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3.5 Limits at Infinity

3.5 Limits at Infinity. Determine limits at infinity Determine the horizontal asymptotes, if any, of the graph of function. Standard 4.5a. Do Now: Complete the table. x decreases. x increases. f(x ) approaches 2. f( x ) approaches 2. Limit at negative infinity.

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3.5 Limits at Infinity

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  1. 3.5 Limits at Infinity Determine limits at infinity Determine the horizontal asymptotes, if any, of the graph of function. Standard 4.5a

  2. Do Now: Complete the table.

  3. x decreases x increases f(x) approaches 2 f(x) approaches 2

  4. Limit at negative infinity • Limit at positive infinity

  5. We want to investigate what happens when functions go To Infinity and Beyond…

  6. Definition of a Horizontal Asymptote The line y = L is a horizontal asymptote of the graph of f if

  7. Limits at Infinity If r is a positive rational number and c is any real number, then Furthermore, if xr is defined when x < 0, then

  8. Finding Limits at Infinity

  9. Finding Limits at Infinity is an indeterminate form

  10. Divide numerator and denominator by highest degree of x Simplify Take limits of numerator and denominator

  11. Guidelines for Finding Limits at± ∞ of Rational Functions If the degree of the numerator is < the degree of the denominator, then the limit is 0. If the degree of the numerator = the degree of the denominator, then the limit is the ratio of the leading coefficients. If the degree of the numerator is > the degree of the denominator, then the limit does not exist.

  12. For x < 0, you can write

  13. Limits Involving Trig Functions As x approaches ∞, sin x oscillates between -1 and 1. The limit does not exist. By the Squeeze Theorem

  14. Sketch the graph of the equation using extrema, intercepts, and asymptotes.

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