Play all

Promotional Video | Vector Calculus for Engineers

Vectors | Lecture 1 | Vector Calculus for Engineers

Cartesian coordinates | Lecture 2 | Vector Calculus for Engineers

Dot product | Lecture 3 | Vector Calculus for Engineers

Cross product | Lecture 4 | Vector Calculus for Engineers

Analytic geometry of lines | Lecture 5 | Vector Calculus for Engineers

Analytic geometry of planes | Lecture 6 | Vector Calculus for Engineers

Kronecker delta and Levi-Civita symbol | Lecture 7 | Vector Calculus for Engineers

Vector Identities | Lecture 8 | Vector Calculus for Engineers

Scalar Triple Product | Lecture 9 | Vector Calculus for Engineers

Vector Triple Product | Lecture 10 | Vector Calculus for Engineers

Scalar and vector fields | Lecture 11 | Vector Calculus for Engineers

Partial derivatives | Lecture 12 | Vector Calculus for Engineers

Method of least squares | Lecture 13 | Vector Calculus for Engineers

Multivariable chain rule | Lecture 14 | Vector Calculus for Engineers

Triple product rule | Lecture 15 | Vector Calculus for Engineers

Triple product rule: the ideal gas law | Lecture 16 | Vector Calculus for Engineers

Gradient of a scalar field | Lecture 17 | Vector Calculus for Engineers

Divergence of a vector field | Lecture 18 | Vector Calculus for Engineers

Curl of a vector field | Lecture 19 | Vector Calculus for Engineers

Laplacian of a scalar or vector field | Lecture 20 | Vector Calculus for Engineers

Vector calculus identities | Lecture 21 | Vector Calculus for Engineers

Divergence of the cross product of two vectors (proof) | Lecture 22 | Vector Calculus for Engineers

Electromagnetic waves from Maxwell's equations | Lecture 23 | Vector Calculus for Engineers

Double and triple integrals | Lecture 24 | Vector Calculus for Engineers

Double integral over a triangular region | Lecture 25 | Vector Calculus for Engineers

Polar Coordinates (Gradient) | Lecture 26 | Vector Calculus for Engineers

Polar Coordinates (Divergence and Curl) | Lecture 27 | Vector Calculus for Engineers

Polar Coordinates (Laplacian) | Lecture 28 | Vector Calculus for Engineers

Central Force | Lecture 29 | Vector Calculus for Engineers

Change of variables (single integral and substitution) | Lecture 30 | Vector Calculus for Engineers

Change of variables (double integral and the Jacobian) | Lecture 31 | Vector Calculus for Engineers

Cylindrical coordinates | Lecture 32 | Vector Calculus for Engineers

Spherical coordinates (Part A) | Lecture 33 | Vector Calculus for Engineers

The Del Operator in spherical coordinates | Lecture 34 | Vector Calculus for Engineers

Line Integral of a Scalar Field | Lecture 35 | Vector Calculus for Engineers

Arc Length: Perimeter of an Ellipse | Lecture 36 | Vector Calculus for Engineers

Line Integral of a Vector Field | Lecture 37 | Vector Calculus for Engineers

Work-Energy Theorem | Lecture 38 | Vector Calculus for Engineers

Surface Integral of a Scalar Field | Lecture 39 | Vector Calculus for Engineers

Surface Area of a Sphere | Lecture 40 | Vector Calculus for Engineers

Surface Integral of a Vector Field | Lecture 41 | Vector Calculus for Engineers

Flux Integrals | Lecture 42 | Vector Calculus for Engineers

Gradient theorem | Lecture 43 | Vector Calculus for Engineers

Conservative vector fields | Lecture 44 | Vector Calculus for Engineers

Conservation of Energy | Lecture 45 | Vector Calculus for Engineers

Divergence theorem | Lecture 46 | Vector Calculus for Engineers

Divergence theorem (example in Cartesian coordinates) | Lecture 47 | Vector Calculus for Engineers

Divergence theorem (example in spherical coordinates) | Lecture 48 | Vector Calculus for Engineers

Derivation of the continuity equation of fluid dynamics | Lecture 49 | Vector Calculus for Engineers

Green's theorem | Lecture 50 | Vector Calculus for Engineers

Stokes' theorem from Green's theorem | Lecture 51 | Vector Calculus for Engineers

Coordinate-free definition of the divergence and curl | Lecture 52 | Vector Calculus for Engineers

Maxwell's equations from integral to differential form | Lecture 53 | Vector Calculus for Engineers

Matrix addition & multiplication | Appendix A | Vector Calculus for Engineers

Matrix determinants & inverses | Appendix B | Vector Calculus for Engineers

Description:

Explore a comprehensive video series on vector calculus tailored for engineers. Delve into essential topics including vectors, coordinate systems, vector operations, analytic geometry, scalar and vector fields, partial derivatives, gradient, divergence, curl, and Laplacian. Master double and triple integrals, polar coordinates, and coordinate transformations. Learn about line and surface integrals, flux integrals, and fundamental theorems like the gradient theorem, divergence theorem, and Stokes' theorem. Apply vector calculus concepts to real-world engineering problems, including electromagnetic waves and fluid dynamics. Gain a solid foundation in matrix operations as a supplementary skill. Through 53 lectures spanning 9 hours, develop the mathematical tools necessary for advanced engineering applications.

Vector Calculus for Engineers

Hong Kong Polytechnic University

Add to list

#Mathematics #Calculus #Vector Calculus #Engineering #Partial Derivatives #Vector Fields #Divergence #Programming #Web Development #cURL #Science #Physics #Scalar Fields #Algebra #Linear Algebra #Dot Product #Cross Product

0:00 / 0:00