Lecture
Monte Carlo Simulation of 2D Spin Systems
Related lectures (32)
Dimensional Analysis of Explosions
Explores dimensional analysis of large explosions using tabulated values to predict explosive behavior.
Direct Methods for Linear Systems of Equations
Explores direct methods for solving linear systems of equations, including Gauss elimination and LU decomposition.
Advanced Physics I
Covers advanced topics in physics, including empirical forces, applications of Newton's laws, momentum, impulse, work, energy, and angular momentum.
Eigenvalue Problems: Methods and Applications
Explores eigenvalue problems, iterative methods, convergence properties, and applications in computational physics.
Numerics: semester project
Covers the semester project on numerics, focusing on adaptive algorithms and multistep methods.
Kinematic Quantities and Linear Mass Density
Discusses kinematic quantities and linear mass density in examples of metal wires.
Advanced Physics: Introduction to Mechanics
Introduces the fundamentals of advanced physics, emphasizing mechanics and historical developments from Aristotle to Newton.
Numerical Integration: Order and Convergence
Explores numerical integration order and convergence for accuracy in numerical methods.
Efficient Stochastic Numerical Methods
Explores efficient stochastic numerical methods for modeling and learning, covering topics like the Analytical Engine and kinase inhibitors.
Implicit Schemes in Numerical Analysis
Explores implicit schemes in numerical analysis, emphasizing stability and convergence properties in solving differential equations.