Difference between revisions of "MAT1133"

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(Added Topics List A for reformatting and edits)
(→‎Topics List A: Split the topics into rows. Provided links to their pages, and adjusted prerequisites where I saw fit)
Line 20: Line 20:
 
* [[Function Notation]]
 
* [[Function Notation]]
 
* [[Graphs of Functions]]
 
* [[Graphs of Functions]]
 +
* [[Weighted Average]]
 +
* [[Function Evaluation]]
 
* [[Equation of a Line]]
 
* [[Equation of a Line]]
* Algebraic manipulations, e.g. distribution, like terms, factoring, cancellation of factors.
+
* Algebraic manipulations:
 +
:- Distribution
 +
:- Like terms
 +
:- Factoring
 +
:- Cancellation of Factors
 
||
 
||
 
* Describe the average rate of change of a function in terms of its algebraic meaning and geometric meaning.
 
* Describe the average rate of change of a function in terms of its algebraic meaning and geometric meaning.
* Describe the instantaneous rate of change of a function and its relationship to average rate of change.
 
* Find average and instantaneous rates of change in a variety of real world applications, including the velocity of an object moving in a straight line.
 
* Find the derivative of a function at a given point using the definition.
 
* Find the line tangent to a function at a given point with the derivative provided
 
* Find the slope of the tangent line and the equation of the tangent line to the graph of a function at a given point.
 
* Apply the concept of the derivative at a point in a variety of real world problems.
 
* Find the derivative of a function using the limit definition.
 
 
|-
 
|-
 
|3.0
 
|3.0
Line 36: Line 35:
 
* 11.4
 
* 11.4
 
||
 
||
* [[Tangent Lines and Derivatives]]
+
* [[Tangent Lines]]
 
||
 
||
* [[Function Notation]]
 
* [[Graphs of Functions]]
 
 
* [[Limits of Functions]]  
 
* [[Limits of Functions]]  
* [[Weighted Average]]
 
* [[Function Evaluation]]
 
 
* [[Rates of Change]]
 
* [[Rates of Change]]
* [[Equation of a Line]]
 
* Algebraic manipulations, e.g. distribution, like terms, factoring, cancellation of factors.
 
 
||
 
||
* Describe the average rate of change of a function in terms of its algebraic meaning and geometric meaning.
 
 
* Describe the instantaneous rate of change of a function and its relationship to average rate of change.
 
* Describe the instantaneous rate of change of a function and its relationship to average rate of change.
* Find average and instantaneous rates of change in a variety of real world applications, including the velocity of an object moving in a straight line.
 
* Find the derivative of a function at a given point using the definition.
 
 
* Find the line tangent to a function at a given point with the derivative provided
 
* Find the line tangent to a function at a given point with the derivative provided
* Find the slope of the tangent line and the equation of the tangent line to the graph of a function at a given point.
 
* Apply the concept of the derivative at a point in a variety of real world problems.
 
* Find the derivative of a function using the limit definition.
 
 
|-
 
|-
 
|3.0
 
|3.0
Line 62: Line 49:
 
* [[The Derivative as a Function]]
 
* [[The Derivative as a Function]]
 
||
 
||
* [[Function Notation]]
+
* [[Tangent Lines]]
* [[Graphs of Functions]]
 
* [[Limits of Functions]]
 
* [[Weighted Average]]
 
* [[Function Evaluation]]
 
* [[Average Rate of Change]]
 
* [[Equation of a Line]]
 
* Algebraic manipulations, e.g. distribution, like terms, factoring, cancellation of factors.
 
 
||
 
||
* Describe the average rate of change of a function in terms of its algebraic meaning and geometric meaning.
 
* Describe the instantaneous rate of change of a function and its relationship to average rate of change.
 
 
* Find average and instantaneous rates of change in a variety of real world applications, including the velocity of an object moving in a straight line.
 
* Find average and instantaneous rates of change in a variety of real world applications, including the velocity of an object moving in a straight line.
 
* Find the derivative of a function at a given point using the definition.
 
