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 Ta có $\sin 5\alpha -2\sin \alpha \left(\cos 4\alpha +\cos 2\alpha \right)=\sin 5\alpha -2\sin \alpha .\cos 4\alpha -2\sin \alpha .\cos 2\alpha$

$=\sin 5\alpha -\left(\sin 5\alpha -\sin 3\alpha \right)-\left(\sin 3\alpha -\sin \alpha \right)$

$=\sin \alpha .$

Vậy $\sin 5\alpha -2\sin \alpha \left(\cos 4\alpha +\cos 2\alpha \right)=\sin \alpha$

Có \(ab+bc+ac=abc\Leftrightarrow\dfrac{1}{a}+\dfrac{1}{b}+\dfrac{1}{c}=1\)

Áp dụng các bđt sau:Với x;y;z>0 có: \(\dfrac{1}{x+y+z}\le\dfrac{1}{9}\left(\dfrac{1}{x}+\dfrac{1}{y}+\dfrac{1}{z}\right)\) và \(\dfrac{1}{x+y}\le\dfrac{1}{4}\left(\dfrac{1}{x}+\dfrac{1}{y}\right)\) 

Có \(\dfrac{1}{a+3b+2c}=\dfrac{1}{\left(a+b\right)+\left(b+c\right)+\left(b+c\right)}\le\dfrac{1}{9}\left(\dfrac{1}{a+b}+\dfrac{2}{b+c}\right)\)\(\le\dfrac{1}{9}.\dfrac{1}{4}\left(\dfrac{1}{a}+\dfrac{1}{b}+\dfrac{2}{b}+\dfrac{2}{c}\right)=\dfrac{1}{36}\left(\dfrac{1}{a}+\dfrac{3}{b}+\dfrac{2}{c}\right)\)

CMTT: \(\dfrac{1}{b+3c+2a}\le\dfrac{1}{36}\left(\dfrac{1}{b}+\dfrac{3}{c}+\dfrac{2}{a}\right)\)

\(\dfrac{1}{c+3a+2b}\le\dfrac{1}{36}\left(\dfrac{1}{c}+\dfrac{3}{a}+\dfrac{2}{b}\right)\)

Cộng vế với vế => \(VT\le\dfrac{1}{36}\left(\dfrac{6}{a}+\dfrac{6}{b}+\dfrac{6}{c}\right)=\dfrac{1}{36}.6\left(\dfrac{1}{a}+\dfrac{1}{b}+\dfrac{1}{c}\right)=\dfrac{1}{6}\)

Dấu = xảy ra khi a=b=c=3

Có \(a+b=2\Leftrightarrow2\ge2\sqrt{ab}\Leftrightarrow ab\le1\)

\(E=\left(3a^2+2b\right)\left(3b^2+2a\right)+5a^2b+5ab^2+2ab\)

\(=9a^2b^2+6\left(a^3+b^3\right)+4ab+5ab\left(a+b\right)+20ab\)

\(=9a^2b^2+6\left(a+b\right)^3-18ab\left(a+b\right)+4ab+5ab\left(a+b\right)+20ab\)

\(=9a^2b^2+48-18ab.2+4ab+5.2.ab+20ab\)

\(=9a^2b^2-2ab+48\)

Đặt \(f\left(ab\right)=9a^2b^2-2ab+48;ab\le1\), đỉnh \(I\left(\dfrac{1}{9};\dfrac{431}{9}\right)\)

Hàm đồng biến trên khoảng \(\left[\dfrac{1}{9};1\right]\backslash\left\{\dfrac{1}{9}\right\}\)

 \(\Rightarrow f\left(ab\right)_{max}=55\Leftrightarrow ab=1\)

\(\Rightarrow E_{max}=55\Leftrightarrow a=b=1\)

Vậy...

2,

\(ab\le\dfrac{1}{4}\left(a+b\right)^2=1\Rightarrow0\le ab\le1\)

\(E=9a^2b^2+6\left(a^3+b^3\right)+5ab\left(a+b\right)+24ab\)

\(=9a^2b^2+6\left(a+b\right)^3-18ab\left(a+b\right)+5ab\left(a+b\right)+24ab\)

\(=9a^2b^2-2ab+48\)

Đặt \(ab=x\Rightarrow0\le x\le1\)

\(E=9x^2-2x+48=\left(x-1\right)\left(9x+7\right)+55\le55\)

\(E_{max}=55\) khi \(x=1\) hay \(a=b=1\)

Vì A+B+C=180^{\circ}A+B+C=180∘ nên V T=\dfrac{\sin ^{3} \dfrac{B}{2}}{\cos \left(\dfrac{180^{\circ}-B}{2}\right)}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\sin \left(\dfrac{180^{\circ}-B}{2}\right)}-\dfrac{\cos \left(180^{\circ}-B\right)}{\sin B} \cdot \tan BVT=cos(2180∘−B​)sin32B​​+sin(2180∘−B​)cos32B​​−sinBcos(180∘−B)​⋅tanB.

