Áp dụng định lí cosin trong tam giác ABC, ta có:

\(\begin{array}{l}{c^2} = {b^2} + {a^2} - 2ab\cos C\\ \Leftrightarrow {c^2} = 26,{4^2} + 49,{4^2} - 2.26,4.49,4\cos {47^ \circ }20'\\ \Rightarrow c \approx 37\end{array}\)

Áp dụng định lí sin, ta có: \(\frac{a}{{\sin A}} = \frac{b}{{\sin B}} = \frac{c}{{\sin C}}\)

\(\begin{array}{l} \Leftrightarrow \frac{{49,4}}{{\sin A}} = \frac{{26,4}}{{\sin B}} = \frac{{37}}{{\sin {{47}^ \circ }20'}}\\ \Rightarrow \sin A = \frac{{49,4.\sin {{47}^ \circ }20'}}{{37}} \approx 0,982 \Rightarrow \widehat A \approx {79^ \circ }\\ \Rightarrow \widehat B \approx {180^ \circ } - {79^ \circ } - {47^ \circ }20' = {53^ \circ }40'\end{array}\)

Xét ΔABC có 

\(cosC=\dfrac{CA^2+CB^2-AB^2}{2\cdot CA\cdot CB}\)

=>\(\dfrac{26.4^2+49.4^2-AB^2}{2\cdot26.4\cdot49.4}=cos\left(47^020'\right)\)

=>\(3137.32-AB^2=2608.32\cdot cos\left(47^020'\right)\)

=>\(AB=\sqrt{3137.32-2608.32\cdot cos47^020'}\simeq37\left(cm\right)\)

Xét ΔABC có \(\dfrac{AB}{sinC}=\dfrac{AC}{sinB}=\dfrac{BC}{sinA}\)

=>\(\dfrac{37}{sin47^020'}=\dfrac{26.4}{sinB}=\dfrac{49.4}{sinA}\)

=>\(\left\{{}\begin{matrix}sinB\simeq0.52\\sinA\simeq0.98\end{matrix}\right.\Leftrightarrow\widehat{B}\simeq31^019'\)

\(\widehat{A}=180^0-31^019'-47^020'=101^021'\)

\(c=\sqrt{a^2+b^2-2.a.b.cosC}\)

\(=\sqrt{49,4^2+26,4^2-2.26,4.49,4.cos47^o20'}\simeq37\)

Ta có:

\(cosA=\dfrac{b^2+c^2-a^2}{2bc}=\dfrac{\left(26,4\right)^2+37^2-\left(49,4\right)^2}{2.26,4.37}\simeq-0,2\)

\(\Rightarrow\widehat{A}\simeq101,5^o\)

\(\Rightarrow\widehat{B}=180^o-101,5^o-47,3^o=31,2^o\)

a) Áp dụng định lí cosin, ta có:

 \(\begin{array}{l}{a^2} = {b^2} + {c^2} - 2bc.\cos A\\ \Leftrightarrow {a^2} = {8^2} + {5^2} - 2.8.5.\cos {120^ \circ } = 129\\ \Rightarrow a = \sqrt {129} \end{array}\)

Áp dụng định lí sin, ta có:

\(\begin{array}{l}\frac{a}{{\sin A}} = \frac{b}{{\sin B}} = \frac{c}{{\sin C}} \Rightarrow \frac{{\sqrt {129} }}{{\sin {{120}^ \circ }}} = \frac{8}{{\sin B}} = \frac{5}{{\sin C}}\\ \Rightarrow \left\{ \begin{array}{l}\sin B = \frac{{8.\sin {{120}^ \circ }}}{{\sqrt {129} }} \approx 0,61\\\sin C = \frac{{5.\sin {{120}^ \circ }}}{{\sqrt {129} }} \approx 0,38\end{array} \right. \Rightarrow \left\{ \begin{array}{l}\widehat B \approx 37,{59^ \circ }\\\widehat C \approx 22,{41^ \circ }\end{array} \right.\end{array}\)

b) Diện tích tam giác ABC là: \(S = \frac{1}{2}bc.\sin A = \frac{1}{2}.8.5.\sin {120^ \circ } = 10\sqrt 3 \)

c) 

