Giải:

Ta có: \(\frac{x-2}{5}=\frac{2x-3}{4}\)

\(\Rightarrow\left(x-2\right).4=5.\left(2x-3\right)\)

\(\Rightarrow4x-8=10x-15\)

\(\Rightarrow4x-10x=8-15\)

\(\Rightarrow-6x=-7\)

\(\Rightarrow x=\frac{7}{6}\)

Vậy \(x=\frac{7}{6}\)

Giải :

Ta có : \(\frac{x-2}{5}=\frac{2x-3}{4}\)

\(\Rightarrow\left(x-2\right),4=5,\left(2x-3\right)\)

\(\Rightarrow4x-8=10x-15\)

\(\Rightarrow4x-10x=8-15\)

\(\Rightarrow-6x=-7\)

\(\Rightarrow x=\frac{7}{6}\)

Vậy \(x\) là \(\frac{7}{6}\)

lm jup mk di m.n

Ta có \(\frac{1}{11};\frac{1}{12};\frac{1}{13};...;\frac{1}{19}>\frac{1}{20}\)

1. Suy ra S > \(\frac{1}{20}+\frac{1}{20}+\frac{1}{20}+...+\frac{1}{20}+\frac{1}{20}\)( có 10 số hạng)=\(\frac{10}{20}=\frac{1}{2}\)
2. Vậy S>\(\frac{1}{2}\)

Ta có S=1/11+1/12+1/13+...+1/20(có 10 phân số)

           S>1/20+1/20+1/20+...+1/20(có 10 phân số)

           S<10/20=1/2

           Nên tổng của S>1/2

a) \(A=\log_{5^{-2}}5^{\frac{5}{4}}=-\frac{1}{2}.\frac{5}{4}.\log_55=-\frac{5}{8}\)

b) \(B=9^{\frac{1}{2}\log_22-2\log_{27}3}=3^{\log_32-\frac{3}{4}\log_33}=\frac{2}{3^{\frac{3}{4}}}=\frac{2}{3\sqrt[3]{3}}\)

c) \(C=\log_3\log_29=\log_3\log_22^3=\log_33=1\)

d) Ta có \(D=\log_{\frac{1}{3}}6^2-\log_{\frac{1}{3}}400^{\frac{1}{2}}+\log_{\frac{1}{3}}\left(\sqrt[3]{45}\right)\)

                   \(=\log_{\frac{1}{3}}36-\log_{\frac{1}{3}}20+\log_{\frac{1}{3}}45\)

                   \(=\log_{\frac{1}{3}}\frac{36.45}{20}=\log_{3^{-1}}81=-\log_33^4=-4\)

a. Áp dụng bất đẳng thức Cauchy ta được 

\(\log_23+\log_32>2\sqrt{\log_23.\log_32}=2\) (1)

((1) không có dấu bằng vì \(\log_23\ne\log_32\))

Ta có :

                 \(\log_23+\log_32< \frac{5}{2}\Leftrightarrow\log_23+\frac{1}{\log_32}-\frac{5}{2}< 0\)

              \(\Leftrightarrow2\log^2_23-5\log_23+2< 0\)

              \(\Leftrightarrow\left(2\log_23-1\right)\left(\log_23-2\right)< 0\)  (*)

Mặt khác : \(\begin{cases}2\log_23-1>0\\\log_23-3< 0\end{cases}\)  \(\Rightarrow\) (*) đúng

                                               \(\Rightarrow\log_23+\log_32< \frac{5}{2}\) (2)

Từ (1) và (2) \(\Rightarrow2< \log_23+\log_32< \frac{5}{2}\) => Điều phải chứng minh

b. Ta có \(\log_{\frac{1}{2}}3+\log_3\frac{1}{2}=-\left(\log_23+\log_32\right)\)  (1)

Chứng minh như câu a ta được :

                \(\log_23+\log_32>2\Rightarrow-\left(\log_23+\log_32\right)< -2\)  (2)

Từ (1) và (2) \(\Rightarrow\log_{\frac{1}{2}}3+\log_3\frac{1}{2}< -2\) => Điều phải chứng minh

