答案：(1)当$PQ// BC$时，$AP:AB = AQ:AC$。由题意，得$AP = 4x cm$，$AQ = (30 - 3x) cm$。$\therefore\frac{4x}{20}=\frac{30 - 3x}{30}$，解得$x = \frac{10}{3}$。$\therefore x$的值为$\frac{10}{3}$。
(2)能。$\because BA = BC$，$\therefore\angle A = \angle C$。$\therefore$分两种情况讨论：
①当$\triangle APQ\sim\triangle CQB$时，$\frac{AP}{CQ}=\frac{AQ}{CB}$，即$\frac{4x}{3x}=\frac{30 - 3x}{20}$，解得$x = \frac{10}{9}$。$\therefore AP = \frac{40}{9} cm$。
②当$\triangle APQ\sim\triangle CBQ$时，$\frac{AP}{CB}=\frac{QA}{QC}$，即$\frac{4x}{20}=\frac{30 - 3x}{3x}$，解得$x = 5$或$x = -10$（不合题意，舍去）。$\therefore PA = 20 cm$。
综上所述，当$AP$的长为$\frac{40}{9} cm$或$20 cm$时，$\triangle APQ$与$\triangle CQB$相似。

答案：
(1)$\because$在$Rt\triangle ABC$中，$\angle ACB = 90^{\circ}$，$AC = 8$，$BC = 6$，$\therefore$根据勾股定理，得$AB = \sqrt{AC^{2} + BC^{2}}=\sqrt{8^{2} + 6^{2}} = 10$。$\because S_{\triangle ABC}=\frac{1}{2}AC· BC=\frac{1}{2}AB· CD$，$\therefore CD = \frac{AC· BC}{AB}=\frac{8×6}{10}=\frac{24}{5}$。
(2)由(1)知，$CD = \frac{24}{5}$。由题意知，$CQ = t$，$DP = t$。$\therefore CP = CD - DP = \frac{24}{5} - t$。$\because\angle ACB = 90^{\circ}$，$\therefore\angle ACD + \angle BCD = 90^{\circ}$。$\because CD\perp AB$，$\therefore\angle B + \angle BCD = 90^{\circ}$。$\therefore\angle ACD = \angle B$。$\therefore$分两种情况讨论：
①当$\triangle CPQ\sim\triangle BCA$时，$\frac{CP}{BC}=\frac{CQ}{BA}$，即$\frac{\frac{24}{5} - t}{6}=\frac{t}{10}$，解得$t = 3$。
②当$\triangle CPQ\sim\triangle BAC$时，$\frac{CP}{BA}=\frac{CQ}{BC}$，即$\frac{\frac{24}{5} - t}{10}=\frac{t}{6}$，解得$t = \frac{9}{5}$。
综上所述，当$t$的值为$3$或$\frac{9}{5}$时，以$C$，$P$，$Q$为顶点的三角形与$\triangle ABC$相似。
(3)存在。
①当$CQ = CP$时，$t=\frac{24}{5} - t$，解得$t = \frac{12}{5}$。
②当$PQ = PC$时，如图①，过点$P$作$PH\perp AC$，垂足为$H$。$\because\angle ACB = \angle CDB = 90^{\circ}$，$\therefore\angle HCP = 90^{\circ} - \angle DCB = \angle B$。$\because PH\perp AC$，$\therefore\angle CHP = 90^{\circ}$。$\therefore\angle CHP = \angle BCA$。$\therefore\triangle CHP\sim\triangle BCA$。$\therefore\frac{CH}{BC}=\frac{CP}{BA}$。
$\because PQ = PC$，$PH\perp QC$，$\therefore QH = CH = \frac{1}{2}QC = \frac{1}{2}t$。$\therefore\frac{\frac{t}{2}}{6}=\frac{\frac{24}{5} - t}{10}$，解得$t = \frac{144}{55}$。
③当$QC = QP$时，如图②，过点$Q$作$QE\perp CP$，垂足为$E$。同理，可得$\triangle CEQ\sim\triangle BCA$。$\therefore\frac{CE}{BC}=\frac{CQ}{BA}$。$\because QC = QP$，$QE\perp CP$，$\therefore CE = EP = \frac{1}{2}PC = \frac{1}{2}(\frac{24}{5} - t)$。$\therefore\frac{\frac{1}{2}(\frac{24}{5} - t)}{6}=\frac{t}{10}$，解得$t = \frac{24}{11}$。
综上所述，存在$t$，使得$\triangle CPQ$为等腰三角形，此时$t$的值为$\frac{12}{5}$或$\frac{144}{55}$或$\frac{24}{11}$。