The equation `(x-alpha)^2+(y-beta)^2=k(lx+my+n)^2` represents

The equation (x-alpha)^2+(y-beta)^2=k(l x+m y+n)^2 represents (a) a parabola for k = (l^2+m^2)^(-1) (b) an ellipse for 0 (1^2+m^2)^(-1) (d) a point circle for k=0

Show that the equation n(ax+by+c)=c(lx+my+n) represents the line joining the origin to the point of intersection of ax+by+c=0 and lx+my+n=0 .

If alpha ,beta are the roots of the equation 2x^2+2(a+b)x+a^2+b^2=0 then find the equation whose roots are (alpha + beta)^2 and (alpha-beta)^2

Let alpha and beta be the roots of the equation x^2-6x-2=0 If a_n=alpha^n-beta^n for ngt=0 then find the value of (a_10-2a_8)/(2a_9)

The condition that the equation lx +my +n = 0 represents the equatio of a straight line in the normal form is

If alpha,beta are the roots of the equation x^2-2x+4=0 , find alpha^(n)+beta^(n) for (a) n=3k, k in N

If alpha,beta are the roots of the equation 2x^2+2(a+b)x+a^2+b^2=0 , then find the equation whose roots are (alpha+beta)^2a n d(alpha-beta)^2

If alpha, beta are the roots of the equation x^(2)+7x+12=0 , then the equation whose roots are (alpha+beta)^(2) and (alpha-beta)^(2) is

If alpha, beta are roots of the equation x^(2) + x + 1 = 0 , then the equation whose roots are (alpha)/(beta) and (beta)/(alpha) , is

Find the equation whose roots are (alpha)/(beta) and (beta)/(alpha) , where alpha and beta are the roots of the equation x^(2)+2x+3=0 .