Proving the Property of Logarithms: Examples with Exponents

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The discussion revolves around the application of logarithmic properties to differentiate functions involving exponents. The original poster (OP) explores the transformation of y = x^{2/x} using logarithms, initially misapplying the property. Other participants clarify that the correct transformation is ln y = (2 ln x)/x, not (2/x)x, identifying the OP's mistake as a typo. The conversation concludes with the OP acknowledging the error. This highlights the importance of accuracy when applying logarithmic properties in calculus.
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Edit: I answered my own question, I guess this thread serves no purpose so mods, you can delete this.

y = x^2
ln y = ln x^2
ln y = 2 ln x

Can we do the same thing with:

y = x^{2/x}
ln y = ln x^{2/x}
ln y = \frac{2}{x} x

Would that be correct? I just want to make sure because I used this technique for differentiation.
 
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Doesn't: ln y = \frac{2}{x} x just make it 2 :p

But from what I remember about logs, yes you can do that..
 
The OP might have already figured this out, but ln x^{2/x} = \frac{2 ln(x)}{x}, not \frac{2}{x}x. Typo maybe?
 
gb7nash said:
The OP might have already figured this out, but ln x^{2/x} = \frac{2 ln(x)}{x}, not \frac{2}{x}x. Typo maybe?

Yep, it was a typo.
 

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