, heat flux, and stress tensors.
Applications of Fourier Equation
Explores applications of the Fourier equation in different heat transfer scenarios.
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