MATH140H Calculus I (Honors section)
Department of Science, Technology, Engineering & Mathematics: Mathematics
- I. Course Number and Title
- MATH140H Calculus I (Honors section)
- II. Number of Credits
- 4 credits
- III. Number of Instructional Minutes
- 3000
- IV. Prerequisites
- Math Placement Test score of 11 or MATH125 (C or better); admission to the Honors@Bucks program
- Corequisites
- None
- V. Other Pertinent Information
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At least four hours of testing, quizzes, and a two-hour comprehensive departmental final examination are given.
This course meets the General Education requirement for Quantitative Literacy.
MATH140H is part of the Honors@Bucks program. Honors@Bucks challenges high-ability, intellectually curious students through coursework emphasizing scholarly research, high-order critical thinking, and experiential learning.
Students cannot register for honors coursework until they have applied to and been accepted by the Honors@Bucks program.
Honors@Bucks is open to students in all associate degree programs who meet Honors@Bucks' criteria.
- VI. Catalog Course Description
- This is the first course in the calculus sequence for physical science, business, computer science, mathematics and engineering students. Topics include: limits, the rate of change of a function, derivatives of algebraic and trigonometric functions, applications of derivatives, integration, and applications of the definite integral.
- VII. Required Course Content and Direction
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Course Learning Goals
Students will:
- explain the concepts of limit and continuity and evaluate limits and derivatives of algebraic and trigonometric function;
- use implicit differentiation to find a derivative and apply concepts of differentiation to problems in curve sketching, related rates, straight-line motion, science, business, and economics;
- find indefinite integrals;
- solve elementary differential equations;
- apply the definition of the definite integral and its properties, evaluate definite integrals, and use the definite integral for applications involving topics, such as average values, areas, volumes of solids of revolution, lengths of plane curves;
- accurately translate descriptive problems into mathematical formulas and solve them [Quantitative Literacy].
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Planned Sequence of Topics and/or Learning Activities
The following is a list of the minimum amount of course material to be covered by the instructor. Accompanying each topic is an approximate number of lesions required to study the topic.
- Limits and Continuity
- Geometric Interpretation of Limits
- Evaluating Limits
- Limit Theorems
- One-Sided Limits
- Continuity
- The Derivative
- Geometric Interpretation - Tangent Line to a Curve
- Definition of Derivative
- Velocity, Acceleration, and Other Rates of Change
- Finding Derivatives, Using the Limit Definition
- Finding Derivatives, Using the Differentiation Formulas
- Product and Quotient Rules
- Derivatives of Basic Trigonometic Functions
- Chain Rule and Composite Functions
- Implicit Differentiation
- Higher-Order Derivatives
- Applications of the Derivative
- Straight Line Motion
- Related Rates
- Increasing and Decreasing Functions
- Relative and Absolute Extrema
- Concavity and Inflection Points
- Second Derivative Test
- Optimization Problems
- Linear Approximation and Differentials
- Mean Value Theorem
- Antiderivatives
- Integration
- Indefinite Integrals
- Differential Equations
- Summation Notation
- Finding Areas and the Definition of Definite Integral
- Fundamental Theorem of Calculus
- Properties of the Definite Integral
- Using Substitution to Evaluate Integrals
- Applications of Integration
- Area Under a Curve
- Average Value of a Function
- Area Between Curves
- Volumes of Revolution - Disk and Shell Method
- Length of a Plane Curve
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Assessment Methods for Course Learning Goals
The student applies mathematical concepts and principles to identify and solve problems presented through informal assessment, such as oral communication among students and between teacher and students. Formal assessment consists of open-ended questions reflecting theoretical and applied situations.
A minimum of 70% of a student's grade must be determined from proctored assessments and work. These proctored assessments include tests, quizzes, departmental final exam, or other proctored in-class assignments.
The final exam must be at least 20% of the course grade. Study guides, formula sheets, and other aids may not be used on the final exam.
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Reference, Resource, or Learning Materials to be used by Student:
A TI-30X IIS scientific calculator (not the MultiView series) and a departmentally-selected textbook are used. Details are provided by the instructor of each course section. See course syllabus.
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Review/Approval Date - 3/06; Core Goals/Objectives added 12/04; Revised 09/2013; New Core 8/2015; Updated 11/2019