* Find the derivative of a function at a given point using the definition.
* Find the line tangent to a function at a given point with the derivative provided
 
 
* Find the slope of the tangent line and the equation of the tangent line to the graph of a function at a given point.
 
* Find the slope of the tangent line and the equation of the tangent line to the graph of a function at a given point.
 
* Apply the concept of the derivative at a point in a variety of real world problems.
 
* Apply the concept of the derivative at a point in a variety of real world problems.
Line 83: Line 60:
 
||
 
||
 
* 11.5
 
* 11.5
* 11.6
 
 
||
 
||
 
* [[Techniques for Finding Derivatives]]
 
* [[Techniques for Finding Derivatives]]
* [[Derivatives of Products and Quotients]]
 
 
||
 
||
* Algebraic manipulations and basic understanding of exponents.
+
* [[The Derivative as a Function]]
* Algebraic manipulations, e.g. distribution, like terms, factoring, cancellation of factors.  Awareness of common pitfalls, e.g. inappropriate cancellation, improper distribution.
 
 
||
 
||
 
* Find derivatives using the constant rule, power rule, constant times a function rule, and sum-or-difference rule.
 
* Find derivatives using the constant rule, power rule, constant times a function rule, and sum-or-difference rule.
 
* Apply understanding of derivatives to solve real world problems involving marginal C/R/P
 
* Apply understanding of derivatives to solve real world problems involving marginal C/R/P
 +
|-
 +
|4.0
 +
||
 +
* 11.6
 +
||
 +
* [[Derivatives of Products and Quotients]]
 +
||
 +
* [[Techniques for Finding Derivatives]]
 +
||
 
* Find derivatives using the product rule and quotient rule.
 
* Find derivatives using the product rule and quotient rule.
 
* Apply understanding of derivatives to solve real world problems involving marginal average C/R/P
 
* Apply understanding of derivatives to solve real world problems involving marginal average C/R/P
Line 102: Line 85:
 
* [[The Chain Rule]]
 
* [[The Chain Rule]]
 
||
 
||
* Composite functions, function evaluation.
+
* [[Composite Functions]]
 +
* [[Function Evaluation]]
 
||
 
||
 
* Find derivatives using the chain rule and generalized power and exponential rules.
 
* Find derivatives using the chain rule and generalized power and exponential rules.
Line 110: Line 94:
 
||
 
||
 
* 11.8
 
* 11.8
 +
||
 +
* [[Derivatives of Exponential Functions]]
 +
||
 +
* [[The Derivative as a Function]]
 +
* [[Exponential Functions]]
 +
||
 +
* Find derivatives of exponential functions, including composite functions.
 +
* Apply understanding of derivatives to solve real world problems involving marginal C/R/P, marginal average, C/R/P, and composite functions.
 +
|-
 +
|6.0
 +
||
 +
* 11.8
 +
||
 +
* [[Derivatives of Logarithmic Functions]]
 +
||
 +
* [[The Derivative as a Function]]
 +
* [[Logarithmic Functions]]
 +
||
 +
* Find derivatives of logarithmic functions, including composite functions.
 +
* Apply understanding of derivatives to solve real world problems involving marginal C/R/P, marginal average, C/R/P, and composite functions.
 +
|-
 +
|6.0
 +
||
 
* 12.1
 
* 12.1
 
||
 
||
* Derivatives of Exponential and Logarithmic Functions
+
* [[Local Extrema]]
* Local Extrema
 
 
||
 
||
* Basic understanding of exponential and logarithmic functions.  The mechanics should be accessible to students with a weaker grasp on these functions.
+
* [[Derivative Properties]]
* Tangent lines and the derivative as the slope of a graph at a point, and derivative properties.  Finding roots of functions and solving algebraic equations as well as domain and function evaluation.
+
* [[Simplifying Radicals]]
 +
* Finding [[Domain]] and [[Range]] of a function
 
||
 
||
* Find derivatives of exponential and logarithmic functions, including composite functions.
 
* Apply understanding of derivatives to solve real world problems involving marginal C/R/P, marginal average, C/R/P, and composite functions.
 
