If the graph `y=f(x)` where `f(x)=ax^(2)+bx+c`;`b c in R`, `a!=0` has the maximum vertical height 4 then relation between a, b, c is

Similar Questions

Explore conceptually related problems

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

Let f(x)=3ax^(2)-4bx+c(a,b,c in R.a!=0) where a,b,c are in A.P.Then the equation f(x)=0 has

If f(x)=ax^(2)+bx+c,a+b+c=0 then one root is

Let f(x)=ax^(2)+bx+c, where a,b,c in R,a!=0. Suppose |f(x)|<=1,x in[0,1], then

If f(x)=x^(3)+ax^(2)+bx+c has a maximum at x=-1 and minimum at x=3 Determine a,b and c.

Let f(x)=ax^(2)+bx+c, where a,b,c are rational,and f:z rarr z ,Where z is the set of integers.Then a+b is

Let f(x)=ax^(2)+bx+c AA a,b,c in R,a!=0 satisfying f(1)+f(2)=0. Then,the quadratic equation f(x)=0 must have :

Let f(x)=x^(3)+ax^(2)+bx+c where a,b,c in R, then which of the following statement(s) is/are correct?

If y=f(x)=ax^(2)+2bx+c=0 has Imaginary roots and 4a+4b+c<0 then