Evaluate the limit.lim x → ∞ ln(ln(9x))9x
Question
Evaluate the limit.lim x → ∞ ln(ln(9x))9x
Solution
To evaluate the limit of the function as x approaches infinity, we can use L'Hopital's Rule. This rule states that the limit of a quotient of two functions as x approaches a certain value is equal to the limit of the quotients of their derivatives.
The function we are dealing with is ln(ln(9x))/9x.
First, we need to find the derivative of the numerator and the denominator.
The derivative of ln(ln(9x)) is 1/(ln(9x)) * 1/x = 1/(xln(9x)).
The derivative of 9x is 9.
Now, we substitute these derivatives back into the function and take the limit as x approaches infinity:
lim (x → ∞) [1/(xln(9x))/9] = lim (x → ∞) [1/(9xln(9x))].
As x approaches infinity, the function approaches 0. Therefore, the limit of the function as x approaches infinity is 0.
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