a) Ta cần tính cạnh BC và hai góc \(\widehat B,\widehat C.\)

Áp dụng định lí cosin, ta có:

\(\begin{array}{l}B{C^2} = A{B^2} + A{C^2} - 2.AB.AC.\cos A\\ \Leftrightarrow B{C^2} = {14^2} + {23^2} - 2.14.23.\cos {125^o}\\ \Rightarrow BC \approx 33\end{array}\)

Áp dụng định lí sin, ta có:

\(\begin{array}{l}\frac{{BC}}{{\sin A}} = \frac{{AC}}{{\sin B}} = \frac{{AB}}{{\sin C}} \Leftrightarrow \frac{{33}}{{\sin {{125}^o}}} = \frac{{23}}{{\sin B}} = \frac{{14}}{{\sin C}}\\ \Rightarrow \sin B = \frac{{23.\sin {{125}^o}}}{{33}} \approx 0,57\\ \Rightarrow \widehat B \approx {35^o} \Rightarrow \widehat C \approx {20^o}\end{array}\)

b) Ta cần tính góc A và hai cạnh AB, AC.

Ta có: \(\widehat A = {180^o} - \widehat B - \widehat C = {180^o} - {64^o} - {38^o} = {78^o}\)

Áp dụng định lí sin, ta có:

\(\begin{array}{l}\frac{{BC}}{{\sin A}} = \frac{{AC}}{{\sin B}} = \frac{{AB}}{{\sin C}} \Leftrightarrow \frac{{22}}{{\sin {{78}^o}}} = \frac{{AC}}{{\sin {{64}^o}}} = \frac{{AB}}{{\sin {{38}^o}}}\\ \Rightarrow \left\{ \begin{array}{l}AC = \sin {64^o}.\frac{{22}}{{\sin {{78}^o}}} \approx 20,22\\AB = \sin {38^o}.\frac{{22}}{{\sin {{78}^o}}} \approx 13,85\end{array} \right.\end{array}\)

c) Ta cần tính góc A và hai cạnh AB, BC.

Ta có: \(\widehat A = {180^o} - \widehat B - \widehat C = {180^o} - {120^o} - {28^o} = {32^o}\)

Áp dụng định lí sin, ta có:

\(\begin{array}{l}\frac{{BC}}{{\sin A}} = \frac{{AC}}{{\sin B}} = \frac{{AB}}{{\sin C}} \Leftrightarrow \frac{{BC}}{{\sin {{32}^o}}} = \frac{{22}}{{\sin {{120}^o}}} = \frac{{AB}}{{\sin {{28}^o}}}\\ \Rightarrow \left\{ \begin{array}{l}BC = \sin {32^o}.\frac{{22}}{{\sin {{120}^o}}} \approx 13,5\\AB = \sin {28^o}.\frac{{22}}{{\sin {{120}^o}}} \approx 12\end{array} \right.\end{array}\)

d) Ta cần tính số đo ba góc \(\widehat A,\widehat B,\widehat C\)

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

 \(\begin{array}{l}\cos A = \frac{{A{C^2} + A{B^2} - B{C^2}}}{{2.AB.AC}};\cos B = \frac{{B{C^2} + A{B^2} - A{C^2}}}{{2.BC.BA}}\\ \Rightarrow \cos A = \frac{{{{32}^2} + {{23}^2} - {{44}^2}}}{{2.32.23}} = \frac{{ - 383}}{{1472}};\cos B = \frac{{{{44}^2} + {{23}^2} - {{32}^2}}}{{2.44.23}} = \frac{{131}}{{184}}\\ \Rightarrow \widehat A \approx {105^o},\widehat B = {44^o}36'\\ \Rightarrow \widehat C = {30^o}24'\end{array}\)

a) Áp dụng công thức: \(S = \frac{1}{2}bc\sin A\), ta có:

\(S = \frac{1}{2}.14.35.\sin {60^o} = \frac{1}{2}.14.35.\frac{{\sqrt 3 }}{2} \approx 212,2\)

Áp dụng đl cosin, ta có: \({a^2} = {b^2} + {c^2} - 2bc.\cos A\)

