The following is an outline of the topics that should be learned in an AB Calculus Class.

I. Functions, Graphs, and Limits 

Analysis of graphs. Emphasis on interplay between the geometric
and analytic information to predict and explain a function.

Limits of Functions (including one-sided limits) 

· An understanding of the limiting process

· Calculating limits using algebra

· Estimating limits and graphs from graphs or tables of data

Asymptotic and unbounded behavior 

· Understanding asymptotes in terms of graphical behavior

· Describing asymptotic behavior in terms of limits involving infinity

· Comparing relative magnitudes of functions and their rates of change

Continuity as a property of functions 

· An intuitive understanding of continuity

· Understanding continuity in terms of limits

· Geometric understanding of graphs of continuous functions

II. Derivatives 

Concept of the derivative 

· Derivative presented geometrically, numerically, and analytically

· Derivative interpreted as an instantaneous rate of change

· Derivative defined as the limit of the difference quotient

Derivative at a point 

· Slope of a curve at a point

· Tangent line to a curve at a point and local linear approximation

· Instantaneous rate of change as the limit of average rate of change

· Approximate rate of change from graphs and tables of values

Derivative as a function

· Corresponding characteristics of graphs of f and f’

· Relationship between the increasing and decreasing behavior of f
and the sign of f’

· The Mean Value Theorem and it’s geometric consequences

· Equations involving derivatives

· Creation and impetration of slope fields

Second derivatives

· Corresponding characteristics of the graphs f , f’, and f’’

· Relationship between the concavity of f and the sign of f’

· Points of inflection as places where concavity changes

Applications of derivatives

· Analysis of curves

· Optimization , both absolute and relative extrema

· Modeling rates of change

· Use of implicit differentiation to find the derivative of an inverse
function

· Interpretation of the derivative as a rate of change

Computation of derivatives

· Knowledge of derivatives of basic functions

· Basic rules for the derivative of sums, products, and quotients of
functions

· Chain rule of implicit differentiation

III. Integrals

Interpretations and properties of definite integrals 

· Computation of Riemann sums

· Definite integral as a limit of Riemann sums

· Definite integral of the rate of change of a quantity over an interval

· Basic properties of definite integrals

Fundamental theorem of calculus

· Use of the fundamental theorem to evaluate definite integrals

· Use of the fundamental theorem to represent functions

Techniques of anti-differentiation

· Anti-derivatives following directly from derivatives of basic
functions

· Anti-derivatives by substitution of variables

Applications of anti-differentiation

· Finding specific anti-derivatives using initial conditions

· Solving separable differential equations and using them in modeling