Invidious

Surface Integrals

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Mathispower4u | 35 videos | Updated 7 months ago
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6:57

Parameterized Surfaces

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6:29

Write a Parameterized Surface Using Cartesian (Rectangular) Coordinates

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4:28

Graph Parameterized Surfaces using 3D Calc Plotter

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10:00

Area of a Parameterized Surface

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8:02

Surface Integrals with Explicit Surface Part 1

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5:46

Surface Integrals with Explicit Surface Part 2

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6:54

Ex: Surface Area of a Function of Two Variables (Surface Integral)

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7:08

Surface Integrals with Parameterized Surface - Part 1

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7:42

Surface Integrals with Parameterized Surface - Part 2

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9:24

Double Integrals - Surface Area of a Vector Valued Function Over a Region

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8:22

Ex: Surface Area of a Parametric Surface (Surface Integral)

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6:42

Surface Integral of a Vector Field - Part 1

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5:28

Surface Integral of a Vector Field - Part 2

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9:34

(New Video Available - See Description) Evaluate a Surface Integral (Parametric Surface - Helicoid)

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6:24

Ex: Evaluate a Surface Integral (Basic Explicit Surface - Plane Over Rectangle)

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9:24

Ex: Evaluate a Surface Integral Using Polar Coordinates- Implicit Surface (Cone)

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6:37

Ex: Evaluate a Flux Integral with Surface Given Explicitly

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10:03

Ex: Evaluate a Flux Integral with Surface Given Parametrically (helicoid)

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6:41

Ex: Using a Flux Integral to Determine a Mass Flow Rate

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11:14

Stokes' Theorem - Part 1

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6:14

Stokes' Theorem - Part 2

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10:05

Ex 1: Using Stoke's Theorem to Evaluate a Line Integral as a Surface Integral

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9:37

Ex 2: Using Stoke's Theorem to Evaluate a Line Integral as a Surface Integral

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7:41

Ex 1: Using Stoke's Theorem to Evaluate a Surface Integral as a Line Integral

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10:30

Ex 2: Using Stoke's Theorem to Evaluate a Surface Integral as a Line Integral

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6:11

The Divergence Theorem - Part 1

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6:05

The Divergence Theorem - Part 2

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5:57

Ex: Use the Divergence Theorem to Evaluate a Flux Integral (Rectangular Coordinates)

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6:41

Ex: Use the Divergence Theorem to Evaluate a Flux Integral (Cylindrical Coordinates)

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10:00

Ex: Use the Divergence Theorem to Evaluate a Flux Integral (Spherical Coordinates)

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4:19

Use the Divergence Theorem to Determine the Flux Across a Hemisphere

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4:16

Use the Divergence Theorem to Determine the Flux a Tetrahedron

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2:29

Stoke's Theorem: Circulation Given F = del(f) Along a Smooth, Simple, Closed Curve?

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6:15

Use the Divergence Theorem to Compute the Flux of a 3D Vector Field (Spherical, Arctangent)

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8:12

Evaluate a Surface Integral (Parametric Surface - Helicoid)

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