The differential equation representing the family of ellipses having foci either on the x-axis or on the y-axis, centre at the origin and passing through the point $(0, 3)$ is :
- $xyy''+x (y')^2 - yy' = 0$
- $x+yy'' = 0$
- $xyy' + y^2 - 9 = 0$
- $xyy' - y^2 + 9 = 0$
The Correct Option is D
Solution and Explanation
And passes through the point $(0,3)$
$\Rightarrow \frac{x^{2}}{a^{2}}+\frac{y^{2}}{9}=1$
Now differentiate the E (1) with respect to $x$, we get
$\frac{2 x}{a^{2}}+\frac{2 y}{9} y^{\prime}=0 $
$\Rightarrow \frac{x}{a^{2}}=\frac{-y}{9} y'$
$ \Rightarrow \frac{1}{a^{2}}=\frac{-y}{9 x} y'$
From E (1) and E (2), differential equation is
$\frac{-x y}{9} y'+\frac{y'}{9}=1 $
$x y y'-y^{2}+9=0$
Top Questions on General and Particular Solutions of a Differential Equation
- Let \( \alpha, \beta (\alpha \neq \beta) \) be the values of m, for which the equations \(x + y + z = 1\), \(x + 2y + 4z = m\), and \(x + 4y + 10z = m^2\) have infinitely many solutions. Then the value of \(\sum_{n=1}^{10} (n^4 + n^8)\) is equal to:
- JEE Main - 2025
- Mathematics
- General and Particular Solutions of a Differential Equation
If the roots of $\sqrt{\frac{1 - y}{y}} + \sqrt{\frac{y}{1 - y}} = \frac{5}{2}$ are $\alpha$ and $\beta$ ($\beta > \alpha$) and the equation $(\alpha + \beta)x^4 - 25\alpha \beta x^2 + (\gamma + \beta - \alpha) = 0$ has real roots, then a possible value of $y$ is:
- AP EAMCET - 2024
- Mathematics
- General and Particular Solutions of a Differential Equation
- Find the integrating factor of the differential equation \( \sin x \frac{dy}{dx} - y \cos x = 1 \):
- AP EAMCET - 2024
- Mathematics
- General and Particular Solutions of a Differential Equation
- If five-digit numbers are formed from the digits 0, 1, 2, 3, 4 using every digit exactly only once, then the probability that a randomly chosen number from those numbers is divisible by 4 is
- AP EAMCET - 2024
- Mathematics
- General and Particular Solutions of a Differential Equation
- If \( z = x+iy \), \( x^2+y^2 = 1 \) and \( z_1 = e^{i\theta} \), then the expression \( \frac{z_1^{2n-1} - 1}{z_1^{2^n-1} + 1} \) simplifies to:
- AP EAMCET - 2024
- Mathematics
- General and Particular Solutions of a Differential Equation
Questions Asked in JEE Main exam
Consider the following sequence of reactions :
Molar mass of the product formed (A) is ______ g mol\(^{-1}\).- JEE Main - 2025
- Organic Chemistry
- A wire of resistance R is bent into an equilateral triangle and an identical wire is bent into a square. The ratio of resistance between the two end points of an edge of the triangle to that of the square is:
- JEE Main - 2025
- electrostatic potential and capacitance
- Three infinitely long wires with linear charge density \( \lambda \) are placed along the x-axis, y-axis and z-axis respectively. Which of the following denotes an equipotential surface?
- JEE Main - 2025
- electrostatic potential and capacitance
Two capacitors \( C_1 \) and \( C_2 \) are connected in parallel to a battery. Charge-time graph is shown below for the two capacitors. The energy stored with them are \( U_1 \) and \( U_2 \), respectively. Which of the given statements is true?
- JEE Main - 2025
- electrostatic potential and capacitance
Given below are two statements: one is labelled as Assertion (A) and the other is labelled as Reason (R).
Assertion (A): Time period of a simple pendulum is longer at the top of a mountain than that at the base of the mountain.
Reason (R): Time period of a simple pendulum decreases with increasing value of acceleration due to gravity and vice-versa. In the light of the above statements, choose the most appropriate answer from the options given below:- JEE Main - 2025
- electrostatic potential and capacitance
Concepts Used:
General Solutions to Differential Equations
A relation between involved variables, which satisfy the given differential equation is called its solution. The solution which contains as many arbitrary constants as the order of the differential equation is called the general solution and the solution free from arbitrary constants is called particular solution.
For example,
Read More: Formation of a Differential Equation