The length of major ofthe ellipse `(5x-10)^2 +(5y+15)^2 = 1/4(3x-4y+7)^2` is

The length of the major axis of the ellipse 3x^2+2y^2-6x8y-1=0 is

The length of latus-rectum of the ellipse 3x^(2) + 4y^(2) - 6x + 8y - 5 = 0 is (i) 3 (ii) (3)/(2) (iii) (sqrt(3))/(2) (iv) none of these

Equation of one of the latusrectum of the hyperbola (10x - 5)^2 + (10y - 2)^2 = 9(3x + 4y - 7)^2 is

Statement 1: The line x-y-5=0 cannot be normal to the parabola (5x-15)^2+(5y+10)^2=(3x-4y+2)^2dot Statement 2: Normal to parabola never passes through its focus.

An ellipse is drawn by taking a diameter of the circle (x-1)^2+y^2=1 as its semi-minor axis and a diameter of the circle x^2+(y-2)^2=4 as its semi-major axis. If the centre of the ellipse is the origin and its axes are the coordinate axes, then the equation of the ellipse is (1) 4x^2+""y^2=""4 (2) x^2+""4y^2=""8 (3) 4x^2+""y^2=""8 (4) x^2+""4y^2=""16

The angle between the normals of ellipse 4x^2 + y^2 = 5 , at the intersection of 2x+y=3 and the ellipse is (A) tan^(-1) (3/5) (B) tan^(-1) (3/4) (C) tan^(-1) (4/3) (D) tan^(-1) (4/5)

If radius of the director circle of the ellipse ((3x+4y-2)^(2))/(100)+((4x-3y+5)^(2))/(625) =1 is

Find the eccentricity ,coordinates of foci, length of the latus rectum of the following ellipse: 5x^2+4y^2=1

The eccentricity of the ellipse 5x^2+9y^2=1 is a. 2//3 b. 3//4 c. 4//5 d. 1//2

The eccentricity of the ellipse 5x^2+9y^2=1 is a. 2//3 b. 3//4 c. 4//5 d. 1//2