Prove that for all x &gt; 0 , 1 + 2 ln &#x2061;<!-- ⁡ --> x &#x2264;<!-- ≤ -->

Amber Quinn

Amber Quinn

Answered question

2022-06-24

Prove that for all x > 0, 1 + 2 ln x x 2
Prove that for all x > 0
1 + 2 ln x x 2
How can one prove that?

Answer & Explanation

Marlee Norman

Marlee Norman

Beginner2022-06-25Added 18 answers

First, note the problem cannot be for all x R but, at most , for x > 0 (why?). Now, a simple calculus approach: define
f ( x ) := 1 + 2 log x x 2 f ( x ) = 2 x 2 x = 0 x = 1
and since f ( 1 ) = 2 < 0 , we get a maximum point at ( 1 , 0 ) , meaning that for all x < 0 we have
f ( x ) 0
Hailie Blevins

Hailie Blevins

Beginner2022-06-26Added 8 answers

Notice by the famous inequality e x 1 + x. We can rescale this and obtain
e x 1 x x 1 ln x 2 x 2 2 ln x
2 x 1 2 ln x + 1
Now, by using a + b 2 a b with a = x 2 and b = 1, we obtain
x 2 + 1 2 x x 2 2 x 1
Now, by transitivity,
x 2 2 ln x + 1
QED
Actually a shorter solution:
Since e x 1 + x, then e x 2 1 + x 2 . Translate this to obtain
e x 2 1 x 2 x 2 1 ln x 2 x 2 1 + 2 ln x

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