a: \(cosA=\dfrac{AB^2+AC^2-BC^2}{2\cdot AB\cdot AC}\)

\(\Leftrightarrow AB^2+AC^2-BC^2=2\cdot AB\cdot AC\cdot cosA\)

\(\Leftrightarrow BC^2=AB^2+AC^2-2\cdot AB\cdot AC\cdot cosA\)

b: 

A B C H M

kẻ AH\(\perp BC\left(H\in BC\right)\)

ta có: AB²+AC²=AH²+BH²+AH²+HC²

⁼ 2AH²+(MB-MH)²+(MC+MH)²

=2AH²+MB²+MH²-2MB.MH+MC²+MH²+2MC.MH

=2(AH²+MH²)+2MB²(vì MB=MC)

=2AM²+2.\(\frac{BC^2}{4}\)=\(2AM^2+\frac{BC^2}{2}\)(đfcm)

vậy \(AB^2+AC^2=2AM^2+\frac{BC^2}{2}\)

2.

a, Kẻ \(AH\perp BC\Rightarrow\left\{{}\begin{matrix}cosB=\frac{BH}{AB}\\cosC=\frac{CH}{AC}\end{matrix}\right.\)\(\Rightarrow\left\{{}\begin{matrix}BH=AB.cosB\\CH=AC.cosC\end{matrix}\right.\)

\(\Rightarrow BC=BH+CH=AB.cosB+AC.cosC\)

b, câu b trưa học tối làm tiếp nha, giờ có việc gấp

1. Đề đúng phải là \(sin\widehat{BAC}=2sin\widehat{HAC}.cos\widehat{HAC}\) \(\left(cos\text{ không phải }cot\right)\)

Kẻ \(BD\perp AC\)

\(sin\widehat{BAC}=2sin\widehat{HAC}.cos\widehat{HAC}\)

\(\Leftrightarrow\frac{BD}{AB}=2.\frac{CH}{AC}.\frac{AH}{AC}=\frac{BC.AH}{AB^2}\)

\(\Leftrightarrow\frac{BD}{BC}=\frac{AH}{AB}\)

Ta cần chứng minh \(\frac{BD}{BC}=\frac{AH}{AB}\)

Xét \(\Delta BDC\) và \(\Delta AHB\) có:

\(\left\{{}\begin{matrix}\widehat{C}=\widehat{ABH}\\\widehat{BDC}=\widehat{AHB}=90^o\end{matrix}\right.\Rightarrow\Delta BDC\sim\Delta AHB\left(g-g\right)\)

\(\Rightarrow\frac{BD}{BC}=\frac{AH}{AB}\left(đpcm\right)\)

a/ BN và CN cắt nhau tại I => \(NI=\frac{BI}{2}\) và \(MI=\frac{CI}{2}\)

+ Ta có \(AC=2CN\Rightarrow AC^2=4CN^2\)và \(AB=2BM\Rightarrow AB^2=4BM^2\)

+ Xét tg vuông BIM có \(BM^2=BI^2+MI^2\Rightarrow4BM^2=AB^2=4\left(BI^2+MI^2\right)=4\left(BI^2+\frac{CI^2}{4}\right)\)

+ Xét tg vuông CIN có \(CN^2=CI^2+NI^2\Rightarrow4CN^2=AC^2=4\left(CI^2+NI^2\right)=4\left(CI^2+\frac{BI^2}{4}\right)\)

\(\Rightarrow AB^2+AC^2=4\left[\left(BI^2+CI^2\right)+\frac{BI^2+CI^2}{4}\right]\)

Mà trong tg vuông BIC có \(BC^2=BI^2+CI^2\)

\(\Rightarrow AB^2+AC^2=4\left(BC^2+\frac{BC^2}{4}\right)=5BC^2\)

b/ 

trong tam giac vuong ABH Cco \(AH^2+BH^2=AB^2\Rightarrow AH^2=AB^2-BH^2\left(1\right)\)

                                   AHC co \(AH^2+HC^2=AC^2\Rightarrow AH^2=AC^2-HC^2\left(2\right)\)

tu (1) va(2 ) suy ra \(AB^2-BH^2=AC^2-HC^2\Rightarrow AB^2+HC^2=AC^2+BH^2\)