Why does a^x = e^(x(lna)) and how can this help with finding the derivative?

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Discussion Overview

The discussion centers around the mathematical expression a^x = e^(x(lna)) and its implications for finding the derivative of the function a^x. Participants explore the reasoning behind this transformation, its validity, and its application in calculus, particularly in the context of using the chain rule for differentiation.

Discussion Character

  • Exploratory
  • Mathematical reasoning
  • Technical explanation

Main Points Raised

  • One participant questions the reasoning behind the transformation of a^x to e^(x(lna)), seeking clarification on its validity.
  • Another participant provides a mathematical manipulation showing that a^x can be expressed as (e^(ln(a)))^x, suggesting a pathway to understand the transformation.
  • A participant confirms their understanding of the transformation by relating e^(ln(a)) to a and applying properties of exponents.
  • One participant outlines a step-by-step derivation involving taking the natural logarithm of both sides and using properties of logarithms and exponents to arrive at the expression e^(x * ln(a)) = a^x.
  • Another participant presents an alternative perspective by connecting the expression e^(x * ln(a)) to the property of logarithms, emphasizing the relationship between exponential and logarithmic functions.

Areas of Agreement / Disagreement

Participants generally agree on the validity of the transformation a^x = e^(x(lna)) and its utility in differentiation, though the discussion includes various approaches and explanations without a single consensus on the most clear or effective method.

Contextual Notes

Some participants reference their textbooks and personal understanding, indicating that there may be variations in how this concept is taught or understood, which could affect the clarity of the explanations provided.

Who May Find This Useful

Students studying calculus, particularly those looking to understand the differentiation of exponential functions and the application of logarithmic identities.

jessepye
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Hi every one, first post, so let me know if I'm not following any of the rules.

I'm studying Calculus, looking at the rules for deriving the function a^x. The first step is to change a^x to e^(x(lna)). From there, it's easy to use the chain rule to find the derivative.

Why can you do that first step though? I've tried googling around, and can't find an explanation.

Also, any tips on doing google searches for this kind of topic? I've tried pasting the equation into google; doing searches for "natural log" guides, "e" guides, and a browsed a few precalculus sites, but haven't found the answer I'm looking for.

Thanks!
 
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ax=(eln(a))x

Do you see what to do from there?
 
Ah! I get it now.

(elna) is equal to a

and

(ab)c = ab*c

so

ax = (eln(a))x = eln(a)*x

Thanks for the super fast reply! I feel silly for not figuring that out sooner.
 
EDIT You got it before I typed this

I think this is right, I'm just trying to remember it off the top of my head as my textbook is in school.

Let the value of a^{x} be equal to y

a^{x} = y

Take natural log of both sides

ln(a^{x}) = ln(y)

Then we can bring the exponent out of the bracket

x * ln(a) = ln(y)

Then we put both sides as the power of e to cancel the ln on the right

e^{x * ln(a)} = e^{ln(y)}

e^{x * ln(a)} = y

Then since a^{x} = y we sub that in for y and get

e^{x * ln(a)} = a^{x}
 
Another way to see the same thing is to note that aln(x)= ln(x^a) so that e^{xln(a)}= e^{ln(a^x)}. Then, because "f(x)= e^x" and "g(x)= ln(x)" are inverse functions, e^{ln(a^x)}= a^x.
 

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