Advertisements
Advertisements
Question
Solve the following differential equation:-
y dx + (x − y2) dy = 0
Advertisements
Solution
We have,
\[y dx + \left( x - y^2 \right)dy = 0\]
\[ \Rightarrow y dx = - \left( x - y^2 \right)dy \]
\[ \Rightarrow \frac{dx}{dy} = - \frac{1}{y}\left( x - y^2 \right) \]
\[ \Rightarrow \frac{dx}{dy} + \frac{1}{y}x = y . . . . . . . . \left( 1 \right)\]
Clearly, it is a linear differential equation of the form
\[\frac{dx}{dy} + Px = Q\]
\[\text{where }P = \frac{1}{y}\text{ and }Q = y\]
\[ \therefore I . F . = e^{\int P\ dy} \]
\[ = e^{\int\frac{1}{y}dy} \]
\[ = e^{\log y = y}\]
Multiplying both sides of (1) by I . F . = y, we get
\[y\left( \frac{dx}{dy} + \frac{1}{y}x \right) = y \times y\]
\[ \Rightarrow y\frac{dx}{dy} + x = y^2 \]
Integrating both sides with respect to y, we get
\[xy = \int y^2 dy + C\]
\[ \Rightarrow xy = \frac{y^3}{3} + C\]
\[ \Rightarrow x = \frac{y^2}{3} + \frac{C}{y}\]
\[\text{Hence, }x = \frac{y^2}{3} + \frac{C}{y}\text{ is the required solution.}\]
APPEARS IN
RELATED QUESTIONS
Form the differential equation of the family of circles in the second quadrant and touching the coordinate axes.
Find the particular solution of the differential equation dy/dx=1 + x + y + xy, given that y = 0 when x = 1.
Verify that the given function (explicit or implicit) is a solution of the corresponding differential equation:
y = Ax : xy′ = y (x ≠ 0)
The number of arbitrary constants in the particular solution of a differential equation of third order are ______.
Show that the general solution of the differential equation `dy/dx + (y^2 + y +1)/(x^2 + x + 1) = 0` is given by (x + y + 1) = A (1 - x - y - 2xy), where A is parameter.
If y = etan x+ (log x)tan x then find dy/dx
Solve the differential equation `cos^2 x dy/dx` + y = tan x
Find the particular solution of the differential equation
`tan x * (dy)/(dx) = 2x tan x + x^2 - y`; `(tan x != 0)` given that y = 0 when `x = pi/2`
The solution of the differential equation \[\frac{dy}{dx} + \frac{2y}{x} = 0\] with y(1) = 1 is given by
The solution of the differential equation \[2x\frac{dy}{dx} - y = 3\] represents
The solution of the differential equation \[x\frac{dy}{dx} = y + x \tan\frac{y}{x}\], is
If m and n are the order and degree of the differential equation \[\left( y_2 \right)^5 + \frac{4 \left( y_2 \right)^3}{y_3} + y_3 = x^2 - 1\], then
The solution of the differential equation \[\frac{dy}{dx} + 1 = e^{x + y}\], is
The solution of the differential equation \[\frac{dy}{dx} = \frac{x^2 + xy + y^2}{x^2}\], is
(x2 + 1) dy + (2y − 1) dx = 0
\[\frac{dy}{dx} + 2y = \sin 3x\]
`x cos x(dy)/(dx)+y(x sin x + cos x)=1`
Find the particular solution of the differential equation \[\frac{dy}{dx} = - 4x y^2\] given that y = 1, when x = 0.
Solve the following differential equation:-
\[\frac{dy}{dx} - y = \cos x\]
Solve the following differential equation:-
\[x\frac{dy}{dx} + 2y = x^2 , x \neq 0\]
Solve the following differential equation:-
\[\left( x + y \right)\frac{dy}{dx} = 1\]
Find the equation of a curve passing through the point (0, 1). If the slope of the tangent to the curve at any point (x, y) is equal to the sum of the x-coordinate and the product of the x-coordinate and y-coordinate of that point.
Find the differential equation of all non-horizontal lines in a plane.
The solution of the differential equation `x "dt"/"dx" + 2y` = x2 is ______.
The general solution of the differential equation `"dy"/"dx" = "e"^(x - y)` is ______.
Find the general solution of `"dy"/"dx" + "a"y` = emx
Solve the differential equation dy = cosx(2 – y cosecx) dx given that y = 2 when x = `pi/2`
The differential equation for y = Acos αx + Bsin αx, where A and B are arbitrary constants is ______.
The number of solutions of `("d"y)/("d"x) = (y + 1)/(x - 1)` when y (1) = 2 is ______.
The general solution of ex cosy dx – ex siny dy = 0 is ______.
Integrating factor of the differential equation `("d"y)/("d"x) + y tanx - secx` = 0 is ______.
The solution of the differential equation `("d"y)/("d"x) + (1 + y^2)/(1 + x^2)` is ______.
The solution of the differential equation `("d"y)/("d"x) + (2xy)/(1 + x^2) = 1/(1 + x^2)^2` is ______.
General solution of the differential equation of the type `("d"x)/("d"x) + "P"_1x = "Q"_1` is given by ______.
Number of arbitrary constants in the particular solution of a differential equation of order two is two.
Find the particular solution of the differential equation `x (dy)/(dx) - y = x^2.e^x`, given y(1) = 0.
Solve the differential equation:
`(xdy - ydx) ysin(y/x) = (ydx + xdy) xcos(y/x)`.
Find the particular solution satisfying the condition that y = π when x = 1.
