Home
Class 12
MATHS
Form the differential equation of the fa...

Form the differential equation of the family of ellipse having foci on Y-axis and centre at origin.

Text Solution

Verified by Experts

The correct Answer is:
`0`
Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • DIFFERENTIAL EQUATION

    ARIHANT PUBLICATION|Exercise QUESTIONS FOR PRACTICE OF PART -II (VERY SHORT ANSWER TYPE)|17 Videos

  • DIFFERENTIAL EQUATION

    ARIHANT PUBLICATION|Exercise QUESTIONS FOR PRACTICE OF PART -II (SHORT ANSWER TYPE)|14 Videos

  • DIFFERENTIAL EQUATION

    ARIHANT PUBLICATION|Exercise QUESTIONS FOR PRACTICE OF PART -I (SHORT ANSWER TYPE)|10 Videos

  • DETERMINANTS

    ARIHANT PUBLICATION|Exercise CHAPTER PRACTICE |39 Videos

  • INTEGRATION

    ARIHANT PUBLICATION|Exercise CHAPTER PRACTICE (6 MARK)|4 Videos

Similar Questions

Explore conceptually related problems

Form the differential equation representing the family of ellipses having foci on the X-axis and centre at the origin.

Form the differential equation of y=e^(mx) .

Form the differential equation of the family of circles having centre on Y -- axis and radius 3 units.

Form the differential equation of the family of all curves of radius r.

Find the differential equation of the family of all straight lines.

Form the differential equation of the family of circles touching the X-axis at origin.

Find the differential equation of the family of concentric circles having centre (0, 0).

Form the differential equation of the family of curves y = alpha sin(x+b), where a and b are arbitrary constants.

Form the differential equation , whose solution is y=e^(x+a)

What is the order of the differential equation of all circles of radius r having centre on y-axis and passing through the origin ?

Home
Profile