Simone
(1)把点$B$,点$C$的坐标代入解析式,得:$\left\{\begin{array}{l}{9+3b+c=0}\\{c=3}\end{array}\right.$,解得:$\left\{\begin{array}{l}{b=2}\\{c=3}\end{array}\right.$,$\therefore $二次函数得表达式为$y=-x^{2}+2x+3$;$(2)$存在点$P$,使四边形$POP'{C'}$为菱形,设$P(x$,$-x^{2}+2x+3)$,$PP'$交$CO$于点$E$,若四边形$POP'{C'}$是菱形,则$PC'=PO$,连接$PP'$,则$PE\bot CO$,$OE=CE=\frac{3}{2}$,$\therefore -{x}^{2}+2x+3=\frac{3}{2}$,解得${x}_{1}=\frac{2+\sqrt{10}}{2}$,${x}_{2}=\frac{2-\sqrt{10}}{2}($不合题意,舍去),$\therefore $点$P$的坐标为($\frac{2+\sqrt{10}}{2}$,$\frac{3}{2})$;$(3)$过点$P$作$y$轴的平行线与$BC$交与点$Q$,设$P(x$,$-x^{2}+2x+3)$,易得直线$BC$的解析式为$y=-x+3$,则$Q\left(x,-x+3\right)$,$\therefore {S}_{△CPB}={S}_{△BPQ}+{S}_{△CPQ}=\frac{1}{2}•QP•OF=\frac{1}{2}×(-{x}^{2}+3x)×3=-\frac{3}{2}(x-\frac{3}{2})^{2}+\frac{27}{8}$,当$x=\frac{3}{2}$时,$\triangle CPB$的面积最大,此时,点$P$的坐标为($\frac{3}{2}$,$\frac{15}{4}$),$\triangle CPB$的面积的最大值为$\frac{27}{8}$.
(1)把点$B$,点$C$的坐标代入解析式,得:$\left\{\begin{array}{l}{9+3b+c=0}\\{c=3}\end{array}\right.$,解得:$\left\{\begin{array}{l}{b=2}\\{c=3}\end{array}\right.$,$\therefore $二次函数得表达式为$y=-x^{2}+2x+3$;$(2)$存在点$P$,使四边形$POP'{C'}$为菱形,设$P(x$,$-x^{2}+2x+3)$,$PP'$交$CO$于点$E$,若四边形$POP'{C'}$是菱形,则$PC'=PO$,连接$PP'$,则$PE\bot CO$,$OE=CE=\frac{3}{2}$,$\therefore -{x}^{2}+2x+3=\frac{3}{2}$,解得${x}_{1}=\frac{2+\sqrt{10}}{2}$,${x}_{2}=\frac{2-\sqrt{10}}{2}($不合题意,舍去),$\therefore $点$P$的坐标为($\frac{2+\sqrt{10}}{2}$,$\frac{3}{2})$;$(3)$过点$P$作$y$轴的平行线与$BC$交与点$Q$,设$P(x$,$-x^{2}+2x+3)$,易得直线$BC$的解析式为$y=-x+3$,则$Q\left(x,-x+3\right)$,$\therefore {S}_{△CPB}={S}_{△BPQ}+{S}_{△CPQ}=\frac{1}{2}•QP•OF=\frac{1}{2}×(-{x}^{2}+3x)×3=-\frac{3}{2}(x-\frac{3}{2})^{2}+\frac{27}{8}$,当$x=\frac{3}{2}$时,$\triangle CPB$的面积最大,此时,点$P$的坐标为($\frac{3}{2}$,$\frac{15}{4}$),$\triangle CPB$的面积的最大值为$\frac{27}{8}$.
