Difference between revisions of "MAT1224"

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(minor correction to dates)
(Updated table to include the modified topics list received from the course coordinator)
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|Week 1/2    
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|Week 1   
  
 
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|Week 3
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|Week 2
  
 
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|Week 3/4 
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|Week 2
  
 
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|Week 
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|Week 3
  
 
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+
[[Volumes of Revolution, Cylindrical Shells]]  
[[The Shell Method]]  
 
  
 
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|Week 4/5
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|Week 3
 
 
 
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|Week 5
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|Week 4
  
 
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[[Physical Applications]]
 
[[Physical Applications]]
  
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|Week 5/6
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|Week 4
  
 
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<div style="text-align: center;">2.6</div>
 
<div style="text-align: center;">2.6</div>
  
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+
||  
 
 
  
 
[[Moments and Center of Mass]]
 
[[Moments and Center of Mass]]
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|Week&nbsp;6
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|Week&nbsp;5
  
 
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<div style="text-align: center;">3.1</div>
 
<div style="text-align: center;">3.1</div>
  
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+
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[[Integration by Parts]]
 
[[Integration by Parts]]
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|Week&nbsp;6/7
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|Week&nbsp;5
  
 
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<div style="text-align: center;">3.2</div>
 
<div style="text-align: center;">3.2</div>
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+
 
 
+
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[[Trigonometric Integrals]]
 
[[Trigonometric Integrals]]
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|Week&nbsp;
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|Week&nbsp;6
  
 
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<div style="text-align: center;">3.3</div>
 
<div style="text-align: center;">3.3</div>
  
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+
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[[Trigonometric Substitution]]
 
[[Trigonometric Substitution]]
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|Week&nbsp;7/8
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|Week&nbsp;6
  
 
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<div style="text-align: center;">3.8</div>
 
<div style="text-align: center;">3.8</div>
  
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+
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[[Partial Fractions]]
 
[[Partial Fractions]]
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|Week&nbsp;8
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|Week&nbsp;7
  
 
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|Week&nbsp;8/9    
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|Week&nbsp;7    
  
 
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<div style="text-align: center;">4.1</div>
+
<div style="text-align: center;">4.3</div>
  
 
||   
 
||   
  
[[Basics of Differential Equations]]
+
[[Separation of Variables]]
  
 
||
 
||
  
* [[The Derivative as a Function]] <!-- 1214-3.2 -->
+
* [[Trigonometric Integrals]] <!-- 1224-3.2 -->
* [[Differentiation Rules]] <!-- 1214-3.3 -->
+
* [[Integration by Substitution]] <!-- 1224-1.5 -->
* [[Implicit Differentiation]] <!-- 1214-3.8 -->
+
* [[Integration by Parts]] <!-- 1224-3.1 -->
  
 
||
 
||
  
* Classify an Ordinary Differential Equation according to order and linearity.
+
* Recognize and solve separable differential equations
* Verify that a function is a solution of an Ordinary Differential Equation or an initial value problem.
+
* Develop and analyze elementary mathematical models.
  
  
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|Week&nbsp;9    
+
|Week&nbsp;8    
  
 
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||
  
<div style="text-align: center;">4.2</div>
+
<div style="text-align: center;">2.8</div>
  
 
||   
 
||   
  
[[Direction Fields and Numerical Methods]]
+
[[Exponential Growth and Decay]]
  
 
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* Sketch the direction field of a first-order ODE(Ordinary Differential Equation) by hand
+
* The exponential growth model
* Using direction field, find equilibria of an autonomous ODE.
+
* The concept of doubling time
* Determine the stability of equilibria using a phase line diagram.
+
* The exponential decay model
 +
* The concept of half-life
  
  
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|-
 
|-
  
 
|Week&nbsp;9/10 
 
 
||
 
 
<div style="text-align: center;">4.3</div>
 
 
|| 
 
 
[[Separable Equations]]
 
 
||
 
 
* [[Trigonometric Integrals]] <!-- 1224-3.2 -->
 
* [[Integration by Substitution]] <!-- 1224-1.5 -->
 
* [[Integration by Parts]] <!-- 1224-3.1 -->
 
* [[Linear Approximations and Differentials]] <!-- 1224-4.2 -->
 
 
||
 
 
* Recognize and solve separable differential equations
 
* Develop and analyze elementary mathematical models.
 
