Xét khai triển: \(\left(x+1\right)^{2n}=C_{2n}^0+C_{2n}^1x+C_{2n}^2x^2+...+C_{2n}^{2n}x^{2n}\)

Thay \(x=1\) ta được:

\(2^{2n}=C_{2n}^0+C_{2n}^1+...+C_{2n}^{2n}\)

\(\Leftrightarrow4^n=C_{2n}^0+C_{2n}^1+...+C_{2n}^{2n}\)

1=(2n+1)C0, (2n+1)Cn=(2n+1)C(n+1)...

Chọn C

Xét khai triển:

\(\left(1+x\right)^n=C_n^0+xC_n^1+x^2C_n^2+...+x^nC_n^n\)

Đạo hàm 2 vế:

\(n\left(1+x\right)^{n-1}=C_n^1+2xC_n^2+...+nx^{n-1}C_n^n\)

Tiếp tục đạo hàm 2 vế:

\(\left(n-1\right)n\left(1+x\right)^{n-2}=2C_n^2+2.3xC_n^3+...+\left(n-1\right)nx^{n-2}C_n^n\)

Thay \(x=1\)

\(\Rightarrow\left(n-1\right)n.2^{n-2}=1.2C_n^2+2.3C_n^3+...+\left(n-1\right)nC_n^n\)

\(\Rightarrow\left(n-1\right)n.2^{n-2}+n=C_n^1+1.2C_n^2+...+\left(n-1\right)n.C_n^n\)

\(\Rightarrow S=\left(n-1\right)n.2^{n-2}+n\)

Xét khai triển:

\(\left(1+x\right)^n=C_n^0+C_n^1x+...+C_n^nx^n\)

Cho \(x=1\) ta được:

\(C_n^0+C_n^1+...+C_n^n=2^n\)

Bài này chỉ cần thay \(n=15\)

Ta có:

\(2A_n^2=C_{n-1}^2+C_{n-1}^3\) \(\left(n\ge4\right)\)

\(\Rightarrow2\cdot\dfrac{n!}{\left(n-2\right)!}=\dfrac{\left(n-1\right)!}{2!\left(n-1-2\right)!}+\dfrac{\left(n-1\right)!}{3!\left(n-1-3\right)!}\)

\(\Rightarrow2\cdot n\left(n-1\right)=\dfrac{\left(n-1\right)\left(n-2\right)}{4}+\dfrac{\left(n-1\right)\left(n-2\right)\left(n-3\right)}{6}\)

\(\Rightarrow2n=\dfrac{n-2}{4}+\dfrac{\left(n-2\right)\left(n-3\right)}{6}\)

\(\Rightarrow n=14\) hoặc \(n=0\left(loại\right)\)

Với n=14 ta có khai triển:

\(\left(x^2-\dfrac{1}{x^2}\right)^{14}=\sum\limits^{14}_{k=0}\cdot C_{14}^k\cdot\left(x^2\right)^{14-k}\cdot\left(\dfrac{1}{x^2}\right)^k\)

                      \(=C_{14}^k\cdot x^{28-4k}\)

Số hạng không chứa x: \(\Rightarrow28-4k=0\Rightarrow k=7\)

Vậy số hạng không chứa x trong khai triển là:

\(C_{14}^7\cdot x^{28-4\cdot7}=C_{14}^7=3432\)

\(C_2^2+C_3^2+...+C_n^2=C_3^3+C_3^2+C_4^2+...+C_n^2\) (do \(C_2^2=C_3^3=1\))

\(=C_4^3+C_4^2+C_5^2+...+C_n^2=C_5^3+C_5^2+...+C_n^2\)

\(=...=C_n^3+C_n^2=C_{n+1}^3\)

Do đó:

\(2C_{n+1}^3=3A_{n+1}^2\Leftrightarrow\dfrac{2.\left(n+1\right)!}{3!.\left(n-2\right)!}=\dfrac{3.\left(n+1\right)!}{\left(n-1\right)!}\)

\(\Leftrightarrow n-1=9\Rightarrow n=10\)

\(\Rightarrow P=\left(1-x-3x^3\right)^{10}=\sum\limits^{10}_{k=0}C_{10}^k\left(-x-3x^3\right)^k\)

\(=\sum\limits^{10}_{k=0}C_{10}^k\left(-1\right)^k\left(x+3x^3\right)^k=\sum\limits^{10}_{k=0}\sum\limits^k_{i=0}C_{10}^kC_k^i\left(-1\right)^kx^i.3^{k-i}.x^{3\left(k-i\right)}\)

\(=\sum\limits^{10}_{k=0}\sum\limits^k_{i=0}C_{10}^kC_k^i\left(-1\right)^k.3^{k-i}.x^{3k-2i}\)

Ta có: \(\left\{{}\begin{matrix}0\le i\le k\le10\\i;k\in N\\3k-2i=4\end{matrix}\right.\) \(\Rightarrow\left(i;k\right)=\left(1;2\right);\left(4;4\right)\)

Hệ số: \(C_{10}^2C_2^1\left(-1\right)^2.3^1+C_{10}^4C_4^4.\left(-1\right)^4.3^0=...\)

\(\Rightarrow he-so:\left[{}\begin{matrix}C^9_{10}C^1_9\left(-3\right)^{10-9}\left(-1\right)=270\\C^{10}_{10}C^4_{10}\left(-3\right)^{10-10}.\left(-1\right)^4=210\end{matrix}\right.\)