How do you find the first and second derivative of $x^lnx$ ?

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Answer 1 · 2018-01-22T10:34:09

$d/dx x^(lnx) = (2lnx) x^(lnx-1)$

$(d^2)/dx^2 x^(lnx) = 2x^(lnx-2) (2ln^2x -lnx + 1)$

Write the function as:

$x^(lnx) = (e^lnx)^(lnx) = e^(ln^2x)$

then using the chain rule:

$d/dx x^(lnx) = e^(ln^2x) d/dx (ln^2x) = x^(lnx)(2lnx)/x$

and using the product rule:

$(d^2)/dx^2 x^(lnx) = (2lnx)/x d/dx x^(lnx) + x^(lnx) d/dx (2lnx)/x$

$(d^2)/dx^2 x^(lnx) = (4ln^2x)/x^2 x^(lnx) + 2x^(lnx) (1-lnx)/x^2$

$(d^2)/dx^2 x^(lnx) = x^(lnx) (4ln^2x -2lnx + 2)/x^2$

Note now that:

$x^(lnx)/x = x^(lnx)*x^-1 = x^(lnx-1)$

so we can simplify as:

$d/dx x^(lnx) = (2lnx) x^(lnx-1)$

$(d^2)/dx^2 x^(lnx) = 2x^(lnx-2) (2ln^2x -lnx + 1)$

How do you find the first and second derivative of x^lnxx^lnx?