 
* Understand the connection between the derivative and a graph's increasing/decreasing pattern.
 
* Understand the connection between the derivative and a graph's increasing/decreasing pattern.
 
* Find the intervals on which a function is increasing/decreasing.
 
* Find the intervals on which a function is increasing/decreasing.
Line 132: Line 137:
 
||
 
||
 
* [[The Second Derivative]]
 
* [[The Second Derivative]]
* [[Optimization Applications]]
 
 
||
 
||
* Domain of a function, derivative of a function, finding the roots of a function, solving algebraic equations, function evaluation.
+
* [[Local Extrema]]
* Domain of a function, the connection between a function's graph and derivative as well as finding roots of a function and function evaluation.
 
 
||
 
||
 
* Find the second derivative and higher-order derivatives of a function.
 
* Find the second derivative and higher-order derivatives of a function.
Line 141: Line 144:
 
* Find the points of inflection of a function.
 
* Find the points of inflection of a function.
 
* Use second derivatives to solve real world problems, including finding the point of diminishing returns.
 
* Use second derivatives to solve real world problems, including finding the point of diminishing returns.
 +
|-
 +
|7.0
 +
||
 +
* 12.3
 +
||
 +
* [[Optimization Applications]]
 +
||
 +
* [[The Second Derivative]]
 +
||
 
* Use the Extreme Value Theorem to find absolute extrema of continuous functions on closed intervals.
 
* Use the Extreme Value Theorem to find absolute extrema of continuous functions on closed intervals.
 
* Use the Critical Point Theorem to find absolute extrema of continuous functions on non-closed intervals.
 
* Use the Critical Point Theorem to find absolute extrema of continuous functions on non-closed intervals.
Line 148: Line 160:
 
||
 
||
 
* 12.4
 
* 12.4
* 12.5
 
 
||
 
||
 
* [[Implicit Differentiation]]
 
* [[Implicit Differentiation]]
* [[Related Rates]]
 
 
||
 
||
* Understand both what the chain rule says and how to use it, composite functions, derivative properties.
 
 
* The derivative as a rate of change, substitution, general problem reading/solving skills.
 
* The derivative as a rate of change, substitution, general problem reading/solving skills.
 
||
 
||
 
* Find derivatives of implicit functions.
 
* Find derivatives of implicit functions.
 +
|-
 +
|8.0
 +
||
 +
* 12.5
 +
||
 +
* [[Related Rates]]
 +
||
 +
* [[Implicit Differentiation]]
 +
||
 
* Solve problems involving related rates in a variety of real world problems.
 
* Solve problems involving related rates in a variety of real world problems.
 
|-
 
|-
Line 165: Line 183:
 
* [[Elasticity of Demand]]
 
* [[Elasticity of Demand]]
 
||
 
||
* Implicit differentiation, demand curves.
+
* [[Implicit Differentiation]]
 +
* [[Demand Curves]]
 
||
 
||
 
* Solve problems involving elasticity of demand in a variety of real world problems.
 
* Solve problems involving elasticity of demand in a variety of real world problems.
Line 172: Line 191:
 
||
 
||
 
* 13.1
 
* 13.1
* 13.2
 
 
||
 
||
 
* [[Antiderivatives]]
 
* [[Antiderivatives]]
* [[Integration by Substitution]]
 
 
||
 
||
* Derivative properties, substitution, and algebraic manipulations.
+
* [[Techniques for Finding Derivatives]]
* Derivatives, the chain rule, composite functions, substitution, and algebraic manipulations.
+
* [[Derivatives of Products and Quotients]]
 +
* [[The Chain Rule]]
 +
* [[Derivative Properties]]
 +
* [[Derivatives of Exponential Functions]]
 +
* [[Derivatives of Logarithmic Functions]]
 
||
 
||
 
* Find antiderivatives of functions using the power rule, exponential function rule, logarithm rule, constant-multiple rule, and sum-or-difference rule.
 
* Find antiderivatives of functions using the power rule, exponential function rule, logarithm rule, constant-multiple rule, and sum-or-difference rule.
 
