The differential equation representing t...

The differential equation representing the family of curves `y^2=2c(x+sqrt(c)),` where `c` is a positive parameter, is of

(a) order 1

(b) order 2

(d) degree 4

Text Solution

Verified by Experts

The correct Answer is:

(a,c)

given, `y^(2) =2c(x+sqrt(c)) …(i)`
On differentiating w.r.t.x, we get
`2ydy/dx=2c rArr c=y dy/dx`
on putting this value of c in Eq. (i), we get
`y^(2) =2ydy/dx(x+sqrt(ydy/dx))`
`rArr y=2dy/dx cdot x+2y^(1//2) (dy/dx)^(3//2)`
`rArr y-2xdy/dx=2sqrt(y)(dy/dx)^(3//2)`
`rArr (y-2xdy/dx)^(2) =4y(dy/dx)^(3)`
Therefore, order of this differential equation is 1 and
degree is 3.

Similar Questions

Explore conceptually related problems

The differential equation representing the family of curves y^(2) = 2c (x +c^(2//3)) , where c is a positive parameter , is of

The differential equation representing the family of curves y^(2)=2c(x+c^(2//3)) , where c is a positive parameter, is of

The differentiala equation representing the family of curves y^(2)=2k(x+sqrtk) where k is a positive parameter, is of

The differential equation representing the family of curves y^(2)=2c(x+sqrt(c)) ,where c>0 ,is a parameter,is of order and degree as follows: (A) order 1 ,degree 2 (B) order 1 ,degree 1 (C) order 1 ,degree 3 (D) order 2 ,degree 2

The differential equation representing the family of curves y^2=2c(x+sqrt(c)) where c gt 0 is a parameter, is of order and degree as follows: (A) order 1, degree 3 (B) order 2, degree 2 (C) order 1, degree 2 (D) order 1, degree 1

The DE representing the family of curves y^2 =(2c + x^(2021) ) where c is the positive parameter is of?

The differential equation representing the family of curves y=xe^(cx) (c is a constant )is

The differential equation representing the family of curves `y^2=2c(x+sqrt(c)),` where `c` is a positive parameter, is of

Text Solution

Similar Questions

Recommended Questions