Lần lượt kẻ \(AE\perp SB\)  (1) và \(AF\perp SD\)

\(\left\{{}\begin{matrix}SA\perp\left(ABCD\right)\Rightarrow SA\perp BC\\AB\perp BC\end{matrix}\right.\) \(\Rightarrow BC\perp\left(SAB\right)\)

\(\Rightarrow BC\perp AE\) (2)

(1);(2) \(\Rightarrow AE\perp\left(SBC\right)\)

Hoàn toàn tương tự ta có \(AF\perp\left(SCD\right)\)

\(\Rightarrow\) Góc giữa (SBC) và (SCD) là góc giữa AE và AF

Cũng từ \(BC\perp\left(SAB\right)\) mà \(BC=\left(SBC\right)\cap\left(ABCD\right)\Rightarrow\widehat{SBA}\) là góc giữa (SBCD) và đáy

\(\Rightarrow\widehat{SBA}=60^0\Rightarrow SA=AB.tan60^0=a\sqrt{3}\)

Hệ thức lượng: \(\dfrac{1}{AE^2}=\dfrac{1}{SA^2}+\dfrac{1}{AB^2}\Rightarrow AE=\dfrac{a\sqrt{3}}{2}\)

\(\dfrac{1}{AF^2}=\dfrac{1}{SA^2}+\dfrac{1}{AD^2}\Rightarrow AF=\dfrac{a\sqrt{6}}{2}\)

\(SB=\sqrt{SA^2+AB^2}=2a\) ; \(SD=a\sqrt{6}\)

\(BD=\sqrt{AB^2+AD^2}=2a\Rightarrow cos\widehat{BSD}=\dfrac{SB^2+SD^2-BD^2}{2SB.SD}=\dfrac{\sqrt{6}}{4}\)

\(SE=\sqrt{SA^2-AE^2}=\dfrac{3a}{2}\) ; \(SF=\sqrt{SA^2-AF^2}=\dfrac{a\sqrt{6}}{2}\)

\(\Rightarrow EF=\sqrt{SE^2+SF^2-2SE.SF.cos\widehat{BSD}}=\dfrac{a\sqrt{6}}{2}\)

\(\Rightarrow cos\widehat{EAF}=\dfrac{AE^2+AF^2-EF^2}{2AE.AF}=\dfrac{\sqrt{2}}{4}\)

Kẻ \(OI \bot C{\rm{D}}\left( {I \in C{\rm{D}}} \right),OH \bot SI\left( {H \in SI} \right)\).

Ta có:

\(\begin{array}{l}\left. \begin{array}{l}SO \bot \left( {ABCD} \right) \Rightarrow SO \bot C{\rm{D}}\\OI \bot C{\rm{D}}\end{array} \right\} \Rightarrow C{\rm{D}} \bot \left( {SOI} \right)\\\left. \begin{array}{l} \Rightarrow C{\rm{D}} \bot OH\\OH \bot SI\end{array} \right\} \Rightarrow OH \bot \left( {SC{\rm{D}}} \right)\\ \Rightarrow d\left( {O,\left( {SC{\rm{D}}} \right)} \right) = OH\end{array}\)

\(\Delta ABC\) đều \( \Rightarrow AC = a \Rightarrow OC = \frac{1}{2}AC = \frac{a}{2}\)

\(\Delta ABD\) có \(\widehat {BA{\rm{D}}} = {120^ \circ } \Rightarrow B{\rm{D}} = \sqrt {A{B^2} + A{{\rm{D}}^2} - 2{\rm{A}}B.A{\rm{D}}}  = a\sqrt 3  \Rightarrow OD = \frac{1}{2}B{\rm{D}} = \frac{{a\sqrt 3 }}{2}\)

\(\Delta OCD\) vuông tại \(O\) có đường cao \(OI\)

\( \Rightarrow OI = \frac{{OC.O{\rm{D}}}}{{C{\rm{D}}}} = \frac{{a\sqrt 3 }}{4}\)

\(SO \bot \left( {ABCD} \right) \Rightarrow SO \bot OI \Rightarrow \Delta SOI\) vuông tại \(O\) có đường cao \(OH\)

\( \Rightarrow OH = \frac{{SO.OI}}{{\sqrt {S{O^2} + O{I^2}} }} = \frac{{a\sqrt {51} }}{{17}}\)

Vậy \(d\left( {O,\left( {SCD} \right)} \right) = OH = \frac{{a\sqrt {51} }}{{17}}\).

a.

\(\left\{{}\begin{matrix}SO\perp\left(ABCD\right)\Rightarrow SO\perp AC\\AC\perp BD\left(\text{hai đường chéo hình vuông}\right)\end{matrix}\right.\) 

\(\Rightarrow AC\perp\left(SBD\right)\)

Mà \(AC\in\left(SAC\right)\Rightarrow\left(SAC\right)\perp\left(SBD\right)\)

b.