\(\begin{array}{l}
\Rightarrow {a^2} = {14^2} + {35^2} - 2.14.35.\cos {60^o} = 931\\
\Rightarrow a \approx 30,5
\end{array}\)

\( \Rightarrow R = \frac{a}{{2\sin A}} = \frac{{30,5}}{{2\sin {{60}^o}}} \approx 17,6\)

b) Ta có: \(p = \frac{1}{2}.(4 + 5 + 3) = 6\)

Áp dụng công thức Heron, ta có:

\(S = \sqrt {p(p - a)(p - b)(p - c)}  = \sqrt {6(6 - 4)(6 - 5)(6 - 3)}  = 6.\)

Lại có: \(S = \frac{{abc}}{{4R}} \Rightarrow R = \frac{{abc}}{{4S}} = \frac{{4.5.3}}{{4.6}} = 2,5.\)

Ta có: \(\widehat A = {15^o},\;\widehat B = {130^o} \Rightarrow \widehat C = {35^o}\)

Áp dụng định lí sin trong tam giác ABC ta có:

\(\dfrac{a}{{\sin A}} = \dfrac{b}{{\sin B}} = \dfrac{c}{{\sin C}}\)

\( \Rightarrow b = \dfrac{{c.\sin B}}{{\sin C}};\;\;a = \dfrac{{c.\sin A}}{{\sin C}}\)

Mà \(\widehat A = {15^o},\;\widehat B = {130^o},\;\widehat C = {35^o},c = 6\)

\( \Rightarrow b = \dfrac{{6.\sin {{130}^o}}}{{\sin {{35}^o}}} \approx 8;\;\;a = \dfrac{{6.\sin {{15}^o}}}{{\sin {{35}^o}}} \approx 2,7\)

Diện tích tam giác ABC là \(S = \dfrac{1}{2}bc.\sin A = \dfrac{1}{2}.8.6.\sin {15^o} \approx 6,212.\)

Vậy \(a \approx 2,7;\;\,b \approx 8\); \(\widehat C = {35^o}\); \(S \approx 6,212.\)

Chọn B

Áp dụng định lí sin trong tam giác ABC ta có:

 \(\dfrac{a}{{\sin A}} = \dfrac{b}{{\sin B}} = \dfrac{c}{{\sin C}} = 2R\)

\( \Rightarrow R = \dfrac{a}{{2\sin A}};\;\;b = \dfrac{{a.\sin B}}{{\sin A}}\)

Mà \(a = 10,\widehat A = {45^o},\widehat B = {70^o}\)

\( \Rightarrow R = \dfrac{{10}}{{2\sin {{45}^o}}} = 5\sqrt 2 ;\;\;b = \dfrac{{a.\sin {{70}^o}}}{{\sin {{45}^o}}} \approx 13,29\)

Mặt khác: \(\widehat A = {45^o},\widehat B = {70^o} \Rightarrow \widehat C = {65^o}\)

Từ định lí sin ta suy ra: \(c = \dfrac{{a.\sin C}}{{\sin A}} = \dfrac{{10.\sin {{65}^o}}}{{\sin {{45}^o}}} \approx 12,82.\)

Vậy \(R = 5\sqrt 2 ;\;\;b \approx 13,29\); \(c \approx 12,82.\)

a) \(c^2=a^2+b^2-2abcosC\)

\(=7^2+10^2-2\times7\times10\times cos56^o29\)

\(\approx71,69\Rightarrow c\approx8,5\)

b) \(b^2=a^2+c^2-2accosB\)

\(=2^2+3^2-2\times2\times3\times cos123^o17\)

\(\approx17,4\Rightarrow b\approx4,2\)

c) \(a^2=b^2+c^2-2bccosA\)

= \(0^2+12^2-2\times0\times12\times cos23^o28\)

\(=144\Rightarrow a\approx12\)

Áp dụng định lí sin cho tam giác ABC ta có:

\(\frac{b}{{\sin B}} = \frac{c}{{\sin C}}\)

\( \Rightarrow c = \sin C.\frac{b}{{\sin B}} = \sin {45^o}.\frac{2}{{\sin {{30}^o}}} = 2\sqrt 2 \)

Lại có: \(\;\widehat A = {180^o} - \widehat B - \widehat C = {180^o} - {30^o} - {45^o} = {105^o}\)

Do đó diện tích tích S của tam giác ABC là:

\(S = \frac{1}{2}bc.\sin A = \frac{1}{2}.2.2\sqrt 2 .\sin {105^o} = 1 + \sqrt 3 .\)

Vậy diện tích tam giác ABC là \(1 + \sqrt 3 \).

