đặt \(am^3=bn^3=cp^3=k^3\)

\(\Rightarrow a=\dfrac{k^3}{m^3};b=\dfrac{k^3}{n^3};c=\dfrac{k^3}{p^3}\)

VT=\(\sqrt[3]{a}+\sqrt[3]{b}+\sqrt[3]{c}=\dfrac{k}{m}+\dfrac{k}{n}+\dfrac{k}{p}=k\)

VF=\(\sqrt[3]{\dfrac{k^3}{m}+\dfrac{k^3}{n}+\dfrac{k^3}{p}}=\sqrt[3]{k^3}=k\)

do đó VT=VF, đẳng thức được chứng minh

Đặt VP=A

có căn bâc 3 (am^2+bn^2+cp^2=căn bậc 3 (am^3/m+bn^3/n+cp^3/p)=căn bậc 3 (am^3(1/m+1/n+p)) (do am^3=bn^3=cp^3)

=căn bậc 3 (am^3) (do 1/m+1/n+1/p=1)=> m.căn bậc 3(a)=A=>căn bậc 3 (a)=A/m 

tương tự căn bậc 3 (b)=A/n, căn bậc 3 (p)=A/p 

Cộng theo vế => VT = A/m+A/n+A/p=A(1/m+1/n+1/p)=A=VP (do 1/m+1/n+1/p=1)

Toán lớp 9 thì chịu thôi. 

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a: 

Xét tứ giác BLKC có góc BLC=góc BKC=90 độ

nên BLKC là tứ giác nội tiếp

=>góc ALK=góc ACB

=>ΔALK đồng dạng với ΔACB

=>AL/AC=AK/AB=LK/BC

\(\left(\dfrac{AK}{AB}\right)^2=\dfrac{AK}{AB}\cdot\dfrac{AK}{AB}=\dfrac{AL}{AC}\cdot\dfrac{BK}{BC}\)

b: \(\dfrac{S_{AKL}}{S_{ABC}}=\left(\dfrac{AK}{AB}\right)^2=\dfrac{AL\cdot BK}{AC\cdot BC}\)

Lời giải:
\(S_{ABC}=\frac{AD.BC}{2}; S_{ABMC}=\frac{AM.BC}{2}\)

\(\Rightarrow \frac{S_{ABMC}}{S_{ABC}}=\frac{AM}{AD}\)

Hoàn toàn TT: \(\frac{S_{ABCN}}{S_{ABC}}=\frac{BN}{BE}; \frac{S_{ACBK}}{S_{ABC}}=\frac{CK}{CF}\)

Do đó:
\(\frac{AM}{AD}+\frac{BN}{BE}+\frac{CK}{CF}=\frac{S_{ABMC}+S_{ABCN}+S_{ACBK}}{S_{ABC}}\)

\(=\frac{S_{ABC}+S_{BMC}+S_{ABC}+S_{ANC}+S_{ABC}+S_{AKB}}{S_{ABC}}=3+\frac{S_{BMC}+S_{ANC}+S_{AKB}}{S_{ABC}}(*)\)

Lại có:

\(\widehat{MBD}=\widehat{MBC}=\widehat{MAC}\) (góc nội tiếp cùng chắn cung MC)

\(=\widehat{HAE}=90^0-\widehat{AHE}=90^0-\widehat{BHD}=\widehat{HBD}\)

Xét tam giác $HBD$ và $MBD$ có:

\(\left\{\begin{matrix} \widehat{MBD}=\widehat{HBD}\\ \widehat{BDH}=\widehat{BDM}=90^0\end{matrix}\right.\) \(\Rightarrow \triangle HBD\sim \triangle MBD\)

\(\Rightarrow \frac{HD}{BD}=\frac{MD}{BD}\Rightarrow HD=MD\)

\(\Rightarrow S_{BHC}=\frac{HD.BC}{2}=\frac{MD.BC}{2}=S_{BMC}\)

Hoàn toàn TT: \(S_{AHC}=S_{ANC}; S_{AHB}=S_{AKB}\)

\(\Rightarrow S_{BMC}+S_{ANC}+S_{AKB}=S_{BHC}+S_{AHC}+S_{AHB}=S_{ABC}(**)\)

Từ \((1);(2)\Rightarrow \frac{AM}{AD}+\frac{BN}{BE}+\frac{CK}{CF}=3+\frac{S_{ABC}}{S_{ABC}}=4\) (đpcm)