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Section 1.5: Infinite Limits

Section 1.5: Infinite Limits. Vertical Asymptote. If f ( x ) approaches infinity (or negative infinity) as x approaches c from the right or the left, then the line x = c is a vertical asymptote of the graph of f . . Infinite Limits.

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Section 1.5: Infinite Limits

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  1. Section 1.5: Infinite Limits

  2. Vertical Asymptote If f(x) approaches infinity (or negative infinity) as x approaches c from the right or the left, then the line x = cis a vertical asymptote of the graph of f.

  3. Infinite Limits The function f increases without bound as x approaches c from either side The function gdecreases without bound as x approaches c from either side.

  4. Example 1 Use the graph and complete the table to find the limit (if it exists). -100 -10000 DNE -1000000 -1000000 -10000 -100 If the function behaves the same around an asymptote, then the infinite limit exists. The function decreases without bound as x approaches 2 from either side.

  5. Example 2 Use the graph and complete the table to find the limit (if it exists). -10 -100 DNE -1000 1000 100 10 If the function behaves the different around an asymptote, then the infinite limit does not exist. The function increases without bound as x approaches 2 from the right and decreases without bound as x approaches 2 from the left.

  6. Example 3 Use the graph and complete the table to find the limits (if they exist). -10 -100 DNE -1000 1000 100 10 One-Sided Infinite Limits do Exist The function increases without bound as x approaches 2 from the right and decreases without bound as x approaches 2 from the left.

  7. The Existence of a Vertical Asymptote Big Idea: x = c is a vertical asymptote if c ONLY makes the denominator zero. Ex: Determine all vertical asymptotes of . When is the denominator zero: Do the x’s make the numerator 0? No for both x=1 and x=-1 are vertical asymptotes Must have equations for asymptotes If is continuous around c and g(x) ≠ 0 around c, then x = cis a vertical asymptote of h(x) if f(c) ≠ 0 and g(c) = 0.

  8. Example 2 Determine all vertical asymptotes of . When is the denominator zero: Do the x’s make the numerator 0? Yes… No! x=2 is a vertical asymptote EXTRA: What about x = -1? Therefore, x=1 is a removable discontinuity

  9. Example 3 Analytically determine all vertical asymptotes of We Know: When is the denominator zero: Do the x’s make the numerator 0? No, since the numerator is a constant. 0 and π are angles that make sine 0 Find all of the values since trig functions are cyclic

  10. Example 3 Cont. Analytically determine all vertical asymptotes of Check with the graph

  11. Properties of Infinite Limits • Sum/Difference: • Product: • Quotient: • Example: Since , then Let c and L be real numbers and f and g be functions such that:

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