Xét \(x\ne1\)

\(\left(1+x+...+x^{10}\right)^{11}=a_0+a_1x+...+a_{110}x^{110}\)

\(\Leftrightarrow\left(x-1\right)^{11}\left(1+x+...+x^{10}\right)^{11}=\left(x-1\right)^{11}\left(a_1+a_1x+...+a_{110}x^{110}\right)\)

\(\Leftrightarrow\left(x^{11}-1\right)^{11}=\left(x-1\right)^{11}\left(a_0+a_1x+...+a_{110}x^{110}\right)\)

\(VP=\left(x-1\right)^{11}\left(a_0+a_1x+...\right)=\left(\sum\limits^{11}_{k=0}C_{11}^kx^k\left(-1\right)^{11-k}\right)\left(a_0+a_1x+...\right)\) (1)

Ta thấy tổng các hệ số của \(x^{11}\) trong khai triển (1) là:

\(C_{11}^0\left(-1\right)^{11}.a_{11}+C_{11}^1\left(-1\right)^{10}a_{10}+C_{11}^2\left(-1\right)^9a_9+...+C_{11}^{11}\left(-1\right)^0a_0\)

\(=-C_{11}^0a_{11}+C_{11}^1a_{10}-C_{11}^2a_9+...+C_{11}^{11}a_0=-T\)

\(VT=\sum\limits^{11}_{k=0}C_{11}^k\left(x^{11}\right)^k.\left(-1\right)^{11-k}\)

Hệ số của \(x^{11}\) trong khai triển trên là \(C_{11}^1\left(-1\right)^{10}=C_{11}^1=11\)

Mà \(VT=VP\Rightarrow-T=11\Rightarrow T=-11\)

2015

Xét khai triển:

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

\(\Leftrightarrow x\left(x+1\right)^n=C_n^0.x+C_n^1x^2+C_n^2x^3+...+C_n^nx^{n+1}\)

Thay \(n=2000\) ta được:

\(x\left(x+1\right)^{2000}=C_{2000}^0x+C_{2000}^1x^2+C_{2000}^2x^3+...+C_{2000}^{2000}x^{2001}\)

Đạo hàm 2 vế:

\(\left(x+1\right)^{2000}+2000x\left(x+1\right)^{1999}=C_{2000}^0+2C_{2000}^1x+...+2001C_{2000}^{2000}x^{2000}\)

Thay \(x=1\) ta được:

\(2^{2000}+2000.2^{1999}=C_{2000}^0+2C_{2000}^1+...+2001.C_{2000}^{2000}\)

\(\Rightarrow S=2^{1999}\left(2+2000\right)=2002.2^{1999}\)

\(\left(k+1\right)C^k_n=kC^k_n+C^k_n=\dfrac{n!k}{k!\left(n-k\right)!}+C^k_n=\dfrac{\left(n-1\right)!n}{\left(k-1\right)!\left(n-1-k+1\right)!}+C^k_n=nC^{k-1}_{n-1}+C^k_n\)

\(\Rightarrow C^0_{2000}+\sum\limits^{2000}_{k=1}\left(k+1\right)C^k_{2000}=C^0_{2000}+\sum\limits^{2000}_{k=1}\left(2000C^{k-1}_{1999}+C^k_{2000}\right)=2000\sum\limits^{2000}_{k=1}C^{k-1}_{1999}+\sum\limits^{2000}_{k=0}C^k_{2000}\)

\(=2000.2^{1999}+2^{2000}=2^{1999}.2002\)

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:

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

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

Xét khai triển:

\(\left(x-1\right)^{2n}=C_{2n}^0-C_{2n}^1x+C_{2n}^2x^2-C_{2n}^3x^3+...-C_{2n}^{2n-1}x^{2n-1}+C_{2n}^{2n}x^{2n}\)

Thay \(x=1\) ta được:

\(0=C_{2n}^0-C_{2n}^1+C_{2n}^2-C_{2n}^3+..-C_{2n}^{2n-1}+C_{2n}^{2n}\)

\(\Leftrightarrow C_{2n}^0+C_{2n}^2+...+C_{2n}^{2n}=C_{2n}^1+C_{2n}^3+...+C_{2n}^{2n-1}\)

 Mình nhầm \(C^1_{2016}a_{2015}\)thành  \(C^1_{2016}a^{2015}\)

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 \(n=15\)