If (alpha,beta) is a point on the circl...

If `(alpha,beta)` is a point on the circle whose center is on the x-axis and which touches the line `x+y=0` at `(2,-2),` then the greatest value of `alpha` is (a)`4-sqrt(2)` (b) 6 (c)`4+2sqrt(2)` (d) `+sqrt(2)`

Similar Questions

Explore conceptually related problems

If (alpha,alpha) is a point on the circle whose centre is on the x -axis and which touches the line x+y=0 at (2,-2), then the greatest value of 'alpha' is

If (alpha,beta) is the centre of the circle which touches the curve x^(2)+xy-y^(2)=4 at (2,2) and the line 3x-y+6=0 ,then the value of alpha+beta is equal to

The equation of the circle of radius 2sqrt(2) whose centre lies on the line x-y=0 and which touches the line x+y=4 , and whose centre is coordinate satisfy x+ygt4 , is

If (alpha,beta) is a point of intersection of the lines x cos theta+y sin theta=3 and x sin theta-y cos theta=4 where theta is parameter,then maximum value of 2(a+beta)/(sqrt(2)) is

The radius of a circle,having minimum area, which touches the curve y=4-x^(2) and the lines,y=|x| is: (a) 4(sqrt(2)+1)( b) 2(sqrt(2)+1) (c) 2(sqrt(2)-1)( d) 4(sqrt(2)-1)

Radius of the circle that passes through the origin and touches the parabola y^(2)=4ax at the point (a,2a) is (a) (5)/(sqrt(2))a (b) 2sqrt(2)a (c) sqrt((5)/(2))a (d) (3)/(sqrt(2))a

The value of int_(0)^(sqrt(2))[x^(2)]dx ,where [.] is the greatest integer function (A) 2-sqrt(2) (B) 2+sqrt(2) (C) sqrt(2)-1 (D) sqrt(2)-2

The line x-y+2=0 touches the parabola y^2 = 8x at the point (A) (2, -4) (B) (1, 2sqrt(2)) (C) (4, -4 sqrt(2) (D) (2, 4)

If alpha, and beta be t roots of the equation x^(2)+px-1/2p^(2)=0, where p in R. Then the minimum value of alpha^(4)+beta^(4) is 2sqrt(2) b.2-sqrt(2)c2d.2+sqrt(2)

If `(alpha,beta)` is a point on the circle whose center is on the x-axis and which touches the line `x+y=0` at `(2,-2),` then the greatest value of `alpha` is (a)`4-sqrt(2)` (b) 6 (c)`4+2sqrt(2)` (d) `+sqrt(2)`

Similar Questions

Recommended Questions