* Find antiderivatives involving real world contexts.
 
* Find antiderivatives involving real world contexts.
 
* Find differentials of various functions.
 
* Find differentials of various functions.
 +
|-
 +
|10.0
 +
||
 +
* 13.2
 +
||
 +
* [[Integration by Substitution]]
 +
||
 +
* [[Antiderivatives]]
 +
||
 
* Find antiderivatives using integration by substitution.
 
* Find antiderivatives using integration by substitution.
 
* Solve initial value problems involving real world contexts.
 
* Solve initial value problems involving real world contexts.
Line 189: Line 219:
 
||
 
||
 
* 13.4
 
* 13.4
 +
||
 +
* [[Definite Integral]]
 +
||
 +
* [[Graphs]] of a function
 +
* [[Area]] of rectangles, triangles, and trapezoids.
 +
* [[Antiderivatives]]
 +
||
 +
* Use numerical integration technology to calculate definite integrals.
 +
* Apply understanding of definite integrals to solve real world problems.
 +
|-
 +
|11.0
 +
||
 
* 13.5
 
* 13.5
 
||
 
||
* [[Area and the Definite Integral]]
 
 
* [[The Fundamental Theorem of Calculus]]
 
* [[The Fundamental Theorem of Calculus]]
 
||
 
||
* The graph of a function, areas of rectangles, triangles, and trapezoids.
+
* [[Definite Integral]]
* Antiderivatives, function evaluation
 
 
||
 
||
* Use numerical integration technology to calculate definite integrals.
+
* Apply the fundamental theorem of calculus to find definite integrals.
* Apply understanding of definite integrals to solve real world problems.
 
* Apply the fundamental theorem of calculus fo find definite integrals.
 
 
* Find the area between the graph of a function and the x-axis on a closed interval.
 
* Find the area between the graph of a function and the x-axis on a closed interval.
 
* Apply understanding of definite integrals to solve real world problems.
 
* Apply understanding of definite integrals to solve real world problems.
Line 209: Line 247:
 
* [[Applications of Integrals]]
 
* [[Applications of Integrals]]
 
||
 
||
* Area under a graph, graphs of functions, finding the point where two graphs intersect.  Supply and demand curves.
+
* [[Definite Integral]]
 +
* [[Elasticity of Demand]]
 
||
 
||
 
* Find the area between the graphs of two functions.
 
* Find the area between the graphs of two functions.
Line 221: Line 260:
 
* [[Differential Equations]]
 
* [[Differential Equations]]
 
||
 
||
* Antiderivatives, function evaluation, differentials
+
* [[Antiderivatives]]
 
||
 
||
 
* Find general solutions to separable differential equations.
 
* Find general solutions to separable differential equations.
Line 230: Line 269:
 
||
 
||
 
* 14.1
 
* 14.1
* 14.2
 
 
||
 
||
 
* [[Multivariable Functions]]
 
* [[Multivariable Functions]]
* [[Partial Derivatives]]
 
 
||
 
||
* Function evaluation, domain, graphs of functions.
+
* [[Graphs]] of a function
* Derivatives, substitution, marginal analysis.
+
* Finding [[Domain]] and [[Range]] of a function
 
||
 
||
 
* Evaluate a function of two variables.
 
* Evaluate a function of two variables.
Line 242: Line 279:
 
* Apply understanding of multivariable functions to real world problems.
 
* Apply understanding of multivariable functions to real world problems.
 
* Match graphs to equations.
 
* Match graphs to equations.
 +
|-
 +
|14.0
 +
||
 +
* 14.2
 +
||
 +
* [[Partial Derivatives]]
 +
||
 +
* [[Techniques for Finding Derivatives]]
 +
* [[Derivatives of Products and Quotients]]
 +
* [[The Chain Rule]]
 +
* [[Derivative Properties]]
 +
* [[Derivatives of Exponential Functions]]
 +
* [[Derivatives of Logarithmic Functions]]
 +
* [[Marginal Analysis]]
 +
||
 
* Find partial derivatives.
 
