Consider the circel with centre at the point `(1,2)` and having the line `x =y` as a tangent. The area of the circel is

Find the equation of circle whose centre is the point (1,- 3) and touches the line 2x-y-4=0

The equation of the circel with cente at (1,-2) and passing through the centre of the given circle x ^(2) + y^(2) + 2y-3 =0, is

The value of c, for which the line y=2x+c is a tangent to the circle x^2+y^2=16 , is

Select the correct option from the given alternatives.Let A be the centre x^2+y^2-2x-4y-20=0 Suppose that the tangents at points B(1,7) and D(4,-2) on the circle meet at point C then the area of quadrilateral ABCD is…

Find the equation of a circle passing through the points (1,-4),(5,2) and having its centre on the line x-2y+9=0

The lines y = 2x + sqrt 76 and 2y + x=8 touch the ellipse (x ^(2))/(16 )+(y ^(2))/(12)=1. If the point of intersection of these two lines lie on a circle, whose centre coincides with the centre of that ellipse, then the equation of that circle is

Tangents are drawn from the origin to a circle with centre at (2,-1) . If the equation of one of the tangents is 3x+y=0 , the equation of the other tangent is

Tangent to the curve x^(2)=2y at the point (1, (1)/(2)) makes with the X-axes an angle of

Line y=x+asqrt2 is a tangent to the circle x^2+y^2=a^2 at