tính tổng S=2020 C 0 + 4(2020 C 10+ 7(2020 C 2)+…+ (3. 2020 + 1) 2020 C 2020

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1. Đáp án:

    \({6062.2^{2019}}\)

   Giải thích các bước giải:

    Ta có công thức tổng quát

   \(k.C_n^k = k.\dfrac{{n!}}{{k!\left( {n – k} \right)!}} = \dfrac{{n!}}{{\left( {k – 1} \right)!.\left( {n – k} \right)!}} \\= n.\dfrac{{\left( {n – 1} \right)!}}{{\left( {k – 1} \right)!.\left[ {\left( {n – 1} \right) – \left( {k – 1} \right)} \right]!}} \\= n.C_{n – 1}^{k – 1}\)

   ⇒

   \(\begin{array}{l} S = C_0^{2020} + 4.C_{2020}^1 + 7.C_{2020}^2 + …. + \left( {3.2020 + 1} \right)C_{2020}^{2020}\\  = 3.\left( {1.C_{2020}^1 + 2.C_{2020}^2 + 3.C_{2020}^3 + …. + 2020.C_{2020}^{2020}} \right) \\+ \left( {C_{2020}^0 + C_{2020}^1 + C_{2020}^2 + …. + C_{2020}^{2020}} \right)\\  = 3.\left( {2020.C_{2019}^0 + 2020C_{2019}^1 + 2020.C_{2019}^2 + …. + 2020.C_{2019}^{2019}} \right) \\+ \left( {C_{2020}^0 + C_{2020}^1 + C_{2020}^2 + …. + C_{2020}^{2020}} \right)\\  = 6060\left( {C_{2019}^0 + C_{2019}^1 + C_{2019}^2 + …. + C_{2019}^{2019}} \right)\\ + \left( {C_{2020}^0 + C_{2020}^1 + C_{2020}^2 + …. + C_{2020}^{2020}} \right)\\  = 6060.{\left( {1 + 1} \right)^{2019}} + {\left( {1 + 1} \right)^{2020}}\\  = {6060.2^{2019}} + {2^{2020}}\\  = {6062.2^{2019}} \end{array}\)

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