题目内容
7.已知数列{an}中,a1=1,Sn是它的前n项和,且Sn+1=4an+2(n=1,2,…),bn=an+1-2an,cn=an+1-an.(1)求证:数列{bn}是等比数列;
(2)求an;
(3)求证:{cn}是递增数列.
分析 (1)由Sn+1=4an+2可得:Sn=4an-1+2两式作差得:构造an+1-2an从而得证;
(2)由(1)知:an+1-2an=3×2n-1两边同除以2n+1构造$\frac{a_n}{2^n}$,即可得证.
(3)求出{cn}的通项公式,证明$\frac{{c}_{n+1}}{{c}_{n}}$>1,即可得到结论.
解答 解:(1)当n≥2时,由Sn+1=4an+2可得:Sn=4an-1+2
两式作差得:an+1=4an-4an-1
可转化为:an+1-2an=2(an-2an-1)
又a3-2a2=2(a2-2a1)
∴bn=an+1-2an(n∈N*),{bn}是等比数列,则bn=3×2n-1
(2)由(1)知:an+1-2an=3×2n-1
两边同除以2n+1得:
$\frac{{a}_{n+1}}{{2}^{n+1}}-\frac{{a}_{n}}{{2}^{n}}=\frac{3}{4}$
∴{$\frac{a_n}{2^n}$}是等差数列,则$\frac{a_n}{2^n}$=$\frac{1}{2}+\frac{3}{4}(n-1)$=$\frac{3n-1}{4}$,则an=$\frac{3n-1}{4}$•2n.
(3)cn=an+1-an=$\frac{3n+2}{4}$•2n+1-$\frac{3n-1}{4}$•2n=$\frac{3n+5}{4}$•2n,
则$\frac{{c}_{n+1}}{{c}_{n}}$=$\frac{\frac{3n+8}{4}•{2}^{n+1}}{\frac{3n+5}{4}•{2}^{n}}$=$\frac{6n+16}{3n+5}$
∵n≥1,
∴$\frac{{c}_{n+1}}{{c}_{n}}$=$\frac{6n+16}{3n+5}$>1,
即{cn}是递增数列.
点评 本题主要考查递推数列的应用,以及数列通项公式的求解,根据条件构造等比数列是解决本题的关键.
| A. | $\frac{\sqrt{6}+\sqrt{2}}{2}$ | B. | $\frac{\sqrt{6}+\sqrt{2}}{2}$或$\frac{\sqrt{6}-\sqrt{2}}{2}$ | C. | $\frac{\sqrt{6}-\sqrt{2}}{2}$ | D. | 以上都不对 |
| A. | -2016 | B. | 2016 | C. | 32 | D. | -32 |