If `alpha+beta=3pi` , then the chord joining the points `alpha` and `beta` for the hyperbola `(x^2)/(a^2)-(y^2)/(b^2)=1` passes through which of the following points?

If alpha+beta+gamma=2 pi, then

If tanalphatanbeta=-(a^(2))/(b^(2)) , then the chord joining the points 'alpha' and 'beta' on the ellipse (x^(2))/(a^(2))+(y^(2))/(b^(2))=1 will subtend a right angle at the :

For the hyperbola x^2/(cos^2alpha)-y^2/(sin^2alpha)=1 , which of the following remains constant when alpha varies ?

The locus of a point P(alpha, beta) moving under the condition that the line y=alphax+beta is a tangent to the hyperbola x^2/a^2-y^2/b^2=1 is :

The equation of the chord joining the points (x_1,y_1) and (x_2,y_2) on the rectangular hyperbola xy = c^2 is :

If alpha and beta are the roots of x^(2)+x+1=0 , then alpha^(16)+beta^(16)=

If a point (alpha, beta) lies on the circle x^(2)+y^(2)=1 , then the locus of the point, (3 alpha+2, beta) is

If alpha and beta are the zeroes of the polynomial f(x) = 3x^(2)+5x+7 then find the value of (1)/(alpha^(2))+(1)/(beta^(2)) .

If alpha and beta are the zeros of the polynomial p(x)=3x^(2)-12+15 , find the value of alpha^(2)+beta^(2)

If alpha and beta are the rotos of a x^(2)+b x+c=0 the equation whose roots are 2+alpha and 2+beta is