If the roots of `lamda(6x^(2)+3)+rx+2x^(2)-1=0` and `6 lamda(2x^(2)+1)+px+4x^(2)-2=0` are common, then `2r-p` is equal to

Find the roots of the quadratic equation 6x^(2)-x-2=0 .

If alpha, beta are the roots fo the equation lamda(x^(2)-x)+x+5=0 . If lamda_(1) and lamda_(2) are two values of lamda for which the roots alpha, beta are related by (alpha)/(beta)+(beta)/(alpha)=4/5 find the value of (lamda_(1))/(lamda_(2))+(lamda_(2))/(lamda_(1))

Find the value of lamda so that the equations x^(2)-x-12=0 and lamdax^(2)+10x+3=0 may have one root in common. Also, find the common root.

Let p,q,r be roots of cubic x^(3)+2X^(2)+3x+3=0 , then

If the quadratic equations, a x^2+2c x+b=0a n da x^2+2b x+c=0(b!=c) have a common root, then a+4b+4c is equal to: a. -2 b. -2 c. 0 d. 1

Solve x^(2)p^(2)+xpy-6y^(2)=0.

Let p=lim_(x->0^+)(1+tan^2 sqrt(x))^(1/(2x)) then log p is equal to

If one root of the equation |{:(7,6,x^(2)-13),(2,x^(2)-13,2),(x^(2)-13,3,7):}| =0 is x=2 the sum of all other five roots is

If the difference of the roots of x^(2)-lamdax+8=0 be 2 the value of lamda is

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