Limit of one to the power of infinity

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Homework Help Overview

The discussion revolves around evaluating the limit of the product of two functions as x approaches 0, specifically where one function approaches 1 and the other approaches infinity. The context involves understanding limits and the application of exponential forms in calculus.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants explore rewriting the functions to apply known limits, particularly the limit involving e. There are attempts to manipulate the expressions to find a suitable form for evaluation.

Discussion Status

Several participants have offered insights and alternative forms for the limit, with some suggesting the use of L'Hôpital's rule. There is an ongoing exploration of related limits and the implications of different rates at which variables approach zero.

Contextual Notes

Participants express confusion regarding the behavior of limits involving different powers and the significance of the rates at which these powers approach zero. There is a recognition of the complexity in the relationships between the functions involved.

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Homework Statement


Find limit x->0 (f(x))g(x).
Here limit x->0 f(x) = 1 and limit x->0 g(x) = ∞

Homework Equations


I know that limit x->0 (1 + x)1/x = e ... (1)

The Attempt at a Solution


I have the answer which is elimit x->0 (f(x) - 1) * g(x)
But I don't know how to proceed. I have to somehow use equation (1) but how?
 
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Try writing f(x) = 1 + [f(x) - 1]. Also, note that (1+u) = [(1+u)^{1/u}]^u.
 
Okay I got some idea. Is this right?

f(x)g(x) = ((1 + f(x) -1)1/(f(x) - 1))(f(x) - 1) * g(x)
Since (1 + f(x) -1)1/(f(x) - 1) = e ... using (1)
∴ ans = e(f(x) - 1) * g(x)
 
Note that this can be written as:
e^{g\ln(f)}=e^{\frac{\ln(f)}{\frac{1}{g}}}
The main fraction in the exponent is of L'Hopital niceness.
In theory, that is!
 
Now that I asked this question I have another related doubt.
This isn't really related to the original question but a general limits doubt.

We know that (1 + x)1/x = e as x → 0
But why isn't (1 + x2)1/x = e as x → 0

Does the fact that x2 approaches 0 faster than x change the value of the limit? But if the power was also x2 instead of x then the limit would be e. How come?
 
"But if the power was also x2 instead of x then the limit would be e. How come?"
Because it is the ratio of the RATES by which they tend to zero that is critical for what the value will be.

Look at (1+2x)^(1/x), for example. Here, x goes to zero twice as fast than 2x, meaning the limit is e^(2), rather than e
 
arildno said:
"But if the power was also x2 instead of x then the limit would be e. How come?"
Because it is the ratio of the RATES by which they tend to zero that is critical for what the value will be.

Look at (1+2x)^(1/x), for example. Here, x goes to zero twice as fast than 2x, meaning the limit is e^(2), rather than e
Oh ok, yes. Thank you!

arildno said:
Note that this can be written as:
e^{g\ln(f)}=e^{\frac{\ln(f)}{\frac{1}{g}}}
The main fraction in the exponent is of L'Hopital niceness.
In theory, that is!
I didn't understand the R.H.S.
Is e^{\frac{\ln(f)}{\frac{1}{g}}} = e^{f-1*g}
 
I didn't read your question properly, so unfortunately, I gave a wholly irrelevant answer. Sorry about that..
 

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