" If "f" anple "11" are the roots of "ax^(2)+bx+c," then evaluate "lim_(x rarr beta)(1-cos(ax^(2)+bx+c))/((x-beta)^(2))

If alpha, beta are the zeroes of ax^2+ bx +c , then evaluate : lim_(x rarr beta)(1-cos (ax^2 +bx +c) )/((x-beta)^2) .

If alpha, beta are the zeroes of ax^(2)+bx+c , then evaluate : lim_(x to beta)(1-cos(ax^(2)+bx+c))/(x-beta)^(2) .

If alpha and beta be the roots of ax^(2)+bx+c=0 then lim_(x rarr beta)(1-cos(ax^(2)+bx+c))/((x-beta)^(2))lim is

Let alpha and beta be the roots of the equation ax^(2)+bx+c=0 then lim_(x rarr beta)(1-cos(ax^(2)+bx+c))/((x-beta)^(2))

Evaluate lim_(x rarr 1)(ax^(2)+bx+c)/(cx^(2)+bx+a)

Evaluate :lim_(x rarr oo)(ax^(2)+bx+c)/(dx^(2)+ex+f)

Let alpha and beta be the distinct roots of ax^(2) + bx + c = 0 , then lim_(x rarr alpha) (1 - cos (ax^(2) + bx + c))/((x - alpha)^(2)) is equal to :

If alpha is repeated roots of ax^(alpha)+bx+c=0 then lim_(x rarr a)(tan(ax^(2)+bx+c))/((x-alpha)^(2)) is

If alpha and beta be the roots of the quadratic equation ax^2+bx+c=0 then evaluate lim_(xrarralpha)(1-cos(ax^2+bx+c))/((x-alpha)^2)