MATH224 Calculus III w/ Honors

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* [https://form.jotform.com/62443644799166 Jotform submission for Studio #1: Submit at the start of Studio on 9/8/2016]
 
* [https://form.jotform.com/62443644799166 Jotform submission for Studio #1: Submit at the start of Studio on 9/8/2016]
 
* [https://dl.dropboxusercontent.com/u/31308033/Digital%20Self/Fall2016/MATH224/Studios/Mindsets%20in%20MATH224%20and%20Beyond.pdf Mindsets in MATH224 and Beyond (pdf)] and [https://dl.dropboxusercontent.com/u/31308033/Digital%20Self/Fall2016/MATH224/Studios/Mindsets%20in%20MATH224%20and%20Beyond.docx Mindsets in MATH224 and Beyond (docx)]
 
* [https://dl.dropboxusercontent.com/u/31308033/Digital%20Self/Fall2016/MATH224/Studios/Mindsets%20in%20MATH224%20and%20Beyond.pdf Mindsets in MATH224 and Beyond (pdf)] and [https://dl.dropboxusercontent.com/u/31308033/Digital%20Self/Fall2016/MATH224/Studios/Mindsets%20in%20MATH224%20and%20Beyond.docx Mindsets in MATH224 and Beyond (docx)]
* [ Jotform submission for individuals: Submit any time]  
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* [https://form.jotform.com/62443164369156 Jotform submission for individuals: Submit any time]  
 
* [https://form.jotform.com/62442876871163 Jotform submission for Initial Team Assignment ('''Due: 9/7/2016 by 11:59pm''')]
 
* [https://form.jotform.com/62442876871163 Jotform submission for Initial Team Assignment ('''Due: 9/7/2016 by 11:59pm''')]
  

Revision as of 18:12, 5 September 2016

Main Page > Mathematical and Computer Sciences Course Wikis
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Contents

Course Information

Course Description

Early introduction of vectors, linear algebra, multivariable calculus. Vector fields, line and surface integrals. Prerequisites: C or better in MATH112 or MATH122.

Student Learning Outcomes

At the conclusion of the class students will be able to:

  1. identify the differences between single and multivariate differential/integral calculus and when applicable explain the consequences.
  2. interpret the operators of multivariate differential/integral calculus and use them to solve problems associated with summation, extreme values, constrained optimization and instantaneous rates of change.
  3. list the operators of vector analysis, apply them to solve problems related to the fundamental theorem of calculus for vector--valued multivariate function and justify their combination with physical interpretations.

Italicized words correspond to verbs associated with the cognitive domain (knowledge-based) portion of Bloom's Taxonomy.

Instructor Information

Instructor : Scott Strong

Office : Stratton Hall 205

Office Phone : 303.384.2446

email : sstrong@mines.edu

Office Hours: MWF @ 4:00pm in SH205, R @ 3:00pm in SH205 and R @ 4:00pm by appointment (Online Booking)

Digital Resources: Blog, Evernote Notebook



Instructor : Gus Greivel

Office : Stratton Hall 202

Office Phone : 303.273.3840

email : ggreivel@mines.edu

Office Hours: MWF @ 9:00-10:50am, R @ 8:00-9:50am

Syllabi

Textbook Information

  • Calculus Early Transcendentals, 6th edition, Steward Amazon Link(buy used for cheap)

Mathematica

Course Content

100 problems from multivariate calculus

The following link will take you to a pdf that contains between 80 and 100 problems associated with calculus in several variables.

MATH224 Problem List

Chronological listing of hyperlinks

Studio Materials

Studio #0

  * Wolfram's Handson Mathematica Tutorial 
    (Level: Novice, Goal: Up through "Basic Graphics)"
  * MATH224 Specific Tutorial: Function instantiation, plot and manipulate commands 
    (Level: Novice to Intermediate, Goal: Up through 10:08) 
     * Here is the associated Mathematica notebook, for you to follow along.
     * Do not worry about the second part yet, i.e. contour plot, solve command and graphics options. 
       You can take a look if you want. The degree of difficulty increases and if it feels stressful 
       then stop. We will fold those commands in over time.   
     * Liam, the maker of the video was told to speak slowly enough 
       so that the video could be played at double-speed. Feel free to do this. 
     * Please take notes as you go through the video. We will ask you about insights 
       you had along the way and compile these for use in future experiences.

Studio #1

This week we will be visualizing conics and quadric surface via Mathematica. We will also form our working groups. There are also three deliverables, Mathematica notebook and hand calculations associated with the Studio assignment, an individual submission asking about Mathematica and learning preferences and an individual team assignment.


Supplemental Materials

Linear Algebra

* Linear Algebra Notes
* Linear Algebra Problems
* Linear Algebra Slides
* Essence of Linear Algebra (youtube playlist)
* Linear Algebra for Planar Linear Systems of ODE (Used for MATH235 but applicable here)


Quadric Surfaces

Examples of Student Work

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