What is a limit ? When does a limit exist? Continuity Discontinuity Types of discontinuity.

Slides:

Advertisements

Similar presentations

AP Calculus Review First Semester Differentiation to the Edges of Integration Sections , 3.9, (7.7)

Advertisements

2.3 Continuity When you plot function values generated in a laboratory or collected in a field, you can connect the plotted points with an unbroken curve.

INFINITE LIMITS.

LIMITS What is Calculus? What are Limits? Evaluating Limits

Section 1.4.  “open interval”- an interval where the function values at the endpoints are undefined (a, b)  “closed interval”- an interval where the.

Limits and Continuity Definition Evaluation of Limits Continuity

1.5 Continuity. Most of the techniques of calculus require that functions be continuous. A function is continuous if you can draw it in one motion without.

Sec 2.5: CONTINUITY. Study continuity at x = 4 Sec 2.5: CONTINUITY Study continuity at x = 2.

Limits and Continuity Definition Evaluation of Limits Continuity

 A continuous function has no breaks, holes, or gaps  You can trace a continuous function without lifting your pencil.

Chapter Two Limits and Their Properties. Copyright © Houghton Mifflin Company. All rights reserved. 2 | 2 The Tangent Line Problem.

3.7 Graphing Rational Functions Obj: graph rational functions with asymptotes and holes and evaluate limits of rational functions.

Section 2.3 Properties of Functions. For an even function, for every point (x, y) on the graph, the point (-x, y) is also on the graph.

Section Continuity. continuous pt. discontinuity at x = 0 inf. discontinuity at x = 1 pt. discontinuity at x = 3 inf. discontinuity at x = -3 continuous.

Continuity TS: Making decisions after reflection and review.

Section 1.4 Continuity and One-sided Limits. Continuity – a function, f(x), is continuous at x = c only if the following 3 conditions are met: 1. is defined.

Homework Homework Assignment #4 Read Section 2.5 Page 91, Exercises: 1 – 33 (EOO) Quiz next time Rogawski Calculus Copyright © 2008 W. H. Freeman and Company.

Calculus 2-4 Limits and Continuity. Continuity No breaks or interruptions in a function.

Warm up Evaluate the limit Section 2.4 Continuity SWBATSWBAT –Define continuity and its types.

Limits. What is a Limit? Limits are the spine that holds the rest of the Calculus skeleton upright. Basically, a limit is a value that tells you what.

Section 2.5 Continuity. CONTINUITY AT A NUMBER a Definition: A function f is continuous at a number a if.

Continuity Chapter 2: Limits and Continuity.

A function, f, is continuous at a number, a, if 1) f(a) is defined 2) exists 3)

2.3 Continuity.

Continuity of A Function 2.2. A function f(x) is continuous at x = c if and only if all three of the following tests hold: f(x) is right continuous at.

Limits of Functions and Continuity. |a|a |x1|x1 |x2|x2 f (a) = L |a|a f(a) ≠ L o The Limit of a Function The limit as x approaches a (x → a) of f (x)

1.4 One-Sided Limits and Continuity. Definition A function is continuous at c if the following three conditions are met 2. Limit of f(x) exists 1. f(c)

Informal Description f(x) is continuous at x=c if and only if there are no holes, jumps, skips or gaps in the graph of f(x) at c.

Review Limits When you see the words… This is what you think of doing…  f is continuous at x = a  Test each of the following 1.

CONTINUITY. P2P21.5 CONTINUITY  We noticed in Section 1.4 that the limit of a function as x approaches a can often be found simply by calculating the.

Section Continuity 2.2.

Date: 1.2 Functions And Their Properties A relation is any set of ordered pairs. The set of all first components of the ordered pairs is called the domain.

LIMITS OF FUNCTIONS. CONTINUITY Definition (p. 110) If one or more of the above conditions fails to hold at C the function is said to be discontinuous.

1.3 – Continuity, End Behavior, and Limits. Ex. 1 Determine whether each function is continuous at the given x value(s). Justify using the continuity.

2.4 Continuity Objective: Given a graph or equation, examine the continuity of a function, including left-side and right-side continuity. Then use laws.

DEFINITION Continuity at a Point f (x) is defined on an open interval containingopen interval x = c. If, then f is continuous at x = c. If the limit does.

1.3 Limits, Continuity, & End Behavior September 21 st, 2015 SWBAT estimate a limit of a graphed function. SWBAT identity a point of discontinuity utilizing.

