Calculus IV - Vector Calculus - Line Integrals, Surface Integrals, Vector Fields, Green's Theorem, Divergence Theorem, Stokes Theorem

Calculus IV - Vector Calculus - Line Integrals, Surface Integrals, Vector Fields, Green's Theorem, Divergence Theorem, Stokes Theorem

DrTreforBazett via YouTube Direct link

Deriving Gauss's Law for Electric Flux via the Divergence Theorem from Vector Calculus

38 of 39

38 of 39

Deriving Gauss's Law for Electric Flux via the Divergence Theorem from Vector Calculus

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Calculus IV - Vector Calculus - Line Integrals, Surface Integrals, Vector Fields, Green's Theorem, Divergence Theorem, Stokes Theorem

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  1. 1 What is VECTOR CALCULUS?? **Full Course Introduction**
  2. 2 Curves, Parameterizations, and the Arclength Parameterization
  3. 3 What is a LINE INTEGRAL? // Big Idea, Derivation & Formula
  4. 4 Line Integrals: Full Example
  5. 5 Line Integrals in 3D // Formula & Three Applications
  6. 6 Intro to VECTOR FIELDS // Sketching by hand & with computers
  7. 7 The Gradient Vector Field
  8. 8 Line Integrals of Vector Fields // Big Idea, Definition & Formula
  9. 9 Example: Computing the Line Integral of a Vector Field (i.e. Work Done)
  10. 10 Line Integrals with respect to x or y // Vector Calculus
  11. 11 Flow Integrals and Circulation // Big Idea, Formula & Examples // Vector Calculus
  12. 12 Flux Integrals // Big Idea, Formula & Examples // Vector Calculus
  13. 13 Conservative Vector Fields // Vector Calculus
  14. 14 The Fundamental Theorem of Line Integrals // Big Idea & Proof // Vector Calculus
  15. 15 How to Test if a Vector Field is Conservative // Vector Calculus
  16. 16 Finding the scalar potential function for a conservative vector field // Vector Calculus
  17. 17 Curl or Circulation Density of a Vector Field // Vector Calculus
  18. 18 Curl, Circulation, and Green's Theorem // Vector Calculus
  19. 19 Divergence, Flux, and Green's Theorem // Vector Calculus
  20. 20 Example: Using Green's Theorem to Compute Circulation & Flux // Vector Calculus
  21. 21 Describing Surfaces Explicitly, Implicitly & Parametrically // Vector Calculus
  22. 22 The Surface Area formula for Parametric Surfaces // Vector Calculus
  23. 23 Why is the surface area of a Sphere 4pi times radius squared???
  24. 24 Computing the Surface Area of a surface parametrically // Example 1 // Vector Calculus
  25. 25 Computing the Surface Area of a surface parametrically // Example 2 // Vector Calculus
  26. 26 Surface Area for Implicit & Explicit Surfaces // Vector Calculus
  27. 27 Computing the Surface Area of an Implicitly Defined Surface
  28. 28 Surface Integrals // Formulas & Applications // Vector Calculus
  29. 29 Orientable vs Non-Orientable Surfaces and the Mobius Strip
  30. 30 Flux of a Vector Field Across a Surface // Vector Calculus
  31. 31 Computing the Flux Across a Surface // Vector Calculus
  32. 32 The CURL of a 3D vector field // Vector Calculus
  33. 33 Stokes' Theorem // Geometric Intuition & Statement // Vector Calculus
  34. 34 Stokes' Theorem Example // Verifying both Sides // Vector Calculus
  35. 35 The Divergence Theorem // Geometric Intuition & Statement // Vector Calculus
  36. 36 Divergence Theorem example: Flux across unit cube // Vector Calculus
  37. 37 Divergence Theorem for regions bounded by two surfaces // Vector Calculus
  38. 38 Deriving Gauss's Law for Electric Flux via the Divergence Theorem from Vector Calculus
  39. 39 A unified view of Vector Calculus (Stoke's Theorem, Divergence Theorem & Green's Theorem)

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