\(SO\perp\left(ABCD\right)\Rightarrow OC\) là hình chiếu vuông góc của SC lên (ABCD)

\(\Rightarrow\widehat{SCO}\) là góc giữa SC và (ABCD)

\(OC=\dfrac{1}{2}AC=a\sqrt{2}\)

\(tan\widehat{SCO}=\dfrac{SO}{OC}=\sqrt{3}\Rightarrow\widehat{SCO}=60^0\)

c.

Gọi E là trung điểm CD, từ O kẻ \(OF\perp SE\)

OE là đường trung bình tam giác BCD \(\Rightarrow\left\{{}\begin{matrix}OE=\dfrac{1}{2}BC=a\\OE||BC\Rightarrow OE\perp CD\end{matrix}\right.\)

\(\Rightarrow CD\perp\left(SOE\right)\)\(\Rightarrow CD\perp OF\)

\(\Rightarrow OF\perp\left(SCD\right)\Rightarrow OF=d\left(O;\left(SCD\right)\right)\)

Do \(\left\{{}\begin{matrix}AO\cap\left(SCD\right)=C\\AC=2OC\end{matrix}\right.\) \(\Rightarrow d\left(AB;\left(SCD\right)\right)=d\left(A;\left(SCD\right)\right)=2d\left(O;\left(SCD\right)\right)=2OF\)

Hệ thức lượng: \(OF=\dfrac{OE.SO}{\sqrt{OE^2+SO^2}}=...\)

\(\left\{{}\begin{matrix}SA\perp\left(ABCD\right)\Rightarrow SA\perp CD\\AD\perp CD\end{matrix}\right.\) \(\Rightarrow CD\perp\left(SAD\right)\)

Mà CD là giao tuyến (SCD) và (ABCD)

\(\Rightarrow\widehat{SDA}\) là góc giữa (SCD) và (ABCD)

\(\Rightarrow\widehat{SDA}=60^0\Rightarrow SA=AD.tan60^0=3a\)

a.

\(\left\{{}\begin{matrix}SA\perp\left(ABCD\right)\Rightarrow SA\perp BC\\AB\perp BC\end{matrix}\right.\) \(\Rightarrow BC\perp\left(SAB\right)\)

Mà \(BC=\left(SBC\right)\cap\left(ABCD\right)\Rightarrow\widehat{SBA}\) là góc giữa (SBC) và (ABCD)

\(tan\widehat{SBA}=\dfrac{SA}{AB}=3\Rightarrow\widehat{SBA}=...\)

b.

Từ A kẻ \(AE\perp BD\)

\(SA\perp\left(ABCD\right)\Rightarrow SA\perp BD\)

\(\Rightarrow BD\perp\left(SAE\right)\Rightarrow\widehat{SEA}\) là góc giữa (SBD) và (ABCD)

Hệ thức lượng: \(\dfrac{1}{AE^2}=\dfrac{1}{AB^2}+\dfrac{1}{AD^2}\Rightarrow AE=\dfrac{a\sqrt{3}}{2}\)

\(tan\widehat{SEA}=\dfrac{SA}{AE}=2\sqrt{3}\Rightarrow\widehat{SEA}=...\)

B là khẳng định sai

\(\left\{{}\begin{matrix}SA\perp\left(ABCD\right)\Rightarrow SA\perp CD\\AD\perp CD\left(gt\right)\end{matrix}\right.\) \(\Rightarrow CD\perp\left(SAD\right)\)

\(CD=\left(SCD\right)\cap\left(BCD\right)\)

\(\Rightarrow\widehat{SDA}\) là góc giữa (SDC) và (BCD)

\(tan\widehat{SDA}=\dfrac{SA}{AD}=\sqrt{2}\Rightarrow\widehat{SDA}\approx54^044'\)

Đặt \(x=AA'\)

Ta có: \(\overrightarrow{AB'}=\overrightarrow{AA'}+\overrightarrow{AB}\) ; \(\overrightarrow{BD'}=\overrightarrow{BB'}+\overrightarrow{BD}=\overrightarrow{BB'}+\overrightarrow{BA}+\overrightarrow{BC}=\overrightarrow{AA'}-\overrightarrow{AB}+\overrightarrow{BC}\)

\(\Rightarrow\overrightarrow{AB'}.\overrightarrow{BD'}=\left(\overrightarrow{AA'}+\overrightarrow{AB}\right)\left(\overrightarrow{AA'}-\overrightarrow{AB}+\overrightarrow{BC}\right)\)

\(=AA'^2+\overrightarrow{AA'}\left(-\overrightarrow{AB}+\overrightarrow{BC}\right)+\overrightarrow{AB}.\overrightarrow{AA'}-AB^2+\overrightarrow{AB}.\overrightarrow{BC}\)

\(=x^2-a^2+AB.BC.cos120^0\)

\(=x^2-a^2-\dfrac{a^2}{2}=x^2-\dfrac{3a^2}{2}=0\)

\(\Rightarrow x=\dfrac{a\sqrt{6}}{2}\)

\(V=\dfrac{a\sqrt{6}}{2}.2.\dfrac{a^2\sqrt{3}}{4}=\dfrac{3a^3\sqrt{2}}{4}\)