Transform to Cartesian coordinates the equations: `r^2=a^2cos2theta`

If tan theta_1,tantheta_2,tan theta_3,tan theta_4 are the roots of the equation x^4-x^3sin2beta+x^2cos2beta-xcosbeta-sinbeta=0 then prove that tan(theta_1+theta_2+theta_3+theta_4)=cot beta

If cos^(4)theta+p, sin^(4)theta+p are the roots of the equation x^(2)+a(2x+1)=0 and cos^(2)theta+q,sin^(2)theta+q are the roots of the equation x^(2)+4x+2=0 then a is equal to

Find the cartesian coordinates of the points whose polar coordinates are (5 sqrt(2), (pi)/(4))

sin^2theta+cos^2theta=1 .

Find the general values of theta which satisfies the equation tan theta =-1 and cos theta =(1)/(sqrt(2))

Find the general solution for each of the following equations: 4 sin^2theta-8cos theta+1=0

Transform the equation r = 2 a cos theta to cartesian form.

The transform equation of r^(2)cos^(2)theta = a^(2)cos 2theta to cartesian form is (x^(2)+y^(2))x^(2)=a^(2)lambda , then value of lambda is

Prove that all lines represented by the equation (2 cos theta + 3 sin theta ) x + (3 cos theta - 5 sin theta ) y = 5 cos theta - 2 sin theta pass through a fixed point for all theta What are the coordinates of this fixed point ?

The number of solutions of the pair of equations: 2 sin^2 theta- cos 2 theta = 0, 2 cos^2 theta - 3 sin theta=0 in the interval [0, 2 pi] is :