Nov 21, 2024  
2022 - 2023 Catalog 
    
2022 - 2023 Catalog [ARCHIVED CATALOG]

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MTH 160 - Calculus for the Social and Managerial Sciences

Credits: 4
Instructional Contact Hours: 4

Satisfies the mathematics requirements for students majoring in business or social sciences. Covers topics including graphing, differentiation, and integration of functions (algebraic, exponential, and logarithmic), and the use of these techniques within business and economic models. A GRAPHING CALCULATOR IS REQUIRED.

Prerequisite(s): High school GPA of 3.0 or higher OR MTH 120 , MTH 121 , MTH 122W , or MTH 151  with grade of “C” or higher OR completion of Guided Self-Placement (GSP) process.
Corequisite(s): None
Lecture Hours: 60 Lab Hours: 0
Meets MTA Requirement: Math
Pass/NoCredit: Yes

Outcomes and Objectives  

  1. Demonstrate an understanding of the mathematical concepts of limit and continuity.
    1. Determine the existence of a limit algebraically or from a graph of the function.
    2. Determine one-sided and two-sided limits algebraically or from a graph of the function.
    3. Determine the continuity of a function at a point from the definition of continuity at a point or from the graph of the function.
  2. Demonstrate an understanding of the mathematical concept of derivative.
    1. State the definition of a derivative.
    2. Use the different interpretations of a derivative appropriately.
    3. Approximate the value of a derivative of a function at a point from a graph of the function.
    4. Use the formulas to determine the derivatives (first derivative, second derivative, partial derivative) of polynomial, rational, exponential, logarithmic and radical functions.
    5. Determine, from the graph of the function, each point where the derivative of the function does not exist.
  3. Demonstrate an understanding of the mathematical concept of integration.
    1. Evaluate indefinite integrals of elementary polynomial, rational, and exponential function.
    2. Define the definite integral using the concept of a limit.
    3. Appropriately use tables of integrals to determine the integral of a function.
    4. Determine the numerical value of a definite integral.
  4. Demonstrate an understanding of the relationship between the concepts of limit, continuity, derivation, and integration.
    1. State the relationship between differentiation and integration.
    2. State the relationship between the existence of a limit, the continuity of a function, and the existence of a derivative of a function at a point.
  5. Demonstrate an understanding of how derivatives and integrals can be used to solve problems.
    1. Determine the nature of a function (increasing or decreasing, concavity, inflection points, maximums or minimum) using derivatives.
    2. Use the derivative as a measure of rate of change in applied problems.
    3. Use integration to determine the total amount of change in a function in applied problems.
    4. Use an integral to determine area.
    5. Use numerical integration techniques to approximate definite integrals.
  6. Communicate effectively about calculus.
    1. Use the specialized notation of derivatives and integrals appropriately.
    2. Describe solutions to problems, both verbally and in written form, using appropriate terminology.
  7. Use technology appropriately to do mathematics.



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