1.5 Infinite Limits. Find the limit as x approaches 2 from the left and right.

What is a limit ? When does a limit exist? Continuity Continuity of basic algebraic functions Algebra of limits The case 0/0.

GRAPHS OF RATIONAL FUNCTIONS F-BF.3 Identify the effect on the graph of replacing f(x) by f(x) + k, k f(x), f(kx), and f(x + k) for specific values of.

1.4 Continuity and One-Sided Limits Main Ideas Determine continuity at a point and continuity on an open interval. Determine one-sided limits and continuity.

Limits and Continuity Definition Evaluation of Limits Continuity Limits Involving Infinity.

Limits and Continuity Definition Evaluation of Limits Continuity

Properties of Functions

If and are slopes of parallel lines, then .

Decide whether each of the following is continuous or not.

Warm-Up: Use the graph of f (x) to find the domain and range of the function.

Ch. 2 – Limits and Continuity

Limits and Continuity The student will learn about: limits,

Ch. 2 – Limits and Continuity

The Sky is the Limit! Or is it?

AP Calculus September 6, 2016 Mrs. Agnew

4.5 An Algorithm for Curve Sketching

5-Minute Check Lesson 3-5 Find the inverse of y = - 3x + 4 Then graph both on the same coordinate axes. What is the relationship between a graph of a.

Continuous & Types of Discontinuity

1.6 Continuity Objectives:

23 – Limits and Continuity I – Day 1 No Calculator

Precalculus PreAP/Dual, Revised ©2018

A function is continuous at a point if there it is defined and there are no breaks at the point. These functions are continuous everywhere.

Continuity A function is Continuous if it can be drawn without lifting the pencil, or writing utensil, from the paper. A continuous function has no breaks,

26 – Limits and Continuity II – Day 1 No Calculator

Copyright © Cengage Learning. All rights reserved.

14.2 Limits and Continuity.

Continuity of Function at a Number

2.3 Continuity.

Presentation transcript:

What is a limit ? When does a limit exist? Continuity Discontinuity Types of discontinuity

What is a limit? A limit of a function is an intended “height” of a function at a point Lim f (x) = 4 X  2

When does a limit exist?

f (x) = x²

When does a limit exist?

With a plus sign

When does a limit exist? With a minus sign

In order to have a limit at a point At that point: Left limit MUST EQUAL Right limit Lim f (x)= 1 X  4ˉ X  4 Lim f (x)= 1 X  4 With no sign +

Limit exist Lim f (x)= 1 X  4

Infinite Limits ( are not limits)

How to evaluate a limit, in case of algebraic functions? 1.Finding the value of the function at the point (Substitution in the formula of the function) If the function is continuous at the point 2.Factoring (The case 0/0 ) 3.The Conjugate Method (The case 0/0 )

Substitution

Factoring

The Conjugate Method What is a conjugate? X-16 = (√x - 4) (√x + 4) AND (√x + 4) is the conjugate of (√x - 4) respect to X-16 (√x - 4) is the conjugate of (√x + 4) respect to X-16

The Conjugate Method

Continuity f is continuous at a if:

Example of a function f which is discontinuous, but continuous from the right. lim f (x) = 4 = f (2) X  2+

Example of a function f which is discontinuous, but continuous from the left. lim f (x) = 4 = f (2) X  2ˉ

Discontinuity A function is discontinues at a if the limit at a is not equal to the value f (a) A continuous function on R should have: 1.no breaks in the graph 2.no holes 3.no jumps

Everywhere Continuous Function 2 4 * Since f(2) is also equal to 4; then = f(2) The function is continuous at 2. And since it’s also continuous at all other point’s in R; then it’s everywhere continuous.

Type of discontinuity 1. Removable discontinuity 2. infinite discontinuity 3. jump discontinuity

Jump discontinuity f is continuous on the intervals (-∞,1 ) and [1, ∞ )

Infinite discontinuity 3 4 The function is continuous on the interval (-∞, 3] and (3, ∞ ) Notice that the function is continuous from the left at 3

Removable discontinuity : the limit of f exists at the point but f is not equal to the value of f at that point. 3 Notice that the function is neither continues from the left nor continuous from the right at 3 The function is continuous on the interval (-∞,3) and (3,∞) 4

Let (1,3) f is not defined at 1 but exists and equal to 3 Removable discontinuity: the limit of f exists at the point but f is not defined at that point.