Gọi \(A C \cap B D = O , S O \cap M N = I , A I \cap S C = P\).

\(A N ⊥ \left(\right. S C D \left.\right) \Rightarrow A N ⊥ S C\) và \(A M ⊥ \left(\right. S B C \left.\right) \Rightarrow A M ⊥ S C\).

Do đó: \(S C ⊥ \left(\right. A M N \left.\right)\) hay \(S C ⊥ \left(\right. A M P N \left.\right)\).

Suy ra: \(\left(\right. S B , \left(\right. A M N \left.\right) \left.\right) = \left(\right. S M , \left(\right. A M P N \left.\right) \left.\right) = \hat{S M P}\).

Ta có: \(S M = \frac{S A^{2}}{S B} = \frac{2 a^{2}}{\sqrt{2 a^{2} + a^{2}}} = \frac{2 a \sqrt{3}}{3}\);

\(S P = \frac{S A^{2}}{S C} = \frac{2 a^{2}}{\sqrt{2 a^{2} + 2 a^{2}}} = a\).

Nên \(sin ⁡ \hat{S M P} = \frac{S P}{S M} = \frac{\sqrt{3}}{2}\)

\(\Rightarrow \hat{S M P} = 6 0^{\circ}\).

Gọi \(A C \cap B D = O , S O \cap M N = I , A I \cap S C = P\).

\(A N ⊥ \left(\right. S C D \left.\right) \Rightarrow A N ⊥ S C\) và \(A M ⊥ \left(\right. S B C \left.\right) \Rightarrow A M ⊥ S C\).

Do đó: \(S C ⊥ \left(\right. A M N \left.\right)\) hay \(S C ⊥ \left(\right. A M P N \left.\right)\).

Suy ra: \(\left(\right. S B , \left(\right. A M N \left.\right) \left.\right) = \left(\right. S M , \left(\right. A M P N \left.\right) \left.\right) = \hat{S M P}\).

Ta có: \(S M = \frac{S A^{2}}{S B} = \frac{2 a^{2}}{\sqrt{2 a^{2} + a^{2}}} = \frac{2 a \sqrt{3}}{3}\);

\(S P = \frac{S A^{2}}{S C} = \frac{2 a^{2}}{\sqrt{2 a^{2} + 2 a^{2}}} = a\).

Nên \(sin ⁡ \hat{S M P} = \frac{S P}{S M} = \frac{\sqrt{3}}{2}\)

\(\Rightarrow \hat{S M P} = 6 0^{\circ}\).

Gọi \(A C \cap B D = O , S O \cap M N = I , A I \cap S C = P\).

\(A N ⊥ \left(\right. S C D \left.\right) \Rightarrow A N ⊥ S C\) và \(A M ⊥ \left(\right. S B C \left.\right) \Rightarrow A M ⊥ S C\).

Do đó: \(S C ⊥ \left(\right. A M N \left.\right)\) hay \(S C ⊥ \left(\right. A M P N \left.\right)\).

Suy ra: \(\left(\right. S B , \left(\right. A M N \left.\right) \left.\right) = \left(\right. S M , \left(\right. A M P N \left.\right) \left.\right) = \hat{S M P}\).

Ta có: \(S M = \frac{S A^{2}}{S B} = \frac{2 a^{2}}{\sqrt{2 a^{2} + a^{2}}} = \frac{2 a \sqrt{3}}{3}\);

\(S P = \frac{S A^{2}}{S C} = \frac{2 a^{2}}{\sqrt{2 a^{2} + 2 a^{2}}} = a\).

Nên \(sin ⁡ \hat{S M P} = \frac{S P}{S M} = \frac{\sqrt{3}}{2}\)

\(\Rightarrow \hat{S M P} = 6 0^{\circ}\).