题目内容
10.已知各项均为正数的等差数列{an},且a1+a7=20,a1•a7=64.(I)求数列{an}的通项公式;
(Ⅱ)设bn=$\frac{{a}_{n}}{2×{4}^{n}}$,求数列的前n项和.
分析 (I)利用基本量法,求出首项与公差,即可求数列{an}的通项公式;
(Ⅱ)设bn=$\frac{{a}_{n}}{2×{4}^{n}}$,利用错位相消法求数列的前n项和.
解答 解:(I)依题意,可设等差数列{an}的公差为d≠0,
则有$\left\{\begin{array}{l}2{a_1}+6d=20\\{a_1}({a_1}+6d)=64\end{array}\right.$,…(2分)
解得$\left\{\begin{array}{l}d=2\\{a_1}=4\end{array}\right.$或者$\left\{\begin{array}{l}d=-2\\{a_1}=16\end{array}\right.$(舍去)…(4分)
故所求an=2n+2.…(6分)
(Ⅱ)由(I)知an=2(n+1)
所以${b_n}=\frac{2(n+1)}{{2×{4^n}}}=\frac{n+1}{4^n}$${T_n}=2×\frac{1}{4}+3×{({\frac{1}{4}})^2}+4×{({\frac{1}{4}})^3}+…+(n+1){({\frac{1}{4}})^n}$$\frac{1}{4}{T_n}=2×{({\frac{1}{4}})^2}+3×{({\frac{1}{4}})^3}+4×{({\frac{1}{4}})^4}+…+n×{({\frac{1}{4}})^n}+(n+1){({\frac{1}{4}})^{n+1}}$…(8分)
两式相减,得$\frac{3}{4}{T_n}=2×{({\frac{1}{4}})^1}+{({\frac{1}{4}})^2}+{({\frac{1}{4}})^3}+…+{({\frac{1}{4}})^n}-(n+1){({\frac{1}{4}})^{n+1}}$=$\frac{7}{12}-\frac{7+3n}{3}{({\frac{1}{4}})^{n+1}}$…(10分)
所以 ${T_n}=\frac{7}{9}-\frac{7+3n}{9}{({\frac{1}{4}})^n}$.…(12分)
点评 本题考查等差数列的通项与求和,考查错位相减法的运用,确定数列的通项是关键.
| A. | (e,4) | B. | $(\frac{1}{{\sqrt{e}}},+∞)$ | C. | (0,e) | D. | $(0,\frac{1}{{\sqrt{e}}})$ |
| A. | f(2)<f(e)ln2,2f(e)>f(e2) | B. | f(2)<f(e)ln2,2f(e)<f(e2) | ||
| C. | f(2)>f(e)ln2,2f(e)<f(e2) | D. | f(2)>f(e)ln2,2f(e)>f(e2) |