Constraints in Molecular Dynamics: Introduction

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Related lectures (30)

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Explores molecular dynamics simulations under holonomic constraints, focusing on numerical integration and algorithm formulation.

Constraints in Molecular Dynamics: Theory and SHAKE Algorithm

Explores the theory of constraints in molecular dynamics simulations, including the SHAKE algorithm.

Constraints and Lagrange

Introduces constraints, Lagrange multipliers, and generalized coordinates in physics.

Constraints and Lagrange

Covers constraints, Lagrange equations, generalized coordinates, cyclic coordinates, conservation laws, and Hamilton formalism.

Constraints in Molecular Dynamics: General Method and SHAKE Algorithm

Covers the general method and SHAKE algorithm for constraints in Molecular Dynamics.

Lagrange Method

Covers the Lagrange method for expressing constraints and degrees of freedom in mechanics using generalized coordinates.

Molecular Dynamics Simulations: Energy Conservation

Explores energy conservation in Hamiltonian systems, numerical integration, time step choices, and constraint algorithms in molecular dynamics simulations.

Principle of Least Action

Covers the principle of least action, Euler-Lagrange equations, Lagrange multipliers, and variational calculus.

Lagrange II: Principle of D'Alembert

Explores the Principle of D'Alembert and perfect constraints in mechanical systems, demonstrating their application through examples like the simple pendulum.

Molecular Dynamics Simulations: Basics and Algorithms

Covers the basics of molecular dynamics simulations, ensemble properties, classical mechanics formulations, numerical integration, energy conservation, and constraint algorithms.