Statement I The differential equation of...

Statement I The differential equation of all non-vertical lines in a plane is `(d^(2)x)/(dy^(2))=0.`
Satement II The general equation of all non-vertical lines in a plane is ax+by=1, where `b!=0.`

Statement I is true ,and Statement II is the correct explanation for Statement I.

Statement I is true, Statement II is true and Statement II is the correct explanation for Statment I

Statement I is true, Statement II is false.

Statement I is false, Statement II is true.

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

DIFFERENTIAL EQUATION
ARIHANT MATHS|Exercise Exercise (Passage Based Questions)|15 Videos
DIFFERENTIAL EQUATION
ARIHANT MATHS|Exercise Differential Equations Exerise 5 :|2 Videos
DIFFERENTIAL EQUATION
ARIHANT MATHS|Exercise Exercise (More Than One Correct Option Type Questions)|13 Videos
DETERMINANTS
ARIHANT MATHS|Exercise Exercise (Questions Asked In Previous 13 Years Exam)|18 Videos
DIFFERENTIATION
ARIHANT MATHS|Exercise Exercise For Session 10|4 Videos

Similar Questions

Explore conceptually related problems

Find the differential equation of all non- vertical lines in a plane.

The differential equation of all non-horizontal lines in a plane is

Find the differential equation of All non- vertical lines in a plane.

The differential equation of all the non-vertical lines in the xy-plane is

STATEMENT-1 : The differential equation of all non-horizontal lines in a plane (d^(2)y)/(dx^(2)) = 0 and STATEMENT-2 : The general equation of all non-horizontal line in xy plane is ax + by = 1, a != 0

Write the order of the differential equation of all non horizontal lines in a plane.

Find the differential equation of all lines in the xy- plane.

The differential equation of all lines parallel to the line 3x+2y+5=0 is

Statement 1: The differential equation of all circles in a plane must be of order 3. Statement 2: There is only one circle passing through three non-collinear points.

The differential equation of all straight lines passing through (0,2) is given as

ARIHANT MATHS-DIFFERENTIAL EQUATION -Exercise (Statement I And Ii Type Questions)

Statement I Differential equation corresponding to all lines, ax+by+c=...
Text Solution
|
Statement I Integral curves denoted by the first order linear differen...
Text Solution
|
Statement I The solution of (ydx-xdy)cos((x)/(y))=ny^(2)dx " is " sin(...
Text Solution
|
Statement 1 : The order of the differential equation whose general ...
Text Solution
|
Consider differential equation (x^(2)+1).(d^(2)y)/(dx^(2))=2x.(dy)/(dx...
Text Solution
|
Statement I Order of differential equation of family of parabola whose...
Text Solution
|
Statement I The differential equation of all non-vertical lines in a p...
Text Solution
|
Statement I The order of differential equation of all conics whose cen...
Text Solution
|
Statement I y=asin x+bcos x is general solution of y''+y=0. Statemen...
Text Solution
|

Statement I The differential equation of all non-vertical lines in a plane is `(d^(2)x)/(dy^(2))=0.` Satement II The general equation of all non-vertical lines in a plane is ax+by=1, where `b!=0.`

Text Solution

Topper's Solved these Questions

Similar Questions

ARIHANT MATHS-DIFFERENTIAL EQUATION -Exercise (Statement I And Ii Type Questions)

Statement I The differential equation of all non-vertical lines in a plane is `(d^(2)x)/(dy^(2))=0.`
Satement II The general equation of all non-vertical lines in a plane is ax+by=1, where `b!=0.`