Advertisements
Advertisements
प्रश्न
Solve the following differential equation:-
\[x\frac{dy}{dx} + 2y = x^2 \log x\]
Advertisements
उत्तर
We have,
\[x\frac{dy}{dx} + 2y = x^2 \log x\]
Dividing both sides by `x,` we get
\[\frac{dy}{dx} + \frac{2y}{x} = x \log x\]
\[\text{Comparing with }\frac{dy}{dx} + Py = Q,\text{ we get}\]
\[P = \frac{2}{x} \]
\[Q = x \log x\]
Now,
\[I . F . = e^{\int P\ dx} \]
\[ = e^{\int\frac{2}{x}dx} \]
\[ = e^{2\log\left| x \right|} \]
\[ = x^2 \]
So, the solution is given by
\[y \times I . F . = \int Q \times I . F . dx + C\]
\[ \Rightarrow x^2 y = \log x\int x^3 dx - \int\left[ \frac{d}{dx}\left( \log x \right)\int x^3 dx \right]dx + C\]
\[ \Rightarrow x^2 y = \frac{x^4 \log x}{4} - \int\frac{x^3}{4}dx + C\]
\[ \Rightarrow x^2 y = \frac{x^4 \log x}{4} - \frac{x^4}{16} + C\]
\[ \Rightarrow y = \frac{x^2 \log x}{4} - \frac{x^2}{16} + \frac{C}{x^2}\]
\[ \Rightarrow y = \frac{x^2}{16}\left( 4\log x - 1 \right) + C x^{- 2}\]
APPEARS IN
संबंधित प्रश्न
Solve : 3ex tanydx + (1 +ex) sec2 ydy = 0
Also, find the particular solution when x = 0 and y = π.
Find the particular solution of the differential equation
(1 – y2) (1 + log x) dx + 2xy dy = 0, given that y = 0 when x = 1.
Find the particular solution of the differential equation `dy/dx=(xy)/(x^2+y^2)` given that y = 1, when x = 0.
Solve the differential equation `dy/dx -y =e^x`
Verify that the given function (explicit or implicit) is a solution of the corresponding differential equation:
x + y = tan–1y : y2 y′ + y2 + 1 = 0
Verify that the given function (explicit or implicit) is a solution of the corresponding differential equation:
`y = sqrt(a^2 - x^2 ) x in (-a,a) : x + y dy/dx = 0(y != 0)`
Find the general solution of the differential equation `dy/dx + sqrt((1-y^2)/(1-x^2)) = 0.`
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
How many arbitrary constants are there in the general solution of the differential equation of order 3.
The general solution of the differential equation \[\frac{dy}{dx} = \frac{y}{x}\] is
The solution of the differential equation x dx + y dy = x2 y dy − y2 x dx, is
The solution of the differential equation \[\left( 1 + x^2 \right)\frac{dy}{dx} + 1 + y^2 = 0\], is
The number of arbitrary constants in the particular solution of a differential equation of third order is
The general solution of the differential equation ex dy + (y ex + 2x) dx = 0 is
(x + y − 1) dy = (x + y) dx
(x3 − 2y3) dx + 3x2 y dy = 0
\[x\frac{dy}{dx} + x \cos^2 \left( \frac{y}{x} \right) = y\]
\[\left( 1 + y^2 \right) + \left( x - e^{- \tan^{- 1} y} \right)\frac{dy}{dx} = 0\]
Solve the differential equation:
(1 + y2) dx = (tan−1 y − x) dy
Find the particular solution of the differential equation \[\frac{dy}{dx} = - 4x y^2\] given that y = 1, when x = 0.
For the following differential equation, find a particular solution satisfying the given condition:- \[\cos\left( \frac{dy}{dx} \right) = a, y = 1\text{ when }x = 0\]
Solve the following differential equation:-
\[\frac{dy}{dx} - y = \cos x\]
Solve the following differential equation:-
\[\frac{dy}{dx} + \frac{y}{x} = x^2\]
Solve the following differential equation:-
\[\left( x + 3 y^2 \right)\frac{dy}{dx} = y\]
Find the equation of a curve passing through the point (−2, 3), given that the slope of the tangent to the curve at any point (x, y) is `(2x)/y^2.`
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.
Solve the differential equation: `(d"y")/(d"x") - (2"x")/(1+"x"^2) "y" = "x"^2 + 2`
Form the differential equation having y = (sin–1x)2 + Acos–1x + B, where A and B are arbitrary constants, as its general solution.
Solve: `y + "d"/("d"x) (xy) = x(sinx + logx)`
If y = e–x (Acosx + Bsinx), then y is a solution of ______.
Integrating factor of the differential equation `("d"y)/("d"x) + y tanx - secx` = 0 is ______.
The differential equation for which y = acosx + bsinx is a solution, is ______.
The solution of the differential equation ydx + (x + xy)dy = 0 is ______.
The solution of differential equation coty dx = xdy is ______.
Find the particular solution of the following differential equation, given that y = 0 when x = `pi/4`.
`(dy)/(dx) + ycotx = 2/(1 + sinx)`
The differential equation of all parabolas that have origin as vertex and y-axis as axis of symmetry is ______.
