If ` alpha ` be the smallest positive root of the equation `sqrt(sin(1-x))=sqrt(cos x)`, then the approximate integeral value of ` alpha ` must be .

Solve the equation sqrt3cos x + sin x = sqrt2 .

Number of real roots of the equation sqrt(x)+sqrt(x-sqrt((1-x)))=1 is

If alpha " and " beta ( alpha gt beta) are roots of the equation x^(2) - sqrt2 x + sqrt( 3 - 2 sqrt 2 ) = 0", then the value of " ( cos^(-1) alpha + tan^(-1) alpha + tan ^(-1) beta) is equal to

If alpha and beta are the roots of the equations x^2-p(x+1)-c=0 , then (alpha+1)(beta+1)_ is equal to:

The number of real solution of the equation sqrt(1 + cos 2x) = sqrt2 sin^(-1) (sin x), -pi le x le pi , is

If alpha and beta are the roots of the equation x^2"-"x""+""1""=""0 , then alpha^(2009)+beta^(2009)=

If alpha and beta are the complex roots of the equation (1+i)x^(2)+(1-i)x-2i=0 where i=sqrt(-1) , the value of |alpha-beta|^(2) is

If tan "" (alpha )/(2) and tan "" (beta)/( 2) are the roots of the equation 8x ^(2) -26x + 15 =0, then find the value of cos (alpha + beta).

If alpha and beta is the root of the equation x^2-3x+2=0 then find the value of alpha^2 + beta^2