Với mọi \(k\ge2\)  thì \(\frac{2k+\sqrt{k^2-1}}{\sqrt{k-1}+\sqrt{k+1}}=\frac{\left[\left(\sqrt{k-1}\right)^2+\left(\sqrt{k+1}\right)^2+\sqrt{\left(k-1\right)\left(k+1\right)}\right]\left(\sqrt{k+1}-\sqrt{k-1}\right)}{\left(\sqrt{k-1}+\sqrt{k+1}\right)\left(\sqrt{k+1}-\sqrt{k-1}\right)}\)

                                                \(=\frac{\sqrt{\left(k+1\right)^3}-\sqrt{\left(k-1\right)^3}}{2}\)

Suy ra tổng đã cho có thể viết là :

\(A=\frac{1}{2}\left[\sqrt{3^3}-\sqrt{1^3}+\sqrt{4^3}-\sqrt{2^3}+\sqrt{5^3}-\sqrt{3^3}+\sqrt{6^3}-\sqrt{4^3}+...+\sqrt{101^3}-\sqrt{99^3}\right]\)

    \(=\frac{1}{2}\left[-1-\sqrt{2^3}+\sqrt{101^3}+\sqrt{100^3}\right]\)

   \(=\frac{999+\sqrt{101^3}-\sqrt{8}}{2}\)

a) \(A=\left[\left(\frac{1}{5}\right)^2\right]^{\frac{-3}{2}}-\left[2^{-3}\right]^{\frac{-2}{3}}=5^3-2^2=121\)

b) \(B=6^2+\left[\left(\frac{1}{5}\right)^{\frac{3}{4}}\right]^{-4}=6^2+5^3=161\)

c) \(C=\frac{a^{\sqrt{5}+3}.a^{\sqrt{5}\left(\sqrt{5}-1\right)}}{\left(a^{2\sqrt{2}-1}\right)^{2\sqrt{2}+1}}=\frac{a^{\sqrt{5}+3}.a^{5-\sqrt{5}}}{a^{\left(2\sqrt{2}\right)^2-1^2}}\)

                              \(=\frac{a^{\sqrt{5}+3+5-\sqrt{5}}}{a^{8-1}}=\frac{a^8}{a^7}=a\)

d) \(D=\left(a^{\frac{1}{2}}-b^{\frac{1}{2}}\right)^2:\left(b-2b\sqrt{\frac{b}{a}}+\frac{b^2}{a}\right)\)

        \(=\left(\sqrt{a}-\sqrt{b}\right)^2:b\left[1-2\sqrt{\frac{b}{a}}+\left(\sqrt{\frac{b}{a}}\right)^2\right]\)

        \(=\left(\sqrt{a}-\sqrt{b}\right)^2:b\left(1-\sqrt{b}a\right)^2\)

\(y'=x^2-\left(3m+2\right)x+2m^2+3m+1\)

\(\Delta=\left(3m+2\right)^2-4\left(2m^2+3m+1\right)=m^2\)

\(\Rightarrow\left\{{}\begin{matrix}x_1=\frac{3m+2+m}{2}=2m+1\\x_2=\frac{3m+2-m}{2}=m+1\end{matrix}\right.\)

Để hàm số có cực đại, cực tiểu \(\Rightarrow x_1\ne x_2\Rightarrow m\ne0\)

- Nếu \(m>0\Rightarrow2m+1>m+1\Rightarrow\left\{{}\begin{matrix}x_{CĐ}=m+1\\x_{CT}=2m+1\end{matrix}\right.\)

\(\Rightarrow3\left(m+1\right)^2=4\left(2m+1\right)\) \(\Rightarrow3m^2-2m-1=0\Rightarrow\left[{}\begin{matrix}m=1\\m=-\frac{1}{3}< 0\left(l\right)\end{matrix}\right.\)

- Nếu \(m< 0\Rightarrow m+1>2m+1\Rightarrow\left\{{}\begin{matrix}x_{CĐ}=2m+1\\x_{CT}=m+1\end{matrix}\right.\)

\(\Rightarrow3\left(2m+1\right)^2=4\left(m+1\right)\Rightarrow12m^2+8m-1=0\)

\(\Rightarrow\left[{}\begin{matrix}m=\frac{-2+\sqrt{7}}{6}>0\left(l\right)\\m=\frac{-2-\sqrt{7}}{6}\end{matrix}\right.\) \(\Rightarrow\sum m=\frac{4-\sqrt{7}}{6}\)