Tham khảo:

a) Ta có: \(\widehat {AMB} + \widehat {AMC} = {180^o}\)

\( \Rightarrow \cos \widehat {AMB} =  - \cos \widehat {AMC}\)

Hay \(\cos \widehat {AMB} + \cos \widehat {AMC} = 0\)

b) Áp dụng định lí cos trong tam giác AMB ta có:

 \(\begin{array}{l}A{B^2} = M{A^2} + M{B^2} - 2MA.MB\;\cos \widehat {AMB}\\ \Leftrightarrow M{A^2} + M{B^2} - A{B^2} = 2MA.MB\;\cos \widehat {AMB}\;\;(1)\end{array}\)

Tương tự, Áp dụng định lí cos trong tam giác AMB ta được:

\(\begin{array}{l}A{C^2} = M{A^2} + M{C^2} - 2MA.MC\;\cos \widehat {AMC}\\ \Leftrightarrow M{A^2} + M{C^2} - A{C^2} = 2MA.MC\;\cos \widehat {AMC}\;\;(2)\end{array}\)

c) Từ (1), suy ra \(M{A^2} = A{B^2} - M{B^2} + 2MA.MB\;\cos \widehat {AMB}\;\)

Từ (2), suy ra \(M{A^2} = A{C^2} - M{C^2} + 2MA.MC\;\cos \widehat {AMC}\;\)

Cộng vế với vế ta được:

\(2M{A^2} = \left( {A{B^2} - M{B^2} + 2MA.MB\;\cos \widehat {AMB}} \right)\; + \left( {A{C^2} - M{C^2} + 2MA.MC\;\cos \widehat {AMC}} \right)\;\)

\( \Leftrightarrow 2M{A^2} = A{B^2} + A{C^2} - M{B^2} - M{C^2} + 2MA.MB\;\cos \widehat {AMB} + 2MA.MC\;\cos \widehat {AMC}\)

Mà: \(MB = MC = \frac{{BC}}{2}\) (do AM là trung tuyến)

\( \Rightarrow 2M{A^2} = A{B^2} + A{C^2} - {\left( {\frac{{BC}}{2}} \right)^2} - {\left( {\frac{{BC}}{2}} \right)^2} + 2MA.MB\;\cos \widehat {AMB} + 2MA.MB\;\cos \widehat {AMC}\)

\( \Leftrightarrow 2M{A^2} = A{B^2} + A{C^2} - 2.{\left( {\frac{{BC}}{2}} \right)^2} + 2MA.MB\;\left( {\cos \widehat {AMB} + \;\cos \widehat {AMC}} \right)\)

\( \Leftrightarrow 2M{A^2} = A{B^2} + A{C^2} - {\frac{{BC}}{2}^2}\)

\(\begin{array}{l} \Leftrightarrow M{A^2} = \frac{{A{B^2} + A{C^2} - {{\frac{{BC}}{2}}^2}}}{2}\\ \Leftrightarrow M{A^2} = \frac{{2\left( {A{B^2} + A{C^2}} \right) - B{C^2}}}{4}\end{array}\) (đpcm)

Cách 2:

Theo ý a, ta có: \(\cos \widehat {AMC} =  - \cos \widehat {AMB}\)

Từ đẳng thức (1): suy ra \(\cos \widehat {AMB} = \frac{{M{A^2} + M{B^2} - A{B^2}}}{{2.MA.MB}}\)

 \( \Rightarrow \cos \widehat {AMC} =  - \cos \widehat {AMB} =  - \frac{{M{A^2} + M{B^2} - A{B^2}}}{{2.MA.MB}}\)

Thế \(\cos \widehat {AMC}\)vào biểu thức (2), ta được:

\(M{A^2} + M{C^2} - A{C^2} = 2MA.MC.\left( { - \frac{{M{A^2} + M{B^2} - A{B^2}}}{{2.MA.MB}}} \right)\)

Lại có: \(MB = MC = \frac{{BC}}{2}\) (do AM là trung tuyến)

\(\begin{array}{l} \Rightarrow M{A^2} + {\left( {\frac{{BC}}{2}} \right)^2} - A{C^2} = 2MA.MB.\left( { - \frac{{M{A^2} + M{B^2} - A{B^2}}}{{2.MA.MB}}} \right)\\ \Leftrightarrow M{A^2} + {\left( {\frac{{BC}}{2}} \right)^2} - A{C^2} =  - \left( {M{A^2} + M{B^2} - A{B^2}} \right)\\ \Leftrightarrow M{A^2} + {\left( {\frac{{BC}}{2}} \right)^2} - A{C^2} + M{A^2} + {\left( {\frac{{BC}}{2}} \right)^2} - A{B^2} = 0\\ \Leftrightarrow 2M{A^2} - A{B^2} - A{C^2} + {\frac{{BC}}{2}^2} = 0\\ \Leftrightarrow 2M{A^2} = A{B^2} + A{C^2} - {\frac{{BC}}{2}^2}\\ \Leftrightarrow M{A^2} = \frac{{A{B^2} + A{C^2} - {{\frac{{BC}}{2}}^2}}}{2}\\ \Leftrightarrow M{A^2} = \frac{{2\left( {A{B^2} + A{C^2}} \right) - B{C^2}}}{4}\end{array}\)

a: \(\widehat{ACx}=180^0-40^0=140^0\)

