Difference between revisions of "MAT1214"

• Evaluation of a function including the absolute value, rational, and piecewise functions

• Domain and Range of a Function

• Describe the limit of a function using correct notation.
• Use a table of values to estimate the limit of a function or to identify when the limit does not exist.
• Use a graph to estimate the limit of a function or to identify when the limit does not exist.
• Define one-sided limits and provide examples.
• Explain the relationship between one-sided and two-sided limits.
• Describe an infinite limit using correct notation.
• Define a vertical asymptote.

Edit soon

• Simplifying algebraic expressions.
• Factoring polynomials
• Identifying conjugate radical expressions.
• Evaluating expressions at a value.
• Simplifying complex rational expressions by obtaining common denominators.
• Evaluating piecewise functions.
• The trigonometric functions and right triangle trigonometry.

• Recognize the basic limit laws.
• Use the limit laws to evaluate the limit of a function.
• Evaluate the limit of a function by factoring.
• Use the limit laws to evaluate the limit of a polynomial or rational function.
• Evaluate the limit of a function by factoring or by using conjugates.
• Evaluate the limit of a function by using the squeeze theorem.
• Evaluate left, right, and two sided limits of piecewise defined functions.
• Evaluate limits of the form K/0, K≠0.
• Establish and use this to evaluate other limits involving trigonometric functions.

edit soon

• Domain of function.
• Interval notation.
• Evaluate limits.

• Continuity at a point.
• Describe three kinds of discontinuities.
• Define continuity on an interval.
• State the theorem for limits of composite functions and use the theorem to evaluate limits.
• Provide an example of the intermediate value theorem.

Edit

• Horizontal asymptote for the graph of a function

• Calculate the limit of a function that is unbounded.
• Identify a horizontal asymptote for the graph of a function.

Edit

• Evaluation of a function at a value or variable expression.
• Find equation of a line given a point on the line and its slope.
• Evaluate limits.

• Recognize the meaning of the tangent to a curve at a point.
• Calculate the slope of a secant line (average rate of change of a function over an interval).
• Calculate the slope of a tangent line.
• Find the equation of the line tangent to a curve at a point.
• Identify the derivative as the limit of a difference quotient.
• Calculate the derivative of a given function at a point.

Edit

• Graphing functions.
• The definition of continuity of a function at a point.
• Understanding that derivative of a function at a point represents the slope of the curve at a point.
• Understanding when a limit fails to exist.

• Define the derivative function of a given function.
• Graph a derivative function from the graph of a given function.
• State the connection between derivatives and continuity.
• Describe three conditions for when a function does not have a derivative.
• Explain the meaning of and compute a higher-order derivative.

Edit

• Radical and exponential notation.
• Convert between radical and rational exponents.
• Use properties of exponents to re-write with or without negative exponents.

• State the constant, constant multiple, and power rules.
• Apply the sum and difference rules to combine derivatives.
• Use the product rule for finding the derivative of a product of functions.
• Use the quotient rule for finding the derivative of a quotient of functions.
• Extend the power rule to functions with negative exponents.
• Combine the differentiation rules to find the derivative of a polynomial or rational function.

Edit

• Function evaluation at a value or variable expression.
• Solving an algebraic equation.
• Find derivatives of functions using the derivative rules.

• Determine a new value of a quantity from the old value and the amount of change.
• Calculate the average rate of change and explain how it differs from the instantaneous rate of change.
• Apply rates of change to displacement, velocity, and acceleration of an object moving along a straight line.
• Predict the future population from the present value and the population growth rate.
• Use derivatives to calculate marginal cost and revenue in a business situation.

Edit

• State and use trigonometric identities.
• Graphs of the six trigonometric functions.
• Power, Product, and Quotient Rules for finding derivatives.

• Find the derivatives of the sine and cosine function.
• Find the derivatives of the standard trigonometric functions.
• Calculate the higher-order derivatives of the sine and cosine.

Edit

• Composition of functions.
• Solve trigonometric equations.
• Power, Product, and Quotient Rules for finding derivatives.

• State the chain rule for the composition of two functions.
• Apply the chain rule together with the power rule.
• Apply the chain rule and the product/quotient rules correctly in combination when both are necessary.
• Recognize and apply the chain rule for a composition of three or more functions.
• Use interchangeably the Newton and Leibniz Notation for the Chain Rule.

Edit

• Determine if a function is 1-1.
• The relationship between a 1-1 function and its inverse.
• Knowing customary domain restrictions for trigonometric functions to define their inverses.
• Rules for differentiating functions.

• State the Inverse Function Theorem for Derivatives.
• Apply the Inverse Function Theorem to find the derivative of a function at a point given its inverse and a point on its graph.
• Derivatives of the inverse trigonometric functions.

Edit