${\displaystyle {\begin{array}{l}{\vec {f}}=f\,{\vec {\imath }},\\{\vec {p}}_{g}=-mg\,{\vec {\jmath }}\\{\vec {f}}_{k}=-kd\,{\vec {\imath }},\\{\vec {n}}=n\,{\vec {\jmath }},\\{\vec {f}}_{r}=f\,{\vec {\imath }}.\end{array}}}$

${\displaystyle {\vec {F}}+{\vec {P}}_{g}+{\vec {F}}_{k}+{\vec {N}}+{\vec {F}}_{R}={\vec {0}}\longrightarrow \left\{{\begin{array}{lclr}X)&\to &F-kd+f=0,&(1)\\Y)&\to &N-mg=0.&(2)\end{array}}\right.}$

${\displaystyle {\vec {M}}_{C}={\overrightarrow {CB}}\times {\vec {F}}_{k}+{\overrightarrow {CD}}\times {\vec {F}}_{R}={\vec {0}}.}$

${\displaystyle {\begin{array}{l}{\overrightarrow {CB}}\times {\vec {F}}_{k}=(R\,{\vec {\jmath }})\times (-kd\,{\vec {\imath }})=kdR\,{\vec {k}},\\{\overrightarrow {CD}}\times {\vec {F}}_{R}=(-R\,{\vec {\jmath }})\times (f\,{\vec {\imath }})=fR\,{\vec {k}}.\end{array}}}$

${\displaystyle f+kd=0.\qquad (3)}$

${\displaystyle N=mg,\qquad f=-kd,\qquad F=2kd.}$

${\displaystyle {\vec {N}}=mg,{\vec {\jmath }},\qquad {\vec {F}}_{R}=-kd\,{\vec {\imath }},\qquad {\vec {F}}=2kd\,{\vec {\imath }}.}$

${\displaystyle {\begin{array}{l}{\vec {\tau }}=\tau _{0}\,{\vec {k}},\\{\vec {P}}_{g}=-mg\,{\vec {\jmath }}\\{\vec {F}}_{k}=-kd\,{\vec {\imath }},\\{\vec {N}}=N\,{\vec {\jmath }},\\{\vec {F}}_{R}=f\,{\vec {\imath }}.\end{array}}}$

${\displaystyle {\vec {P}}_{g}+{\vec {F}}_{k}+{\vec {N}}+{\vec {F}}_{R}={\vec {0}}\longrightarrow \left\{{\begin{array}{lclr}X)&\to &-kd+f=0,&(4)\\Y)&\to &N-mg=0.&(5)\end{array}}\right.}$

${\displaystyle {\vec {M}}_{C}={\vec {\tau }}+{\overrightarrow {CB}}\times {\vec {F}}_{k}+{\overrightarrow {CD}}\times {\vec {F}}_{R}={\vec {0}}.}$

${\displaystyle \tau _{0}+fR+kdR=0.\qquad (6)}$

${\displaystyle N=mg,\qquad f=kd,\qquad \tau _{0}=-2kdR.}$

${\displaystyle {\vec {N}}=mg,{\vec {\jmath }},\qquad {\vec {F}}_{R}=kd\,{\vec {\imath }},\qquad {\vec {\tau }}=-2kdR\,{\vec {k}}.}$