Vector Calculus for Engineers

Vector Calculus for Engineers

Jeffrey Chasnov via YouTube Direct link

Triple product rule | Lecture 15 | Vector Calculus for Engineers

16 of 56

16 of 56

Triple product rule | Lecture 15 | Vector Calculus for Engineers

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Vector Calculus for Engineers

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  1. 1 Promotional Video | Vector Calculus for Engineers
  2. 2 Vectors | Lecture 1 | Vector Calculus for Engineers
  3. 3 Cartesian coordinates | Lecture 2 | Vector Calculus for Engineers
  4. 4 Dot product | Lecture 3 | Vector Calculus for Engineers
  5. 5 Cross product | Lecture 4 | Vector Calculus for Engineers
  6. 6 Analytic geometry of lines | Lecture 5 | Vector Calculus for Engineers
  7. 7 Analytic geometry of planes | Lecture 6 | Vector Calculus for Engineers
  8. 8 Kronecker delta and Levi-Civita symbol | Lecture 7 | Vector Calculus for Engineers
  9. 9 Vector Identities | Lecture 8 | Vector Calculus for Engineers
  10. 10 Scalar Triple Product | Lecture 9 | Vector Calculus for Engineers
  11. 11 Vector Triple Product | Lecture 10 | Vector Calculus for Engineers
  12. 12 Scalar and vector fields | Lecture 11 | Vector Calculus for Engineers
  13. 13 Partial derivatives | Lecture 12 | Vector Calculus for Engineers
  14. 14 Method of least squares | Lecture 13 | Vector Calculus for Engineers
  15. 15 Multivariable chain rule | Lecture 14 | Vector Calculus for Engineers
  16. 16 Triple product rule | Lecture 15 | Vector Calculus for Engineers
  17. 17 Triple product rule: the ideal gas law | Lecture 16 | Vector Calculus for Engineers
  18. 18 Gradient of a scalar field | Lecture 17 | Vector Calculus for Engineers
  19. 19 Divergence of a vector field | Lecture 18 | Vector Calculus for Engineers
  20. 20 Curl of a vector field | Lecture 19 | Vector Calculus for Engineers
  21. 21 Laplacian of a scalar or vector field | Lecture 20 | Vector Calculus for Engineers
  22. 22 Vector calculus identities | Lecture 21 | Vector Calculus for Engineers
  23. 23 Divergence of the cross product of two vectors (proof) | Lecture 22 | Vector Calculus for Engineers
  24. 24 Electromagnetic waves from Maxwell's equations | Lecture 23 | Vector Calculus for Engineers
  25. 25 Double and triple integrals | Lecture 24 | Vector Calculus for Engineers
  26. 26 Double integral over a triangular region | Lecture 25 | Vector Calculus for Engineers
  27. 27 Polar Coordinates (Gradient) | Lecture 26 | Vector Calculus for Engineers
  28. 28 Polar Coordinates (Divergence and Curl) | Lecture 27 | Vector Calculus for Engineers
  29. 29 Polar Coordinates (Laplacian) | Lecture 28 | Vector Calculus for Engineers
  30. 30 Central Force | Lecture 29 | Vector Calculus for Engineers
  31. 31 Change of variables (single integral and substitution) | Lecture 30 | Vector Calculus for Engineers
  32. 32 Change of variables (double integral and the Jacobian) | Lecture 31 | Vector Calculus for Engineers
  33. 33 Cylindrical coordinates | Lecture 32 | Vector Calculus for Engineers
  34. 34 Spherical coordinates (Part A) | Lecture 33 | Vector Calculus for Engineers
  35. 35 The Del Operator in spherical coordinates | Lecture 34 | Vector Calculus for Engineers
  36. 36 Line Integral of a Scalar Field | Lecture 35 | Vector Calculus for Engineers
  37. 37 Arc Length: Perimeter of an Ellipse | Lecture 36 | Vector Calculus for Engineers
  38. 38 Line Integral of a Vector Field | Lecture 37 | Vector Calculus for Engineers
  39. 39 Work-Energy Theorem | Lecture 38 | Vector Calculus for Engineers
  40. 40 Surface Integral of a Scalar Field | Lecture 39 | Vector Calculus for Engineers
  41. 41 Surface Area of a Sphere | Lecture 40 | Vector Calculus for Engineers
  42. 42 Surface Integral of a Vector Field | Lecture 41 | Vector Calculus for Engineers
  43. 43 Flux Integrals | Lecture 42 | Vector Calculus for Engineers
  44. 44 Gradient theorem | Lecture 43 | Vector Calculus for Engineers
  45. 45 Conservative vector fields | Lecture 44 | Vector Calculus for Engineers
  46. 46 Conservation of Energy | Lecture 45 | Vector Calculus for Engineers
  47. 47 Divergence theorem | Lecture 46 | Vector Calculus for Engineers
  48. 48 Divergence theorem (example in Cartesian coordinates) | Lecture 47 | Vector Calculus for Engineers
  49. 49 Divergence theorem (example in spherical coordinates) | Lecture 48 | Vector Calculus for Engineers
  50. 50 Derivation of the continuity equation of fluid dynamics | Lecture 49 | Vector Calculus for Engineers
  51. 51 Green's theorem | Lecture 50 | Vector Calculus for Engineers
  52. 52 Stokes' theorem from Green's theorem | Lecture 51 | Vector Calculus for Engineers
  53. 53 Coordinate-free definition of the divergence and curl | Lecture 52 | Vector Calculus for Engineers
  54. 54 Maxwell's equations from integral to differential form | Lecture 53 | Vector Calculus for Engineers
  55. 55 Matrix addition & multiplication | Appendix A | Vector Calculus for Engineers
  56. 56 Matrix determinants & inverses | Appendix B | Vector Calculus for Engineers

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