* Find partial derivatives.
 
* Interpret first-order partial derivatives as a rate of change.
 
* Interpret first-order partial derivatives as a rate of change.
 
* Apply understanding of partial derivatives to solve real world applications.
 
* Apply understanding of partial derivatives to solve real world applications.
 
|}
 
|}
 
  
 
==Topics List B ==
 
==Topics List B ==

Revision as of 14:42, 23 July 2020

Course Catalog

MAT 1133. Calculus for Business. (3-0) 3 Credit Hours. (TCCN = MATH 1325)

Prerequisite: MAT1053 with a grade of "C-" or better, or an equivalent course, or satisfactory performance on a placement examination. This course is the basic study of limits and continuity, differentiation of single and multivariable functions, optimization and graphing, and integration of elementary, single variable functions, with an emphasis on applications in business and economics. May apply toward the Core Curriculum requirement in Mathematics. (Credit cannot be earned for both MAT 1033 and MAT 1133.) Generally offered: Fall, Spring, Summer. Course Fees: DL01 $75; LRC1 $12; LRS1 $45; STSI $21.

Text

In this course, you will use MyMathLab with this text: Mathematics with Applications 12th ed. Lial, Hungerford, Holcomb. The physical book is not required since MyMathLab (MML) has the text available in a digital format.

Topics List A

Date Sections Topics Prerequisite Skills Student Learning Outcomes
3.0
  • 11.3
- Distribution
- Like terms
- Factoring
- Cancellation of Factors
  • Describe the average rate of change of a function in terms of its algebraic meaning and geometric meaning.
3.0
  • 11.4
  • Describe the instantaneous rate of change of a function and its relationship to average rate of change.
  • Find the line tangent to a function at a given point with the derivative provided
3.0
  • 11.4
  • Find average and instantaneous rates of change in a variety of real world applications, including the velocity of an object moving in a straight line.
  • Find the derivative of a function at a given point using the definition.
  • Find the slope of the tangent line and the equation of the tangent line to the graph of a function at a given point.
  • Apply the concept of the derivative at a point in a variety of real world problems.
  • Find the derivative of a function using the limit definition.
4.0
  • 11.5
  • Find derivatives using the constant rule, power rule, constant times a function rule, and sum-or-difference rule.
  • Apply understanding of derivatives to solve real world problems involving marginal C/R/P
4.0
  • 11.6
  • Find derivatives using the product rule and quotient rule.
  • Apply understanding of derivatives to solve real world problems involving marginal average C/R/P
5.0
  • 11.7
  • Find derivatives using the chain rule and generalized power and exponential rules.
  • Apply understanding of derivatives to solve real world problems involving composition of functions.
6.0
  • 11.8
  • Find derivatives of exponential functions, including composite functions.
  • Apply understanding of derivatives to solve real world problems involving marginal C/R/P, marginal average, C/R/P, and composite functions.
6.0
  • 11.8
  • Find derivatives of logarithmic functions, including composite functions.
  • Apply understanding of derivatives to solve real world problems involving marginal C/R/P, marginal average, C/R/P, and composite functions.
6.0
  • 12.1
  • Understand the connection between the derivative and a graph's increasing/decreasing pattern.
  • Find the intervals on which a function is increasing/decreasing.
  • Find the critical points of a function.
  • Find the local extrema of a function.
  • Use local extrema to solve real world problems.
7.0
  • 12.2
  • 12.3
  • Find the second derivative and higher-order derivatives of a function.
  • Identify the intervals on which a function is concave up and concave down.
  • Find the points of inflection of a function.
  • Use second derivatives to solve real world problems, including finding the point of diminishing returns.
7.0
  • 12.3
  • Use the Extreme Value Theorem to find absolute extrema of continuous functions on closed intervals.
  • Use the Critical Point Theorem to find absolute extrema of continuous functions on non-closed intervals.
  • Solve optimization problems in real world contexts.
8.0
  • 12.4
  • The derivative as a rate of change, substitution, general problem reading/solving skills.
  • Find derivatives of implicit functions.
8.0
  • 12.5
  • Solve problems involving related rates in a variety of real world problems.
9.0
  • Case Study 11
  • Solve problems involving elasticity of demand in a variety of real world problems.
10.0
  • 13.1
  • Find antiderivatives of functions using the power rule, exponential function rule, logarithm rule, constant-multiple rule, and sum-or-difference rule.
  • Find antiderivatives involving real world contexts.
  • Find differentials of various functions.
10.0
  • 13.2
  • Find antiderivatives using integration by substitution.
  • Solve initial value problems involving real world contexts.
11.0
  • 13.4
  • Use numerical integration technology to calculate definite integrals.
  • Apply understanding of definite integrals to solve real world problems.
11.0
  • 13.5
  • Apply the fundamental theorem of calculus to find definite integrals.
  • Find the area between the graph of a function and the x-axis on a closed interval.
  • Apply understanding of definite integrals to solve real world problems.
12.0
  • 13.6
  • Find the area between the graphs of two functions.
  • Find the consumers’ surplus and producers’ surplus.
  • Apply understanding of definite integrals to solve real world problems.
13.0
  • 13.7
  • Find general solutions to separable differential equations.
  • Find particular solutions to separable differential equations.
  • Solve real-world problems involving exponential growth and decay models.
14.0
  • 14.1
  • Evaluate a function of two variables.
  • Find the domain of a given multivariable function.
  • Apply understanding of multivariable functions to real world problems.
  • Match graphs to equations.
14.0
  • 14.2
  • Find partial derivatives.
  • Interpret first-order partial derivatives as a rate of change.
  • Apply understanding of partial derivatives to solve real world applications.

