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Continuity- L3

Objectives

  • Explain the three conditions for continuity at a point.
  • Describe three kinds of discontinuities.
  • Define continuity on an interval.
  • State the theorem for limits of composite functions.
  • Provide an example of the intermediate value theorem.

Summary

A function f has limit L as x a if and only if f has a left-hand limit at x = a , f has a right-hand limit at x = a , and the left- and right-hand limits are equal. Visually, this means that there can be a hole in the graph at x = a , but the function must approach the same single value from either side of x = a ,

A function f is continuous at x = a , whenever f ( a ) is defined, f has a limit as x a , and the value of the limit and the value of the function agree. This guarantees that there is not a hole or jump in the graph of f at x = a . So we say that 𝑓 is continuous at point 𝑥=𝑎 whenever

lim𝑥→𝑎 𝑓(𝑥) = 𝑓(𝑎)

that is to say that the following conditions are met:

1. lim𝑥→𝑎− 𝑓(𝑥) = 𝑓(𝑎) and

2. lim𝑥→𝑎+ 𝑓(𝑥) = 𝑓(𝑎).

 

A function f is differentiable at x = a whenever f ( a ) exists, which means that f has a tangent line at ( a , f ( a ) ) and thus f is locally linear at x = a . Informally, this means that the function looks like a line when viewed up close at ( a , f ( a ) ) and that there is not a corner point or cusp at ( a , f ( a ) ) .

Of the three conditions discussed in this section (having a limit at x = a , being continuous at x = a , and being differentiable at x = a , the strongest condition is being differentiable, and the next strongest is being continuous. In particular, if f is differentiable at x = a , then f is also continuous at x = a , and if f is continuous at x = a , then f has a limit at x = a ,

See the Desmos demonstration about Continuity.

See the Desmos demonstration about Continuity of Piecewise Functions.

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