How do you determine whether the function $f(x)=x^8(ln(x))$ is concave up or concave down and its intervals?

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How do you determine whether the function $f(x)=x^8(ln(x))$ is concave up or concave down and its intervals?

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Answer 1 · 2015-10-15T20:49:36

See the explanation.

Explanation:

The intervals of concavity are determined by 2nd derivative. If 2nd derivative changes sign in the points where it is equal to zero, those points are inflection points.

$D_f=R^+$

$f'(x)=8x^7lnx+x^8 1/x=8x^7lnx+x^7=x^7(8lnx+1)$

$f''(x)=7x^6(8lnx+1)+x^7 8/x=7x^6(8lnx+1)+8x^6$

$f''(x)=x^6(56lnx+15)$

$f''(x)=0 <=> x^6(56lnx+15)=0 <=>$

$<=> (x^6=0 vv 56lnx+15=0)$

$x^6=0 <=> x=0 !in D_f$

$56lnx+15=0 <=> 56lnx=-15 <=> lnx=-15/56 <=>$

$<=> x=e^(-15/56) <=> x=1/root(56)(e^15) ~~ 0.765>0 in D_f$

$AAx in (0,1/root(56)(e^15)): f''(x)<0$ function is concave down

$AAx in (1/root(56)(e^15), oo): f''(x)>0$ function is concave up

Note: the sign of $f''(x)$ depends only on $56lnx+15$ since $x^6$ is always greater then zero for $x>0$ .

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How do you determine whether the function $f(x)=x^8(ln(x))$ is concave up or concave down and its intervals?

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Explanation:

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How do you determine whether the function $f(x)=x^8(ln(x))$ is concave up or concave down and its intervals?