The values of `lambda` such that sum of the squares of the roots of the quadratic equation `x^(2) + (3 - lambda) x + 2 = lambda` has the least value is

The value of lambda such that sum of the squares of the roots of the quadratic equation,x^(2)+(3-lambda)x+2=lambda has the least value is

The value of lamda such that sum of the squares of the roots of the quadratic equation, x^(2)+(3-lamda)x+2=lamda had the least value is

The value of lambda for which the sum of squares of roots of the equation x^(2)+(3-lambda)x+2=lambda is minimum,then lambda is equal to (a) 2 (b) -1 (c) -3(d)-2

Minimum possible number of positive root of the quadratic equation x^(2)-(1+lambda)x+lambda-2=0,lambda in R

If lambda in R is such that the sum of the cubes of the roots of the equation x^(2)+(2-lambda)x+(10-lambda)=0 is minimum then the magnitude of the difference of the roots of this equation is :

The set of all real values of lambda for which the quadratic equations , (lambda^(2) + 1) x^(2) - 4 lambda x + 2 = 0 always have exactly one root in the interval (0,1) is :

If alpha and beta are the roots of the equation x^(2)+6x+lambda=0 and 3 alpha+2 beta=-20 ,then lambda=

The equation (x^(2)-6x+8)+lambda (x^(2)-4x+3)=0, lambda in R has

If the equation x^(2)+lambda x+mu=0 has equal roots and one root of the equation x^(2)+lambda x-12=0 is 2 ,then (lambda,mu) =

If alpha and beta are the roots of the equation x^(2)-5 lambda x-lambda^(2)=0 and alpha^(2)+beta^(2)=27/4 ,then the value of lambda^(2) is