 
 
 
|-
 
  
  
|Week&nbsp;10  
+
|Week&nbsp;8  
  
 
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[[Exponential Growth and Decay, The Logistic Equation]]
+
[[The Logistic Equation]]
  
 
||
 
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* [[Continuity]] <!-- 1214-2.4 -->
 
* [[Continuity]] <!-- 1214-2.4 -->
 
* [[Linear Equations|Slope of a Line]] <!-- 1214-3.1 -->
 
* [[Linear Equations|Slope of a Line]] <!-- 1214-3.1 -->
* [[Direction Fields and Numerical Methods| Find Equalibria and determine their Stability]] <!-- 1224-3.2 -->
+
* [[Exponential Growth and Decay]] <!-- 1224-2.8 -->
  
 
||
 
||
  
* Solve the exponential growth/decay equations and the logistic equation.
+
* Carrying capacity in the logistic model of population growth
* Describe the differences between these two models for population growth.
+
* '''Interpret the solution curves of a direction field for a logistic equation'''
 +
* Solve a logistic equation and interpret the results
  
  
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|Week&nbsp;9    
  
 
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|Week&nbsp;12
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|Week&nbsp;10
  
 
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[[Series]]
+
[[Infinite Series]]
  
 
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|Week&nbsp;13
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|Week&nbsp;10
  
 
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|Week&nbsp;13/14    
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|Week&nbsp;11    
  
 
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|Week&nbsp;11    
  
 
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|Week&nbsp;15/16 
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|Week&nbsp;12
  
 
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|-
 
|-
  
|Week&nbsp;16    
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|Week&nbsp;12    
  
 
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|Week&nbsp;16
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|Week&nbsp;13
  
 
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|Week&nbsp;17  
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|Week&nbsp;14  
  
 
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|Week&nbsp;15    
  
 
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* Sketch the graph of a parametric curve
 
* Sketch the graph of a parametric curve
 +
 +
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 +
 +
 +
|-
 +
 +
 +
|Week&nbsp;15 
 +
 +
||
 +
 +
<div style="text-align: center;">7.2</div>
 +
 +
||
 +
 +
[[The Calculus of Parametric Equations]]
 +
 +
||
 +
 +
* [[Parametric Equations]] <!-- 1224-7.1 -->
 +
* [[The Derivative as a Function]] <!-- 1214-3.2 -->
 +
* [[Integration by Substitution]] <!-- 1224-1.5 -->
 +
* [[The Definite Integral]] <!-- 1224-5.2 -->
 +
 +
||
 +
 +
* Find the slope of the tangent line to a parametric curve at a point
 +
* Find the second derivative of a parametric curve
 +
* Determine the area bounded by a parametric curve
 +
* Determine the arc length of a parametric curve
 +
* Calculating the area of a surface obtained by rotating a parametric curve about an axis
  
 
||
 
||

Revision as of 09:13, 5 August 2020

The textbook for this course is Calculus (Volume 2) by Gilbert Strang, Edwin Herman, et al.

A comprehensive list of all undergraduate math courses at UTSA can be found here.

The Wikipedia summary of calculus and its history.

Topics List

Date Sections Topics Prerequisite Skills Student Learning Outcomes
Week 1
1.3

The Fundamental Theorem of Calculus

  • Evaluate definite integrals using the Fundamental Theorem of Calculus
  • Interpret the definite integral as the signed area under the graph of a function.
Week 1
1.5


Integration by Substitution



  • Use substitution to evaluate indefinite integrals.
  • Use substitution to evaluate definite integrals.
Week 2
1.2

Area between Curves


  • Find the area of plane regions bounded by the graphs of functions.
Week 2
2.2

Determining Volumes by Slicing

  • Find the volume of solid regions with a known cross-sectional area.


