The area between y^(2) = 4x and its latu...

The area between `y^(2) = 4x` and its latus rectum is

`(2)/(3)`

`(4)/(3)`

`(8)/(3)`

`(5)/(3)`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

APPLICATIONS OF INTEGRATION
PREMIERS PUBLISHERS|Exercise PROBLEMS FOR PRACTICE (CHOOSE THE CORRECT ANSWER) :|45 Videos
APPLICATIONS OF INTEGRATION
PREMIERS PUBLISHERS|Exercise Answer the following questions.|18 Videos
APPLICATIONS OF INTEGRATION
PREMIERS PUBLISHERS|Exercise SOLUTION TO EXERCISES 9.9|5 Videos
APPLICATIONS OF DIFFERENTIAL CALCULUS
PREMIERS PUBLISHERS|Exercise Problems For Practice (Answer the following question)|39 Videos
APPLICATIONS OF MATRICES AND DETERMINANTS
PREMIERS PUBLISHERS|Exercise PROBLEMS FOR PRACTICE (II. Answer the following)|15 Videos

Similar Questions

Explore conceptually related problems

The area bounded by the parabola y^(2) = x and its latus rectum is

Find the area of the parabola y^2=4ax and its latus rectum.

The area bounded by the parabola x^2=y and is latus rectum is :

L L ' is the latus sectum of the parabola y^2=4a xa n dP P ' is a double ordinate drawn between the vertex and the latus rectum. Show that the area of the trapezium P P^(prime)L L ' is maximum when the distance P P ' from the vertex is a//9.

If the normals to the parabola y^2=4a x at the ends of the latus rectum meet the parabola at Q and Q^(prime), then Q Q^(prime) is

If the focus of a parabola is (2, 3) and its latus rectum is 8, then find the locus of the vertex of the parabola.

Find the area of the triangle formed by the lines joining the vertex of the parabola x^2 = 12y to the ends of its latus rectum.

Find the equations of normal to the parabola y^2=4a x at the ends of the latus rectum.

Area lying between the curves y^(2) = 4x and y = 2x is

PREMIERS PUBLISHERS-APPLICATIONS OF INTEGRATION-SOLUTION TO EXERCISES 9.10

The value of int(0)^((2)/( 3)) (dx)/( sqrt(4-9x^(2)))is
Text Solution
|
The value of int(-1)^(2) |x| dx
Text Solution
|
For any value of n in Z , int(0)^(pi) e^(cos^(2)x) cos^(3) [( 2n +1) x...
Text Solution
|
The value of int(-(pi)/(2)) ^((pi)/(2)) sin^(2) x cos x dx is
Text Solution
|
The value of int(-4)^(4) [ tan^(-1)((x^(2))/( x^(4)+1)) +tan^(-1) ((x...
Text Solution
|
The value of int(-(pi)/(4))^((pi)/( 4)) ((2x^(7) - 3x^(5) + 7 x^(3) -...
Text Solution
|
If f(x) = int(0)^(x) t cos t dt, then (df)/(dx)
Text Solution
|
The area between y^(2) = 4x and its latus rectum is
Text Solution
|
The value of int(0)^(1) x ( 1-x ) ^(99) dx is
Text Solution
|
The value of int(0)^(pi) (dx)/(1+5^(cosx)) is :
Text Solution
|
The value of (r(n+2))/(r(n))=90 then n is
Text Solution
|
The value of int(0)^((pi)/(6)) cos ^(3) 3x dx
Text Solution
|
The value of int(0)^(pi) sin^(4) x dx is
Text Solution
|
The value of int(0)^(oo) e^(-3x) x^(2) dx is
Text Solution
|
If int(0)^(a) = ( 1)/( 4+x^(2))dx = ( pi)/( 8) then a is
Text Solution
|
The volume of solid of revolution of the region bounded by y^(2)= x( a...
Text Solution
|
If f(x) = int(1)^(x) ( e^(sinx )) /( u) du, x gt 1 and int(1)^(3) ( ...
Text Solution
|
The value of int(0)^(1) (sin^(-1) x ) ^(2) dx is
Text Solution
|
The value of int(0)^(a) ( sqrt(a^(2) -x^(2))) dx is
Text Solution
|
If int(0)^(x) f ( t) dt = x + int(x)^(1) tf (t) dt , then the value of...
Text Solution
|