Difference between revisions of "Math 313 2017XD Course Materials"

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Math 313 Course materials will go here.
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Material To Review for Practice Quiz:
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* Magnitude of Vectors (Geometric and Algebraic)
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* Sums and Differences of Vectors (Geometric and Algebraic)
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* Scalar Multiple of Vector (Geometric and Algebraic)
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* Zero Vector
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* Linear Combination of Vectors
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* Unit Vector in Direction of v
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* Triangle Inequality
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* Equation of a Line in 3-Space
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* Dot Product
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* Cross Product
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* Geometric Properties of Cross Product
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* Equation of a Plane with Normal Vector n, through Point P
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* Vector Valued Functions
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* Derivatives of Vector Valued Functions (Sums, Constant Multiples, Product & Chain Rule)
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* Derivatives of Dot and Cross Products of Vector Valued Functions
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* Vector-Valued Integration (Definite and Indefinite)
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* Finding Level Curves of a Function Of Two Variables
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* Interpreting a Contour Map
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* Average Rate of Change from P to Q on the Graph of a Function of Two Variables
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* Limits and Continuity of Functions of Two Variables
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* Compute Partial Derivatives of Functions of Several Variables

Latest revision as of 19:02, 20 July 2017

Material To Review for Practice Quiz:

  • Magnitude of Vectors (Geometric and Algebraic)
  • Sums and Differences of Vectors (Geometric and Algebraic)
  • Scalar Multiple of Vector (Geometric and Algebraic)
  • Zero Vector
  • Linear Combination of Vectors
  • Unit Vector in Direction of v
  • Triangle Inequality
  • Equation of a Line in 3-Space
  • Dot Product
  • Cross Product
  • Geometric Properties of Cross Product
  • Equation of a Plane with Normal Vector n, through Point P
  • Vector Valued Functions
  • Derivatives of Vector Valued Functions (Sums, Constant Multiples, Product & Chain Rule)
  • Derivatives of Dot and Cross Products of Vector Valued Functions
  • Vector-Valued Integration (Definite and Indefinite)
  • Finding Level Curves of a Function Of Two Variables
  • Interpreting a Contour Map
  • Average Rate of Change from P to Q on the Graph of a Function of Two Variables
  • Limits and Continuity of Functions of Two Variables
  • Compute Partial Derivatives of Functions of Several Variables