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The solution of the differential equatio...

The solution of the differential equation, `dy/dx=(x-y)^(2)`,
when `y(1)=1,` is

A

`-log _(e) |(1+x-y)/(1-x+y)|=x+y-2`

B

`log _(e) |(2-y)/(2-x)|=2 (y-1)`

C

`-log _(e) |( 1-x +y)/(1+ x-y)|=2 (x-1)`

D

`log _(e) |(2-x)/(2-y) |=x-y`

Text Solution

Verified by Experts

The correct Answer is:
C
`because (dy)/(dx) = (x-y) ^(2) " "…(i)`
Put `x -y =1implies 1-(dy)/(dx) =(dt)/(dx )implies (dy)/(dx ) =1 - (dt)/(dx) therefore` From (i) `1- (dt)/(dx) =t ^(2) implies 1-t ^(2) = (dt)/(dx) implies (dt)/(1-t ^(2)) =dx`
Integrating, `int (dt)/(1-t ^(2)) = int dx +C`
`1/2 ln |(1+t)/(1-t)| =x +C implies 1/2 ln (|1 + x -y)/(1-x + y|) =x +C " "...(ii)`
Given that `y (1) =1 implies C =-1`
`therefore` From (ii)
`1/2 ln |(1+x-y)/(1-x+y)|=x-1implies-ln |(1-x+y)/(1+x-y)|=2 (x -1)`
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