If the roots of the equation `:`
`(b-c)x^(2) + (c-a) x + ( a-b) = 0 ` are equal, then a,b,c are in `:`

If the roots of the equations (b-c) x^(2) + (c-a) x+( a-b) =0 are equal , then prove that 2b=a+c

The non-trival values of (a,b) such that roots of the equation x^(2) + ax + b = 0 are equal to a and b are :

If one of the roots of the equation a(b-c)x^(2)+b(c-a)x+c(a-b)=0 is 1, the other root is

if one of the root of the equation a(b-c)x^(2)+b(c-a)x+c(a-b)=0 is 1,the other root is

If the roots of the equation (a-b)x^(2)+(b-c)x+(c-a)=0 are equal, then

The roots of the quadratic equation (a + b-2c)x^2+ (2a-b-c) x + (a-2b + c) = 0 are

Let a, b,c be sides of a triangle. No two of them are equal and lambda in R. If the roots of the equation x^(2) + 2 (a + b + c) x + 3 lambda (ab + bc + ca ) = 0 are real , then :

Both the roots of the equation : (x - b) (x -c) + (x - c) (x - a) + (x - a) (x - b) = 0 are always :

If the roots of the equation (c^(2)-ab)x^(2)-2(a^(2)-bc)x+b^(2)-ac=0 in x are equal, show that either a=0 or a^(3)+b^(3)+c^(3)=3abc .