Let `f (x) =ax ^(2) +bx + c,a ne 0,` such the `f (-1-x)=f (-1+ x) AA x in R.` Also given that `f (x) =0` has no real roots and `4a + b gt 0.`
Let `p =b-4a, q=2a +b,` then pq is:

Let f (x) =ax ^(2) +bx + c,a ne 0, such the f (-1-x)=f (-1+ x) AA x in R. Also given that f (x) =0 has no real roots and 4a + b gt 0. Let alpha =4a -2b+c, beta =9a+3b+c, gamma =9a -3b+c, then which of the following is correct ?

Let f (x) =ax ^(2) + bx+ c,a gt = and f (2-x) =f (2+x) AA x in R and f (x) =0 has 2 distinct real roots, then which of the following is true ?

Let f(x) = ax^(2) - bx + c^(2), b ne 0 and f(x) ne 0 for all x in R . Then

Let f(x) = (ax +b)/(cx + d) (da-cb ne 0, c ne0) then f(x) has

Let f(x)=x+f(x-1) for AA x in R.If f(0)=1, find f(100)

Let f(x) =ax^(2) -b|x| , where a and b are constants. Then at x = 0, f (x) is

Let f(x) =ax^(2) + bx + c and f(-1) lt 1, f(1) gt -1, f(3) lt -4 and a ne 0 , then

Let f(x)=ax^(2)+bx+c, if f(-1) -1,f(3)<-4 and a!=0 then

Let f(x)=ax^(2)+bx+c, if a>0 then f(x) has minimum value at x=