Week 3
2.3

Volumes of Revolution, Cylindrical Shells

  • Find the volume of solid regions obtained by revolving a plane region about a line.


Week 3
2.4


Arc Length and Surface Area

  • Find the arc length of a plane curve
  • The area of the surface obtained by revolving a curve about one of the coordinate axes.


Week 4
2.5

Physical Applications

  • Find the mass of an object with a given density function.
  • Find the work done by a variable force
  • Find the work done in pumping fluid from a tank
  • Find the hydrostatic force on a vertical plate.


Week 4
2.6

Moments and Center of Mass

  • Find the moments and center of mass of a thin plate of uniform density.


Week 5
3.1

Integration by Parts

  • Integrate products of certain functions.
  • Integrate logarithmic and inverse trigonometric functions.


Week 5
3.2

Trigonometric Integrals

  • Integrate products of powers of sin(x) and cos(x) as well as sec(x) and tan(x).


Week 6
3.3

Trigonometric Substitution


  • Integrate the square root of a sum or difference of squares.


Week 6
3.8

Partial Fractions

  • Integrate rational functions whose denominator is a product of linear and quadratic polynomials.


Week 7
3.7

Improper Integrals

  • Recognize improper integrals and determine their convergence or divergence.


Week 7
4.3

Separation of Variables

  • Recognize and solve separable differential equations
  • Develop and analyze elementary mathematical models.


Week 8
2.8

Exponential Growth and Decay

  • The exponential growth model
  • The concept of doubling time
  • The exponential decay model
  • The concept of half-life


Week 8
4.4

The Logistic Equation

  • Carrying capacity in the logistic model of population growth
  • Interpret the solution curves of a direction field for a logistic equation
  • Solve a logistic equation and interpret the results


Week 9
5.1

Sequences

  • Find the formula for the general term of a sequence.
  • Discuss the convergence or divergence of a sequence.
  • Find the limit of a convergent sequence.
  • Determine whether a sequence is monotone.


Week 10
5.2

Infinite Series

  • Define the convergence or divergence of an infinite series.
  • Find the sum of a geometric or telescoping series.
Week 10
5.3

The Divergence and Integral Tests

  • Determine the convergence or divergence of a series using the Divergence or Integral Tests.
  • Estimate the sum of a series using the Remainder Estimate Theorem.


Week 11
5.4

Comparison Tests

  • Determine the convergence or divergence of a series using the Direct or Limit Comparison Tests.


Week 11
5.5

Alternating Series

  • Determine the convergence or divergence of alternating series.
  • Estimate the sum of an alternating series.
  • Describe the difference between conditional and absolute convergence.


Week 12
5.6

Ratio and Root Tests


  • Determine the convergence or divergence of infinite series using the ratio and root tests..


Week 12
6.1

Power Series and Functions

  • Recognize a power series.
  • Find its interval and radius of convergence.
  • Represent certain functions as power series.


Week 13
6.2

Properties of Power Series

  • Differentiate and integrate power series term-by-term.
  • Recognize certain continuous functions as power series on their radius of convergence.



Week 14
6.3

Taylor and Maclaurin Series

  • Find the Taylor or Maclaurin series representation of a function.
  • Find the radius of convergence of a Taylor Series.
  • Estimate the remainder in a Taylor polynomial approximation.



Week 15
7.1

Parametric Equations

  • Sketch the graph of a parametric curve


Week 15
7.2

The Calculus of Parametric Equations

  • Find the slope of the tangent line to a parametric curve at a point
  • Find the second derivative of a parametric curve
  • Determine the area bounded by a parametric curve
  • Determine the arc length of a parametric curve
  • Calculating the area of a surface obtained by rotating a parametric curve about an axis
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