Difference between revisions of "ModelCourses/Multivariate Calculus"

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:[[File:setTopic02_Vector_Functions_model_multivariate_calculus.def|Download Set Definition File]]
 
:[[File:setTopic02_Vector_Functions_model_multivariate_calculus.def|Download Set Definition File]]
 
=== Unit 3 - [[ModelCourses/Calculus/VectorFunctions/Applications|Vector Function Applications ]] ===
 
 
* Computing equation of osculating circle
 
* Motion in Space: Velocity and Acceleration
 
 
:[[File:setTopic03_Vector_Functions_model_multivariate_calculus.def|Download Set Definition File]]
 
   
 
== <span style="color:blue">Partial Derivatives</span> ==
 
== <span style="color:blue">Partial Derivatives</span> ==

Revision as of 01:56, 28 December 2011

Multivariate Calculus Model Course Units

A user of this material should locate appropriate units below that fit their particular course in multivariate calculus.

Instructions for importing problem sets Instructions for exporting problem sets

Within each Unit below, specific problem types should be described. Detailed problem descriptions are given by clicking on the unit title.

Complete problem sets for each unit will eventually be collected and made available from this site (and perhaps from within the WebWork system itself) but these have not been made available yet. Also, the specific problems suggested could be directly linked if desired although this might be a bit too much!

Download this entire course of problem sets

Vectors in Space

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Unit 1 - Vector Algebra

  • Vector Algebra
  • Dot Product and Applications
  • Cross Product and Applications
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Unit 2 - Lines and Planes

  • Lines in Space
    • Two forms of a line in space: (1) parametric equations and symmetric equations
      • Express a line that passes two given points.
      • Express a line that passes through a given point and is parallel to a given line.
      • Express a line that passes through a given point and is perpendicular to a given line.
      • Express a line that passes through a given point and is perpendicular to two given lines that are not parallel.
      • Determine if two given lines are parallel, perpendicular or neither.
      • Determine if two given lines intersect or are skew, and find the intersection if they intersect.
      • Determine if a given line passes through a given point.
  • Planes in Space
    • Plane formula
      • Determine if a given plane contains a given point.
      • Express a plane that contains a given point and is perpendicular to a given vector.
      • Express a plane that contains a given point and is parallel to a given plane.
      • Express a plane that contains a given point and is perpendicular to a given plane.
      • Express a plane that contains a given point and is perpendicular to given two planes that are not parallel.
      • Determine if two given planes are parallel, perpendicular or neither.
      • Find the intersection of two planes that are not parallel.
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Unit 3 - Cylindrical Surfaces and Quadric surfaces

  • Cylindrical Surfaces
      • Sketch the curve f(x,y)=0, z=z0 (or g(x,z)=0, y=y0 or h(y,z), x=x0) in the xyz-space.
      • Sketch the surface f(x,y)=0 (or g(x,z)=0, or h(y,z)=0) in the xyz-space.
  • Quadric Surfaces
    • Quadratic equations for (1) sphere (2) ellipsoid (3) paraboloid (4) elliptic cone (5) hyperboloid of one sheet (6) hyperboloid of two sheet (7) hyperbolic paraboloid
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Unit 4 - Non-rectangular Coordinate Systems

  • Cylindrical Coordinates
  • Spherical Coordinates
  • Applications
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Vector Functions

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Unit 1 - Calculus of Vector Functions

  • Calculus of Vector-valued Function in One Variable
    • Vector-value function r(t)
      • Express the domain of r(t) a 2-D (or 3-D) vector-valued function in an interval notation.
      • Determine if a given point is on the curve traced out by r(t).
      • Sketch the curved traced out by r(t).
      • Find all values of t at which r(t) is parallel to a given vector.
      • Find all values of t at which r(t) is perpendicular to a given vector
    • Derivatives of Vector Functions
      • Compute the tangent vector r'(t) of r(t).
      • Find all values of t at which r(t) and r'(t) are perpendicular.
      • Show that r(t) and r'(t) are perpendicular at every t if the magnitude of r(t) is a constant.
    • Integrals of Vector Functions
      • Compute an indefinite integral of r(t).
      • Compute a definite integral of r(t).
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Unit 2 - Vector Function Applications

  • Arc Length
  • Curvature
  • Unit Tangent and Unit Normal vectors
  • Computing the radius, center and equation of osculating circle
  • Motion in Space: Velocity and Acceleration


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Partial Derivatives

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Unit 1 - Partial Derivatives - Definition

  • Functions of Several Variables and Level Curves
  • Limits and Continuity
  • Partial Derivatives by Definition
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Unit 2 - Partial Derivatives - Rules

  • Partial Derivatives using Rules
  • The Chain Rule
  • Directional Derivatives and the Gradient Vector
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Unit 3 - Partial Derivatives - Applications

  • Tangent Planes and Linear and Other Approximations
  • Maximum and Minimum Values
  • Lagrange Multipliers
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Multiple Integrals

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Unit 1 - Double Integrals Rectangular

  • Iterated Integrals
  • Setting up Double Integrals over General Regions
  • Applications of Double Integrals in Rectangular Coordinates
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Unit 2 - Double Integral Polar Coordinates

  • Double Integrals in Polar Coordinates
  • Applications of Double Integrals in Polar Coordinates
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Unit 3 - Triple Integrals

  • Triple Integrals
  • Triple Integrals in Cylindrical Coordinates
  • Triple Integrals in Spherical Coordinates
  • Change of Variables in Multiple Integrals
  • Applications of Triple Integrals
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Vector Calculus

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Unit 1 - Vector Fields

  • Vector Fields in 2D
  • Vector Fields in 3D
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Unit 2 - Line Integrals in 2D

  • Line Integrals of a scalar function
  • Line Integrals over a vector field
  • The Fundamental Theorem of Calculus for Line Integrals
  • Green's Theorem
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Unit 3 - Line Integrals in 3D

  • Parametric Surfaces and Areas (sometimes optional due to time constraints)
  • Curl and Divergence (sometimes optional due to time constraints)
  • Surface Integrals (sometimes optional due to time constraints)
  • Stokes' Theorem (often optional)
  • The Divergence Theorem (often optional)
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Packaged Courses

Moodle

https://test.webwork.maa.org/moodle/

Stewart

Stewart_packaged

Hughes-Hallett

Hughes_Hallett_packaged

Smith and Minton

Smith_Minton_packaged

Larson

Larson_packaged

Other Model Course Pages


``Future Work: A rubric needs to be developed that helps instructors determine the hardness level of a particular problem.``

  • Development Workgroup: Mei Qin Chen, Dick Lane and John Travis
  • To Do:
    • Finish choosing problem sets for remaining units
    • Add features to problems to include:
      • Hints
      • Solutions
      • MetaTags
      • Improvements such as changing multiple choice problems to fill in the blank, etc.


[Other Webwork Course Templates]