\(\widehat{xCy}=\widehat{yCA}=\dfrac{140^0}{2}=70^0\)

b: Ta có: \(\widehat{yCA}=\widehat{CAB}\)

mà hai góc này ở vị trí so le trong

nên AB//Cy

\(AB=BC=\dfrac{AD}{2}=a\Rightarrow AD=2a\)

\(C\in CD:3x+4y-4=0\Rightarrow C\left(b;4-3b\right)\)

\(xét\Delta ABC\) \(vuông\) \(tạiB\Rightarrow AC=\sqrt{AB^2+BC^2}=a\sqrt{2}\)

\(\Delta ABC\) \(vuông\) \(cân\) \(tạiB\Rightarrow\) \(goscBAC=45^o\)

\(\Rightarrow góc\) \(DAC=45^o\) 

\(xét\Delta ADC\) \(có:DC=\sqrt{AC^2+AD^2-2AC.AD.cos\left(45^o\right)}\)

\(=\sqrt{2a^2+4a^2-2.a^2\sqrt{2}.2.cos\left(45\right)}=a\sqrt{2}\)

\(\Rightarrow DC=AC\Rightarrow\Delta ADC\) \(cân\) \(tạiC\Rightarrow góc\left(DAC\right)=góc\left(ADC\right)=45^o\Rightarrow góc\left(ACD\right)=90^o\)

\(\overrightarrow{CA}=\left(-2-b;3b-4\right)\Rightarrow\overrightarrow{n_{ca}=}\left(4-3b;-2-b\right)\)

\(CD:3x+y-4=0\Rightarrow\overrightarrow{n}=\left(3;1\right)\)

\(\Rightarrow cos\left(90\right)=0=3\left(4-3b\right)-2-b=0\Leftrightarrow b=1\)

\(\Rightarrow C\left(1;1\right)\)

\(đặt:B\left(x;y\right)\left(y>0\right)\)

\(\Rightarrow\left\{{}\begin{matrix}\overrightarrow{BA}.\overrightarrow{BC}=\overrightarrow{0}\\AB=BC\end{matrix}\right.\) \(hệ\) \(pt\) \(ẩn\) \(x;y\Rightarrow B=\left(......\right)\)

\(\widehat{B}=180^o-\left(40^o+120^o\right)=20^o\).

\(AH=AB.sinB=35.sin20^o\cong12cm.\)
\(\widehat{HCA}=180^o-120^o=60^o\).
\(AH=AC.sin60^o\Rightarrow AC=\dfrac{AH}{sin60}=\dfrac{12}{\dfrac{\sqrt{3}}{2}}=8\sqrt{3}\).
Áp dụng định lý Cô-sin:
\(BC=\sqrt{AB^2+AC^2-2.AB.AC.sinA}\)\(=\sqrt{35^2+\left(8\sqrt{3}\right)^2-2.35.8\sqrt{3}.cos40^o}\cong26cm\).
Vậy \(a=26cm;b=8\sqrt{3}cm,\)\(\widehat{B}=20^o\).

Áp dụng định lý cô sin trong tam giác ABC:
\(c^2=a^2+b^2-2abcosC=7^2+23^2-2.7.23.cos130\)\(\cong784cm\).
Vậy \(c=28cm.\)
\(cosA=\dfrac{c^2+b^2-a^2}{2bc}=\dfrac{28^2+23^2-7^2}{2.23.28}=\dfrac{158}{161}\).
\(\Rightarrow\widehat{A}\cong11^o\).
\(\widehat{B}=180^o-\left(\widehat{A}+\widehat{C}\right)=180^o-\left(130^o+11^o\right)=39^o\).

Áp dụng hệ quả của định lí cosin, ta có:

 \(\begin{array}{l}\cos A = \frac{{{b^2} + {c^2} - {a^2}}}{{2bc}};\cos B = \frac{{{a^2} + {c^2} - {b^2}}}{{2ac}}\\ \Rightarrow \cos A = \frac{{{{13}^2} + {{15}^2} - {{24}^2}}}{{2.13.15}} =  - \frac{7}{{15}};\cos B = \frac{{{{24}^2} + {{15}^2} - {{13}^2}}}{{2.24.15}} = \frac{{79}}{{90}}\\ \Rightarrow \widehat A \approx 117,{8^ \circ },\widehat B \approx 28,{6^o}\\ \Rightarrow \widehat C \approx 33,{6^o}\end{array}\)