+) Theo định lí sin, ta có: \(R = \frac{a}{{2\sin A}} = \frac{{\sqrt {129} }}{{2\sin {{120}^ \circ }}} = \sqrt {43} \)

+) Đường cao AH của tam giác bằng: \(AH = \frac{{2S}}{a} = \frac{{2.10\sqrt 3 }}{{\sqrt {129} }} = \frac{{20\sqrt {43} }}{{43}}\)

a² = 8² + 5² - 2.8.5 cos 120⁰ = 64 + 25 + 40 = 129

=> a = √129 ≈ 11, 36cm

Ta có thể tính góc B theo định lí cosin

cosB = = ≈ 0,7936 => = 37⁰48’

Ta cũng có thể tính góc B theo định lí sin :

cosB = = => sinB ≈ 0,6085 => = 37⁰48’

Tính C từ = 180⁰- ( + ) => ≈ 22⁰12’

\(A=180-\left(B+C\right)=40^0\)

\(b=\dfrac{a}{sinA}.sinB\approx212.3\left(cm\right)\)

\(c=\dfrac{a}{sinA}.sinC=179,4\left(cm\right)\)

\(R=\dfrac{a}{2sinA}=107\left(cm\right)\)

\(S=\dfrac{abc}{4R}=12235,8\left(cm^2\right)\)

Tham khảo:

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

 \(\begin{array}{l}\cos A = \frac{{{b^2} + {c^2} - {a^2}}}{{2bc}};\cos B = \frac{{{a^2} + {c^2} - {b^2}}}{{2ac}}\\ \Rightarrow \left\{ \begin{array}{l}\cos A = \frac{{{{10}^2} + {{13}^2} - {8^2}}}{{2.10.13}} = \frac{{41}}{{52}} > 0;\\\cos B = \frac{{{8^2} + {{13}^2} - {{10}^2}}}{{2.8.13}} = \frac{{133}}{{208}} > 0\\\cos C = \frac{{{8^2} + {{10}^2} - {{13}^2}}}{{2.8.10}} =  - \frac{1}{{32}} < 0\end{array} \right.\end{array}\)

\( \Rightarrow \widehat C \approx 91,{79^ \circ } > {90^ \circ }\), tam giác ABC có góc C tù.

b) 

+) Áp dụng định lí cosin trong tam giác ACM, ta có:

\(\begin{array}{l}A{M^2} = A{C^2} + C{M^2} - 2.AC.CM.\cos C\\ \Leftrightarrow A{M^2} = {8^2} + {5^2} - 2.8.5.\left( { - \frac{1}{{32}}} \right) = 91,5\\ \Rightarrow AM \approx 9,57\end{array}\)

+) Ta có: \(p = \frac{{8 + 10 + 13}}{2} = 15,5\).

Áp dụng công thức heron, ta có: \(S = \sqrt {p(p - a)(p - b)(p - c)}  = \sqrt {15,5.(15,5 - 8).(15,5 - 10).(15,5 - 13)}  \approx 40\)

+) Áp dụng định lí sin, ta có:

\(\frac{c}{{\sin C}} = 2R \Rightarrow R = \frac{c}{{2\sin C}} = \frac{{13}}{{2.\sin 91,{{79}^ \circ }}} \approx 6,5\)

c) 

Ta có: \(\widehat {BCD} = {180^ \circ } - 91,{79^ \circ } = 88,{21^ \circ }\); \(CD = AC = 8\)

Áp dụng định lí cosin trong tam giác BCD, ta có:

\(\begin{array}{l}B{D^2} = C{D^2} + C{B^2} - 2.CD.CB.\cos \widehat {BCD}\\ \Leftrightarrow B{D^2} = {8^2} + {10^2} - 2.8.10.\cos 88,{21^ \circ } \approx 159\\ \Rightarrow BD \approx 12,6\end{array}\)

S²= p(p-AB)(p-AC)(p-BC)  *

mà p=(a+b+c):2

=> p= (7+9+12):2

=> p= 14 (đvđđd)

*<=> S²=14(14-7)(14-9)(14-12)

<=>S=\(\sqrt{\left(980\right)}\)

<=> S=\(14\sqrt{5}\)

S= (abc):4R => S=(7x9x12):4R => S=756:4R 

=> R=6

S=pr

=> S=14r

=> r= \(\sqrt{\left(5\right)}\)