\displaystyle{f}'{\left({x}\right)}=-{6}{x}+{1} Explanation: By definition of the derivative \displaystyle{f}'{\left({x}\right)}=\lim_{{{h}\rightarrow{0}}}\frac{{{f{{\left({x}+{h}\right)}}}-{f{{\left({x}\right)}}}}}{{h}} ...

\displaystyle{\left({y}-\frac{{9}}{{2}}\right)}=-{2}{\left({x}-\frac{{1}}{{2}}\right)}^{{2}} Explanation: Given f(x)= y= \displaystyle-{2}{x}^{{2}}+{2}{x}+{4} = \displaystyle-{2}{\left({x}^{{2}}-{x}\right)}+{4} ...

Vertex is at \displaystyle{\left({0.5},{8.5}\right)} , y intercept is at \displaystyle{\left({0},{8}\right)} and x intercepts are at \displaystyle{\left(-{1.56},{0}\right)}{\quad\text{and}\quad}{\left({2.56},{0}\right)} ...

f(x ) = -2x^2 + 3x + 1 Explanation: Important points to graph f(x) 1. Vertex. x-coordinate of vertex: \displaystyle{x}=-\frac{{b}}{{{2}{a}}}=-\frac{{3}}{{-{{4}}}}=\frac{{3}}{{4}} y-coordinate ...

The x-intercepts occur where \displaystyle{f{{\left({x}\right)}}}={0} and the y intercept occurs when \displaystyle{x}={0} giving \displaystyle{x}={1}-\frac{\sqrt{{{10}}}}{{2}} and \displaystyle{x}={1}+\frac{\sqrt{{{10}}}}{{2}} ...

If f(x) = -2x^2 + 4x+6, then f(y) = -2y^2 + 4y + 6, f(z) = -2z^2 + 4z + 6, and so on. It's just a symbol! So f(x+h) = -2(x+h)^2 + 4(x+h) + 6, so if you want to compute the slope of this ...