Let x > 0, prove x^2 + 1 > lnx?

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Let x > 0, prove x^2 + 1 > lnx?

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Answer 1 · 2018-06-22T19:27:40

Two cases: $0 < x < 1$ $0 < x < 1$ and $x \geq 1$ $x ge 1$

For $x < 1$ $x<1$ the left side $x^{2} + 1$ $x^2 +1$ is positive and the right side $ln x$ $ln x$ is negative, so the statement is true.

For $x \geq 1$ $x ge 1$ consider

$f (x) = x^{2} + 1 - ln x$ $f(x) = x^2 + 1 - ln x$

$f'(x) = 2x - 1/x$

For all $x ge 1$ we see $f'(x) > 0$ so $f$ is increasing over the domain $x ge 1.$ Since $f(1)=2>0$ and $f$ is increasing, we have $f(x)>0$ for all $x ge 1$ or

$x^2 +1 > ln x$

We've shown both cases, so this is true for all $x >0.$

Answer 2 · 2018-06-22T19:28:03

As $d/dx lnx=1/x$ grows much slower than $d/dx (x^2+1)=2x$ , it follows that $x^2+1>lnx$

Explanation:

For any number $0 < x <= 1$ we have $lnx=<0$ , so it's quite obvious that in this interval $x^2+1>lnx$ in this interval.

$d/dx lnx=1/x$ (I won't prove it here - you can find the proof on the net.
As $d/dx (x^2+1)=2x$ we can see that $x^2+1$ increases much faster than $lnx$ . It, therefore, follows that $x^2+1>lnx$

Graphically it is quite clear:

enter image source here

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Let x > 0, prove x^2 + 1 > lnx?

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