Topics List B

Date Sections Topics Prerequisite Skills Student Learning Outcomes
3.0
  • 11.3
  • 11.4
  • 11.4
  • Rates of Change
  • Tangent Lines and Derivatives
  • The Derivative as a Function
  • Function notation, graphs of functions, limits of functions, the concept of a weighted average.
  • Function evaluation, average rate of change, distribution, like terms, factoring, cancellation, finding the equation of a line.
  • Limits. Algebraic manipulations, e.g. distribution, like terms, factoring, cancellation of factors. Awareness of common pitfalls, e.g. inappropriate cancellation.
  • Describe the average rate of change of a function in terms of its algebraic meaning and geometric meaning.
  • Describe the instantaneous rate of change of a function and its relationship to average rate of change.
  • Find average and instantaneous rates of change in a variety of real world applications, including the velocity of an object moving in a straight line.
  • Find the derivative of a function at a given point using the definition.
  • Find the line tangent to a function at a given point with the derivative provided
  • Find the slope of the tangent line and the equation of the tangent line to the graph of a function at a given point.
  • Apply the concept of the derivative at a point in a variety of real world problems.
  • Find the derivative of a function using the limit definition.
4.0
  • 11.5
  • 11.6
  • Techniques for Finding Derivatives
  • Derivatives of Products and Quotients
  • Algebraic manipulations and basic understanding of exponents.
  • Algebraic manipulations, e.g. distribution, like terms, factoring, cancellation of factors. Awareness of common pitfalls, e.g. inappropriate cancellation, improper distribution.
  • Find derivatives using the constant rule, power rule, constant times a function rule, and sum-or-difference rule.
  • Apply understanding of derivatives to solve real world problems involving marginal C/R/P
  • Find derivatives using the product rule and quotient rule.
  • Apply understanding of derivatives to solve real world problems involving marginal average C/R/P
5.0
  • 11.7
  • The Chain Rule
  • Composite functions, function evaluation.
  • Find derivatives using the chain rule and generalized power and exponential rules.
  • Apply understanding of derivatives to solve real world problems involving composition of functions.
6.0
  • 11.8
  • 12.1
  • Derivatives of Exponential and Logarithmic Functions
  • Local Extrema
  • Basic understanding of exponential and logarithmic functions. The mechanics should be accessible to students with a weaker grasp on these functions.
  • Tangent lines and the derivative as the slope of a graph at a point, and derivative properties. Finding roots of functions and solving algebraic equations as well as domain and function evaluation.
  • Find derivatives of exponential and logarithmic functions, including composite functions.
  • Apply understanding of derivatives to solve real world problems involving marginal C/R/P, marginal average, C/R/P, and composite functions.
  • Understand the connection between the derivative and a graph's increasing/decreasing pattern.
  • Find the intervals on which a function is increasing/decreasing.
  • Find the critical points of a function.
  • Find the local extrema of a function.
  • Use local extrema to solve real world problems.
7.0
  • 12.2
  • 12.3
  • The Second Derivative
  • Optimization Applications
  • Domain of a function, derivative of a function, finding the roots of a function, solving algebraic equations, function evaluation.
  • Domain of a function, the connection between a function's graph and derivative as well as finding roots of a function and function evaluation.
