Lectures in Line Integrals
Lecture 1: What Is A Line Integral?
Lecture 2: What Is A Line Integral? A Visiual Perspective
Lecture 3: What Is A Line Integral? A Visual Perspective 2
Lecture 4: What Is A Line Integral? Not To Be Confused With
Lecture 5: What Is A Line Integral? Scalar: Example 1
Lecture 6: What Is A Line Integral? Scalar: Example 2
Lecture 7: What Is A Line Integral? Using Parametric Equations
Lecture 8: What Is A Line Integral? Circular Cone
Lecture 9: What Is A Line Integral? A Conceptual View
Lecture 10: What Is A Line Integral? [2+(X^2)Y]Ds Example (Worked Out)
Lecture 11: What Is A Line Integral? Example 2.5
Lecture 12: What Is A Line Integral? Find The Mass
Lecture 13: What Is A Line Integral? Find The Center Of Mass
Lecture 14: What Is A Line Integral? (Y^2)Dx+Xdy Example 3
Lecture 15: What Is A Line Integral? Y^2Dx+Xdy Example 4
Lecture 16: What Is A Line Integral? General Equation
Lecture 17: What Is A Line Integral? [Y(Sinz)]Ds Example 5
Lecture 18: What Is A Line Integral? [(Y)Dx+(Z)Dy+(X)Dz] Example 6
Lecture 19: Vector Field: Find The Work Done: F(X,Y)=(X^2)I-(Xy)J Ex. 1
Lecture 20: Vector Field: Find The Work Done: Ex. 2
Lecture 21: Vector Field: Find The Work Done: Ex. 3
Lecture 22: Vector Field: Find The Work Done: Ex. 4A
Lecture 23: Vector Field: Find The Work Done: Ex. 4B
Lecture 24: Vector Field: Find The Work Done: Ex. 4C
Lecture 25: Vector Field: Find The Work Done: Ex. 5
Lecture 26: Vector Field: Evaluate A Line Integral
Lecture 27: Vector Field: Evaluate A Line Integral
Lecture 28: Vector Field: Evaluate A Line Integral
Lecture 29: What Is The Fundamental Theorem For Line Integrals?
Lecture 30: What Is The Fundamental Theorem For Line Integrals? Ex
Lecture 31: Why Is This Path Independent? Ex. 1
Lecture 32: Why Is This Path Independent? Ex. 2
Lecture 33: Why Is This Path Dependent?
Lecture 34: Condition 1 For Independence
Lecture 35: Condition 2 For Independence
Lecture 36: Condition 3 For Independence
Lecture 37: Condition 3 For Independence: Example
Lecture 38: What Are Conservative/Non-Conservative Vector Fields?
Lecture 39: Why Is A Gravitational Field Conservative?
Lecture 40: Determine If The Vector Field Conservative? Ex. 1
Lecture 41: Determine If The Vector Field Conservative? Ex. 2
Lecture 42: Find F=? Such That Gradient F=F
Lecture 43: Find F=? Such That Gradient F=F
Lecture 44: What Is The Fundamental Theorem For Line Integrals? Ex. 2