Skip to main content
Graph
Search
fr
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Concept
Helmholtz decomposition
Formal sciences
Mathematics
Analysis
Vector analysis
Graph Chatbot
Related lectures (16)
Login to filter by course
Login to filter by course
Reset
Navier-Stokes: Equations and Simulation
Explores the challenges of Navier-Stokes equations, pressure checkerboard, staggered grid, and the SIMPLE algorithm.
Navier-Stokes: Numerical Flow Simulation
Explores numerical simulation of fluid flow with Navier-Stokes equations, focusing on pressure role and divergence-free velocity fields.
Continuum Mechanics: Scalar Field Gradient and Unitary Vectors
Explores scalar field gradient, unitary vectors, and vector field divergence in continuum mechanics.
Differential Operators: Vector Analysis
Covers differential operators, vector analysis, Fourier analysis, and potential fields with applications to gravity.
Scalar Product
Explains the concept of scalar product, its properties, and geometric interpretation.
Power Systems Dynamics: Transient Stability
Explores transient stability in power systems dynamics, covering algebraic equations, generator models, and numerical integration techniques.
Vector Calculus: 2D Curl Operator
Explores the 2D curl operator, its calculation, and geometric interpretation, emphasizing the role of curve speed in curve integrals.
Understanding Vector Fields and Potential Functions
Explores vector fields, potential functions, and energy in electromagnetism, emphasizing the importance of understanding charge distributions and equi-potential lines.
Nonlinear Equations: Bisection Method
Covers the bisection method for solving nonlinear equations with continuous functions and root finding examples in diode circuits.
Monochromatic Plane Waves and Scalar Helmholtz Equations
Explores monochromatic plane waves and scalar Helmholtz equations in electromagnetic wave analysis.
Vector Analysis: Basics and Applications
Explores the importance of vector analysis in physics and engineering, showcasing its application in various laws and relationships.
Curl in 2D: Rotation and Examples
Explores curl in 2D vector fields, demonstrating its rotation concept through examples and its application in physics.
Electric Field and Potential
Explores electric field, potential, work done by charges, superposition principle, and conductors' behavior.
Electric Double Layer: Helmholtz Model
Explains the electric double layer on charged surfaces in solution, focusing on the Helmholtz model and its limitations.
Curl in 3D
Covers the concept of curl in 3D, a vector operator describing rotation.
Electric Double Layer: Theory and Modelling
Explores the electric double layer around charged surfaces in solution and its theoretical models.
Previous
Page 1 of 1
Next
