Question

Mitchell asked Apr 17, 2022

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1 Answer

Jonathan Roth · Answer 1 · 2022-04-21T22:49:09+0000

Answer:

$(dy)/(dx) = - \frac{ {x}^(3) }{ {y}^(3) }$

Explanation:

Differentiate both sides of the equation (consider y as a function of x).

$(d)/(dx) ( {x}^(4) + {y}^(4) (x)) = (d)/(dx) (16)$

the derivative of a sum/difference is the sum/difference of derivatives.

$( (d)/(dx) ( {x}^(4) + {y}^(4) (x))$

$= ( (d)/(dx) ( {x}^(4) ) + (d)/(dx) ( {y}^(4) (x)))$

the function of y^4(x) is the composition of f(g(x)) of the two functions.

the chain rule:

(d)/(dx) (f(g(x))) = (d)/(du) (f(u)) (d)/(dx) (g(x))

$= ( (d)/(du) ( {u}^(4) ) (d)/(dx) (y(x))) + (d)/(dx) ( {x}^(4) )$

apply the power rule:

$(4 {u}^(3) ) (d)/(dx) (y(x)) + (d)/(dx) ( {x}^(4) )$

return to the old variable:

$4(y(x) {)}^(3) (d)/(dx) (y(x)) + (d)/(dx) ( {x}^(4) )$

apply the power rule once again:

$4 {y}^(3) (x) (d)/(dx) (y(x)) + (4 {x}^(3) )$

simplify:

$4 {x}^(3) + 4 {y}^(3) (x) (d)/(dx) (y(x))$

$= 4( {x}^(3) + {y}^(3) (x) (d)/(dx) (y(x)))$

$= (d)/(dx) ( {x}^(4) + {y}^(4) ))$

$= 4( {x}^(3) + {y}^(3) (x) (d)/(dx)(y(x)))$

differentiate the equation:

( (d)/(dx) (16)) = (0)

= (d)/(dx) (16) = 0

derivative:

$4 {x}^(3) + 4 {y}^(3) (dy)/(dx) = 0$

$(dy)/(dx) = - \frac{ {x}^(3) }{ {y}^(3) }$

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