  • Find the second derivative and higher-order derivatives of a function.
  • Identify the intervals on which a function is concave up and concave down.
  • Find the points of inflection of a function.
  • Use second derivatives to solve real world problems, including finding the point of diminishing returns.
  • Use the Extreme Value Theorem to find absolute extrema of continuous functions on closed intervals.
  • Use the Critical Point Theorem to find absolute extrema of continuous functions on non-closed intervals.
  • Solve optimization problems in real world contexts.
8.0
  • 12.4
  • 12.5
  • Implicit Differentiation
  • Related Rates
  • Understand both what the chain rule says and how to use it, composite functions, derivative properties.
  • The derivative as a rate of change, substitution, general problem reading/solving skills.
  • Find derivatives of implicit functions.
  • Solve problems involving related rates in a variety of real world problems.
9.0
  • Case Study 11
  • Elasticity of Demand
  • Implicit differentiation, demand curves.
  • Solve problems involving elasticity of demand in a variety of real world problems.
10.0
  • 13.1
  • 13.2
  • Antiderivatives
  • Integration by Substitution
  • Derivative properties, substitution, and algebraic manipulations.
  • Derivatives, the chain rule, composite functions, substitution, and algebraic manipulations.
  • Find antiderivatives of functions using the power rule, exponential function rule, logarithm rule, constant-multiple rule, and sum-or-difference rule.
  • Find antiderivatives involving real world contexts.
  • Find differentials of various functions.
  • Find antiderivatives using integration by substitution.
  • Solve initial value problems involving real world contexts.
11.0
  • 13.4
  • 13.5
  • Area and the Definite Integral
  • The Fundamental Theorem of Calculus
  • The graph of a function, areas of rectangles, triangles, and trapezoids.
  • Antiderivatives, function evaluation
  • Use numerical integration technology to calculate definite integrals.
  • Apply understanding of definite integrals to solve real world problems.
  • Apply the fundamental theorem of calculus fo find definite integrals.
  • Find the area between the graph of a function and the x-axis on a closed interval.
  • Apply understanding of definite integrals to solve real world problems.
12.0
  • 13.6
  • Applications of Integrals
  • Area under a graph, graphs of functions, finding the point where two graphs intersect. Supply and demand curves.
  • Find the area between the graphs of two functions.
  • Find the consumers’ surplus and producers’ surplus.
  • Apply understanding of definite integrals to solve real world problems.
13.0
  • 13.7
  • Differential Equations
  • Antiderivatives, function evaluation, differentials
  • Find general solutions to separable differential equations.
  • Find particular solutions to separable differential equations.
  • Solve real-world problems involving exponential growth and decay models.
14.0
  • 14.1
  • 14.2
  • Multivariable Functions
  • Partial Derivatives
  • Function evaluation, domain, graphs of functions.
  • Derivatives, substitution, marginal analysis.
  • Evaluate a function of two variables.
  • Find the domain of a given multivariable function.
  • Apply understanding of multivariable functions to real world problems.
  • Match graphs to equations.
  • Find partial derivatives.
  • Interpret first-order partial derivatives as a rate of change.
  • Apply understanding of partial derivatives to solve real world applications.
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