100 19039
120 Calculus (HON) 471
130 
140 
150 11-12
160 
170 
180 
210 25.1 Mathematics - Alg Reasoning: Patterns & Functs
211 1.9.1
212 1.9.2
213 1.9.3
214 1.9.11
215 2.9.3
216 2.9.5
220 25.1 Mathematics - Alg Reasoning: Patterns & Functs
221 2.9.7
222 3.9.2
223 
224 
225 
226 
230 25.2 Mathematics - Numerical & Prop Reasoning
231 2.9.1
232 2.9.3
233 
234 
235 
236 
240 25.3 Mathematics - Geom & Measuremt
241 1.9.2
242 2.9.2
243 2.9.4
244 2.9.5
245 
246 
250 
251 
252 
253 
254 
255 
256 
300 1)  What are limits? How are they analyzed? Why are they important to the study of calculus?
300 
300 2)  What is a derivative? What techniques are used to find derivatives? How is a derivative related to a tangent line? How can the derivative concept be applied to real world problems?
300 
300 3)   What is integration, and how does it relate to differentiation? What are techniques used to find an anti-derivative, and what does the answer represent? How can the integral concept be applied to real world problems?
300 
400 This course focuses on the following concepts:
400 
400 Analysis of Graphs
400 Limits of Functions  
400 Asymptotic and Unbounded Behavior
400 Continuity as a Property of Functions
400 Concept of Derivative
400 Derivative at a Point
400 Derivative as a Function
400 Higher Order Derivatives
400 Techniques of Differentiation
400 Rolle's Theorem
400 Mean Value Theorem
400 L'Hopital's Rule
400 Applications of Derivatives 
400 Interpretations and Properties of Definite Integrals
400 Applications of Integrals
400 Fundamental Theorem of Calculus
400 Techniques of Antidifferentiation
400 Applications of Antidifferentiation
400 Numerical Approximations to Definite Integrals
400 
500 Students will develop the ability to:
500 
500 -- Determine the relationship between the geometric and analytic representations of      functions and how to use calculus to explain and predict both local and global behavior, 
500 -- Explain the limiting process,
500 -- Estimate limits from graphs or tables of data, 
500 -- Calculate limits using algebra, 
500 -- Explain asymptotes in terms of graphical behavior, 
500 -- Describe asymptotic behavior in terms of limits involving infinity, 
500 -- Explain what makes a function continuous or discontinuous, 
500 -- Relate continuity to limits, 
500 -- Present the derivative graphically and analytically, 
500 -- Relate the derivative to instantaneous rate of change, 
500 -- Use the definition of the derivative to find the derivative, 
500 -- Explain the relationship between differentiability and continuity, 
500 -- Find the derivative at a point, 
500 -- Identify where there are vertical tangents and removable discontinuities, 
500 -- Relate the graph of a function to the graph of its derivative, 
500 -- Translate verbal descriptions into equations involving derivatives and vice versa, 
500 -- Relate the graph of a function to its second derivative graph, 
500 -- Use Rolle's Theorem and Mean Value Theorem in problem solving
500 -- Identify points of inflection, 
500 -- Analyze curves in terms of increasing and decreasing intervals and concavity, 
500 -- Find maximums and minimums through equation analysis, 
500 -- Model rates of change including related rate problems, 
500 -- Solve optimization poblems using differentiation
500 -- Solve exponential growth and decay problems using differential equations
500 -- Use a tangent line to approximate the graph of a function
500 -- Use L'Hopital's Rule to find the limit of a quotient
500 -- Differentiate implicitly, 
500 -- Differentiate power, exponential, logarithmic, trigonometric, and inverse trigonometric functions, 
500 --Differentiate sums, products, and quotients of functions, 
500 -- Differentiate using the chain rule, 
500 -- Compute Riemann sums using left, right, and midpoint evaluation points, 
500 -- Explain the definite integral as a limit of Riemann sums over equal subdivisions, 
500 -- Explain the definite integral as the change of the quantity over the interval, 
500 -- Explain the properties of definite integrals, 
500 -- Use the Fundamental Theorem of Calculus to represent and evaluate definite integrals, 
500 -- Use derivatives of basic functions to antidifferentiate, 
500 -- Use u-substitution of variables to antidifferentiate,
500 -- Solve separable differential equations and use them in modeling, 
500 -- Use Riemann and trapezoidal sums to approximate definite integrals of functions represented algebraically, graphically, and by tables of values.
600 All students will:
600 
600 -- Have daily exposure to both mechanical, theoretical, and application-based problems,
600 -- Utilize the graphing calculator extensively to supplement pencil and paper techniques.
600 
700 Students will be assessed by:
700 
700 1.  Daily homework assignments, which will acount for 10% of their final grade 
700 
700 2.  Quizzes, approximately one every one to two weeks
700 
700 3.  Unit tests, comprised of 60-70% application, 30-40% computation
700 
700 4.  A final exam that will cover an entire semester's material,  andwill account for 20% of the student's final grade
800 Projects involving hands-on experience with differentation and integration (e.g.related rates, optimization, area, or volume) and research into areas not specifically covered by the curriculum (e.g. math history).
820 1.  Course Text - Calculus with Analytic Geometry - 6th Edition - Larson & Hostetler
820 
820 2.  Supplementary texts
820 
820 3.  Graphing calculator
820 
820 4.  Graphing calculator projector