Theo định lí sin: \(\frac{a}{{\sin A}} = \frac{b}{{\sin B}} = \frac{c}{{\sin C}} = 2R\quad (*)\)

+) Ta có: \(\hat A = {180^o} - \left( {\hat B + \;\hat C} \right) = {180^o} - \left( {{{60}^o} + {{45}^o}} \right) = {75^o}\)

\( \Rightarrow a = \frac{b}{{\sin B}}.\sin A = \frac{{10}}{{\sin {{60}^o}}}.\sin {75^o} \approx 11,154\)

+) \((*) \Rightarrow R = \frac{b}{{2\sin B}} = \frac{{10}}{{2\sin {{60}^o}}} = \frac{{10}}{{2.\frac{{\sqrt 3 }}{2}}} = \frac{{10\sqrt 3 }}{3}.\)

+) Diện tích tam giác ABC là: \(S = \frac{1}{2}ab.\sin {\mkern 1mu} \hat C\) \( \approx \frac{1}{2}.11,154.10.\sin {45^o}\)\( \approx 39,44\)

+) Lại có: \(R = \frac{c}{{2\sin C}}\)\( \Rightarrow c = 2.\frac{{10\sqrt 3 }}{3}.\sin {45^o} = \frac{{10\sqrt 6 }}{3} \approx 8,165\)

\( \Rightarrow p = \frac{{a + b + c}}{2} \approx \frac{{11,154 + 10 + 8,165}}{2} \approx 14,66\)

\( \Rightarrow r = \frac{S}{p} \approx \frac{{39,44}}{{14,66}} \approx 2,7\)

d/ \(B=180^0-\left(A+C\right)=75^0\)

\(\Rightarrow b=c=4,5\)

\(\frac{a}{sinA}=\frac{b}{sinB}\Rightarrow a=\frac{b.sinA}{sinB}=\frac{9}{4}\left(\sqrt{6}-\sqrt{2}\right)\)

e/ \(cosA=\frac{b^2+c^2-a^2}{2bc}\Rightarrow a=\sqrt{b^2+c^2-2bc.cosA}\approx23\)

\(cosB=\frac{a^2+c^2-b^2}{2ac}=\frac{433}{460}\Rightarrow B\approx19^043'\)

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

f/ \(cosA=\frac{b^2+c^2-a^2}{2bc}=\frac{11}{15}\Rightarrow A\approx42^050'\)

\(cosB=\frac{a^2+c^2-b^2}{2ac}=\frac{17}{35}\Rightarrow B\approx60^056'\)

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

a/ \(cosA=\frac{b^2+c^2-a^2}{2bc}=-\frac{1}{2}\Rightarrow A=120^0\)

\(cosB=\frac{a^2+c^2-b^2}{2ac}=\frac{\sqrt{2}}{2}\Rightarrow B=45^0\)

\(C=180^0-\left(A+B\right)=15^0\)

b/\(A=180^0-\left(B+C\right)=79^037'\)

\(\frac{a}{sinA}=\frac{b}{sinB}=\frac{c}{sinC}\Rightarrow\left\{{}\begin{matrix}b=\frac{sinB}{sinA}.a\approx61\\c=\frac{sinC}{sinA}.a\approx102\end{matrix}\right.\)

c/\(\frac{a}{sinA}=\frac{b}{sinB}\Rightarrow sinB=\frac{bsinA}{a}\approx0,6\Rightarrow B\approx36^052'\)

\(\Rightarrow C=180^0-\left(A+B\right)=75^045'\)

\(\frac{a}{sinA}=\frac{c}{sinC}\Rightarrow c=\frac{a.sinC}{sinA}\approx21\)