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Question
Solve the following differential equation:
`(y^2 - 2xy) "d"x = (x^2 - 2xy) "d"y`
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Solution
Given equation is (y2 – 2xy) dx = `(x^2 - 2xy) "d"y`
y2 – 2xy = `(x^2 - 2xy) ("d"y)/("dx)`
∴ The equation can written as
`(y^2 - 2xy)/(x^2 - 2xy) = ("d"y)/("d"x)`
∴ `("d"y)/("d"x) = (y^2 - 2xy)/(x^2 - 2xy)` .......(1)
This is a homogeneous differential equation
∴ Put y = vx
`("d"y)/("d"x) = "v"(1) + x "dv"/("d"x)`
∴ Equation (1) becomes,
`"v" + x "dv"/("d"x) = ("v"^2x^2 - 2x "v"x)/(x^2 - 2x "v"x)`
= `("v"^2x^2 - 2x^2"v")/(x^2 - 2x^2"v")`
∵ y = vx
y = v2x2
`"v" + x "dv"/("d"x) = (x^2("v"^2 - 2"v"))/(x^2(1 - 2"v"))`
`x "dv"/("d"x) = ("v"^2 - 2"v")/(1 - 2"v") - "v"`
= `("v"^2 - 2"v" - "v"(1 - 2"v"))/(1 - 2"v")`
= `("v"^2 - 2"v" - "v" + 2"v"^2)/(1 - 2"v")`
`x"v"/("d"x) = (3"v"^3 - 3"v")/(1 - 2"v")`
`((1 - 2"v"))/(3"v"^2 - 3"v") "dv" = ("d"x)/x`
Multpily by – 3 on both sides, we get
`((-3 + 6"v"))/(3"v"^2 - 3"v") "dv" = - 3 ("d"x)/x`
`((6"v" - 3))/(3"v"^2 - 3"v") "dv" = - 3 ("d"x)/x`
Integrating on both sides, we get
`int (6"v" - 3)/(3"v"^2 - "v") "dv" = - 3 int ("d"x)/x`
log (3v2 – 3v) = – 3 log x + log C
log (3v2 – 3v) = – log x3 + log C
= log c – log x3
log (3v2 – 3v) = `log "C"/x^3`
3v2 – 3v = `"C"/x^3`
`3(y/x)^2 - 3(y/x) = "C"/x^3`
y = vx
v = `y/x`
`3 y^2/x^2 - 3y/x = "C"/x^3`
`(3y^2 - 3xy)/x^2 = "C"/x^3`
`(x^3(3y^2 - 3xy))/x^2 = "C"/x^3`
3xy2 – 3x2y = C
3(xy2 – x2y) = C
xy2 – x2y = `"C"/3`
xy2 – x2y = C
∵ C = `"C"/3`
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