V T=\dfrac{\sin ^{3} \dfrac{B}{2}}{\cos \left(\dfrac{180^{\circ}-B}{2}\right)}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\sin \left(\dfrac{180^{\circ}-B}{2}\right)}-\dfrac{\cos \left(180^{\circ}-B\right)}{\sin B} \cdot \tan BVT=cos(2180∘−B​)sin32B​​+sin(2180∘−B​)cos32B​​−sinBcos(180∘−B)​⋅tanB =\dfrac{\sin ^{3} \dfrac{B}{2}}{\sin \dfrac{B}{2}}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\cos \dfrac{B}{2}}-\dfrac{-\cos B}{\sin B} \cdot \tan B=\sin ^{2} \dfrac{B}{2}+\cos ^{2} \dfrac{B}{2}+1=2=V P=sin2B​sin32B​​+cos2B​cos32B​​−sinB−cosB​⋅tanB=sin22B​+cos22B​+1=2=VP

Suy ra điều phải chứng minh.

Help me !!!!!!!!!

\(BDT\Leftrightarrow2a^4b+2b^4c+2c^4a+3ab^4+3bc^4+3ca^4\ge5a^2b^2c+5a^2bc^2+5ab^2c^2\)

Ta chứng minh được \(ab^4+bc^4+ca^4\ge a^2b^2c+a^2bc^2+ab^2c^2\)

\(\Leftrightarrow\dfrac{a^3}{b}+\dfrac{b^3}{c}+\dfrac{c^3}{a}\ge ab+bc+ca\)

\(VT=\dfrac{a^3}{b}+\dfrac{b^3}{c}+\dfrac{c^3}{a}=\dfrac{a^4}{ab}+\dfrac{b^4}{bc}+\dfrac{c^4}{ac}\)

\(\ge\dfrac{\left(a^2+b^2+c^2\right)^2}{ab+bc+ca}\ge\dfrac{\left(ab+bc+ca\right)^2}{ab+bc+ca}=VP\)

Vậy ta cần chứng minh \(2a^4b+2b^4c+2c^4a+2ab^4+2bc^4+2ca^4\ge4a^2b^2c+4a^2bc^2+4ab^2c^2\)

\(\Leftrightarrow\sum_{cyc}\left(2c^3+bc^2-b^2c+ac^2-a^2c+3ab^2+3a^2b\right)\left(a-b\right)^2\ge0\)

Dấu "=" xảy ra khi \(a=b=c\)

Em có cách này tuy nhiên không chắc,do em mới học sos thôi,mong mọi người giúp đỡ ạ!

BĐT \(\Leftrightarrow\Sigma_{cyc}\left(\frac{7b^3+3ab^2-7a^2b-3a^3}{2a+3b}\right)\ge0\)\(\Leftrightarrow\Sigma_{cyc}\left(\frac{7b\left(b^2-a^2\right)+3a\left(b^2-a^2\right)}{2a+3b}\right)\ge0\)

\(\Leftrightarrow\Sigma_{cyc}\left(\frac{\left(b^2-a^2\right)\left(7b+3a\right)}{2a+3b}-2\left(b^2-a^2\right)\right)\ge0\) (ta không cần cộng thêm \(\Sigma_{cyc}2\left(b^2-a^2\right)\) vì \(\Sigma_{cyc}2\left(b^2-a^2\right)=\Sigma_{cyc}2\left(b^2-a^2+c^2-b^2+a^2-c^2\right)=0\))

\(\Leftrightarrow\Sigma_{cyc}\left(b^2-a^2\right)\left(\frac{7b+3a-4a-6b}{2a+3b}\right)\ge0\)\(\Leftrightarrow\Sigma_{cyc}\frac{\left(a+b\right)\left(a-b\right)^2}{2a+3b}\ge0\)

P/s: Hình như có gì đó sai sai ạ,mong mọi người check hộ em!Em cảm ơn nhiều ạ!

sos helps :3

Ta thấy b = c.

Thêm đk của đề bài là \(\widehat{A}\leq 90^o\), vì nếu ngược lại thì \(a^2>2b^2\) và khi đó điều cần cm sẽ sai.

Do tam giác ABC cân tại A nên DE // BC.

Theo định lý Thales ta có: \(\dfrac{DE}{BC}=\dfrac{AE}{AB}\Leftrightarrow\dfrac{DE}{a}=\dfrac{AE}{b}\Leftrightarrow DE=\dfrac{a.AE}{b}\).

Ta lại có: \(\left\{{}\begin{matrix}AE^2-BE^2=AC^2-BC^2=b^2-a^2\\AE+BE=AB=b\end{matrix}\right.\Leftrightarrow\left\{{}\begin{matrix}AE-BE=\dfrac{b^2-a^2}{b}\\AE+BE=b\end{matrix}\right.\Rightarrow AE=\left(\dfrac{b^2-a^2}{b}+b\right):2=\dfrac{2b^2-a^2}{2b}\).

Do đó \(DE=\dfrac{a\left(2b^2-a^2\right)}{2b^2}\).