The parabola `y^(2)=4x+1` divides the disc `x^(2)+y^(2) le 1` into two regions with areas `A_(1)` and `A_(2)`. Then `|A_(1)-A_(2)|` equal

" Consider an ellipse "E:(x^2)/(16)+(y^2)/(12)=1" and a parabola P whose " , " vertex is "(-sqrt(3),0)" and focus is the origin " , " If the parabola P divides the ellipse E into two " , regions whose areas are A_(1) and A_(2) (A_(1) lt A_(2)) then (A_(1))/(A_(2)) equals

The line x = (pi)/(4) divides the area of the region bounded by y = sin x, y = cos x and X-axis (0lexle(pi)/(2)) into two regions of areas A_(1) and A_(2) . Then, A_(1) : A_(2) equals

The line x=(pi)/(4) divides the area of the region bounded by y=sinx,y=cosx and x-axis (0ltxlt(pi)/(2)) into two regions of areas A_(1)andA_(2) . Then A_(1):A_(2)

If the line x-1=0 divides the area bounded by the curves 2x+1=sqrt(4y+1),y=x and y=2 in two regions of area A_(1) and A_(2)(A_(1)

Let the circle x^(2)+y^(2)=4 divide the area bounded by tangent and normal at (1,sqrt(3)) and X -axis in A_(1) and A_(2). Then (A_(1))/(A_(2)) equals to

Let the straight line y=k divide the area enclosed by x=(1-y)^(2) , x=0 and y=0 into two parts of areas, A_(1)(0 <= y <= k) and A_(2)(k <= y <= 1) such that (A_(1))/(A_(2))=7. Then (1)/(k) is equal to

If A_(1),A_(2) are between two numbers, then (A_(1)+A_(2))/(H_(1)+H_(2)) is equal to

If A_(1),A_(2) are between two numbers, then (A_(1)+A_(2))/(H_(1)+H_(2)) is equal to

The area bounded by y^(2) = 4x and x^(2) = 4y is A_(1) and the area bounded by x^(2) = 4y , x = 4 and x-axis is A_(2) . If A_(1) : A_(2) = K : 1 then K is _______

The area bounded by y^(2) = 4x and x^(2) = 4y is A_(1) and the area bounded by x^(2) = 4y , x = 4 and x-axis is A_(2) . If A_(1) : A_(2) = K : 1 then K is _______