Question

How do you implicitly differentiate `-y=xy-xe^-y`?

Answer 1

`dy/dx=y/{x(x+1)(y+1)}.`

Explanation:

Since, the Problem is to be solved using Implicit Diffn., we will

first solve it accordingly.

`-y=xy-xe^-y rArr xe^-y=xy+y`

`:. d/dx(xe^-y)=d/dx(xy+y)=d/dx(xy)+d/dx(y)......................................"[Addition Rule]"`

By the Product Rule , then,

`xd/dxe^-y+e^-yd/dx(x)={xd/dx(y)+yd/dx(x)}+dy/dx,` i.e.,

`xd/dxe^-y+e^-y=xdy/dx+y+dy/dx... (star)`

To find `d/dx(e^-y),` we use the Chain Rule to get,

`d/dx(e^-y)=d/dy(e^-y)d/dx(-y)=(e^-y)(-dy/dx).`

Hence, continuing from `(star)`,

`-xe^-ydy/dx+e^-y=xdy/dx+y+dy/dx`

`:. e^-y-y=(xe^-y+x+1)dy/dx`

`rArr dy/dx=(e^-y-y)/(xe^-y+x+1)," &, as "e^-y=(xy+y)/x,` we have,

`dy/dx={(xy+y)/x-y}/(xy+y+x+1)=y/[x{y(x+1)+1(x+1)}], i.e.,`

`dy/dx=y/{x(x+1)(y+1)}.`

Enjoy Maths.!

Answer 2

`dy/dx=y/{x(x+1)(y+1)}.`

Explanation:

As a Second Method , we can solve the Problem without the

use of Implicit Diffn.

Let us rewrite the given eqn. as, `y=xe^-y-xy=x(e^-y-y),`

giving, `x=y/(e^-y-y).`

Diff.ing w.r.t. `y` using the Quotient Rule and the Chain Rule,

`dx/dy={(e^-y-y)d/dy(y)-yd/dy(e^-y-y)}/(e^-y-y)^2,` i.e.,

`dx/dy=[(e^-y-y)-y{(e^-y)(-1)-1}]/(e^-y-y)^2`

`=(e^-y-y+ye^-y+y)/(e^-y-y)^2`

`:. dx/dy=((y+1)e^-y)/(e^-y-y)^2`

`"Therefore, "dy/dx=(e^-y-y)^2/((y+1)e^-y).`

I leave it, as an exercise, to show that our both Answers match!