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1.06 Limits involving infinity. Limit the expected / intended value of a function A limit can involve ∞ in two ways: You can expect a limit to be equal to ±∞ (vertical asymptote, limit DNE) You can expect a value of a function as x approaches ±∞ (horizontal asymptote).
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Limit the expected / intended value of a function • A limit can involve ∞ in two ways: • You can expect a limit to be equal to ±∞ (vertical asymptote, limit DNE) • You can expect a value of a function as x approaches ±∞ (horizontal asymptote) Limits involving infinity
As x approaches 3, the value of this function approaches ∞… the limit does not exist Example 1
Example 2 From right RHL ≠ LHL; neither limit has a defined value From left
When you cannot “get rid of” division by zero in a limit, this represents a vertical asymptote The limit approaches ±∞ The limit does not exist Example 3
As x gets larger and larger (approaches ∞) what is the intended value of this function? Limits at infinity – example 4
If no horizontal asymptote exists Example 5
To evaluate without graphing, we have to examine the simple limit, Using a calculator we can quickly determine that Asymptotes without a graph
In fact, through some investigating, we can determine that for any constant c and any power n>1 Asymptotes without a graph
To evaluate without graphing, you perform a factoring technique to reduce each term to lowest terms. Asymptotes without a graph
Look for the highest power of x and divide each term by this power. Asymptotes without a graph
Then reduce Asymptotes without a graph
Now we can use the fact that to remove/simplify our example Asymptotes without a graph
