MATH-181 Calculus I
Students will develop skills in the initial content of both differential and integral calculus including finding limits of functions; exposure to the epsilon-delta process and continuity; finding derivatives of polynomial, rational, radical, trigonometric, inverse trigonometric, exponential, and logarithmic functions, and inverse functions; the chain rule; and integration by substitution. Applications dealing with optimization, related rates, Newton's method, L'Hopital's rule, motion problems and the properties of the graphs of functions are covered. Theorems include the mean-value theorem for derivatives and integrals, the squeeze theorem, and the fundamental theorems of calculus. Implicit differentiation, differentials and summations of area will be used when appropriate. The use of a computer algebra system will be an integral part of the course. Credit will only be granted for one of the following: MATH-140, MATH-145, or MATH-181.
Prerequisite
MATH-153 or
MATH-155 or appropriate score on the mathematics placement test. A grade of C or higher in the Precalculus sequence is strongly recommended.
Hours Weekly
4 hours weekly
Course Objectives
- 1. Calculate limits of elementary functions numerically, graphically, and analytically.
- 2. Calculate derivatives of functions given either implicitly or explicitly.
- 3. Apply the method of substitution to calculate integrals of functions where applicable.
- 4. Apply the theory of derivatives to the graphing of curves and to solve related rate and
optimization problems, and estimation of zeroes of a function with Newton’s method. - 5. Use differential calculus to model and solve various application problems, interpret results,
and evaluate the reasonableness of the results in context.
- 6. Apply the Mean Value Theorem for derivatives and integrals to given functions.
- 7. Use a computer algebra system, as a means of discovery, to reinforce concepts, and as an
efficient problem-solving tool. - 8. Communicate calculus concepts in a neat and organized manner using appropriate
symbols, notation, and vocabulary. - 9. Identify and implement appropriate technologies to efficiently complete tasks that involve the
solving of cross-discipline, mathematically appropriate problems and creating new works to
communicate the processes used and solution.
Course Objectives
- 1. Calculate limits of elementary functions numerically, graphically, and analytically.
- 2. Calculate derivatives of functions given either implicitly or explicitly.
- 3. Apply the method of substitution to calculate integrals of functions where applicable.
- 4. Apply the theory of derivatives to the graphing of curves and to solve related rate and
optimization problems, and estimation of zeroes of a function with Newton’s method. - 5. Use differential calculus to model and solve various application problems, interpret results,
and evaluate the reasonableness of the results in context.
- 6. Apply the Mean Value Theorem for derivatives and integrals to given functions.
- 7. Use a computer algebra system, as a means of discovery, to reinforce concepts, and as an
efficient problem-solving tool. - 8. Communicate calculus concepts in a neat and organized manner using appropriate
symbols, notation, and vocabulary. - 9. Identify and implement appropriate technologies to efficiently complete tasks that involve the
solving of cross-discipline, mathematically appropriate problems and creating new works to
communicate the processes used and solution.