题目内容
9.已知数列{an}满足a1=9,其前n项和为Sn,对n∈N*,n≥2,都有Sn=3(Sn-1+3)(Ⅰ)求数列{an}的通项公式;
(Ⅱ)求证:数列{Sn+$\frac{9}{2}$}是等比数列.
分析 (Ⅰ)由已知得an+1=3an.从而{an}是公比为3,首项为9的等比数列,由此能求出数列{an}的通项公式.
(Ⅱ)求出Sn=-$\frac{9}{2}$+$\frac{9}{2}$-3n,从而${S}_{n}+\frac{9}{2}$=$\frac{9}{2}$•3n=$\frac{27}{2}•{3}^{n-1}$,由此能证明数列{${S}_{n}+\frac{9}{2}$}是以$\frac{27}{2}$为首项,公比为3的等比数列.
解答 解:(Ⅰ)∵Sn=3(Sn-1+3),∴Sn+1=3(Sn+3),
∴an+1=3an.故{an}是公比为3,首项为9的等比数列,
∴an=3n+1.---(5分)
证明:(Ⅱ)因为${a}_{n}=9•{3}^{n-1}$,所以Sn=$\frac{9(1-{3}^{n})}{1-3}$=-$\frac{9}{2}$+$\frac{9}{2}$-3n,(7分)
所以,${S}_{n}+\frac{9}{2}$=$\frac{9}{2}$•3n=$\frac{27}{2}•{3}^{n-1}$,(9分)
${S}_{1}+\frac{9}{2}$=$\frac{9}{2}•3$=$\frac{27}{2}$,$\frac{{S}_{n+1}+\frac{9}{2}}{{S}_{n}+\frac{9}{2}}$=$\frac{\frac{27}{2}•{3}^{n}}{\frac{27}{2}•{3}^{n-1}}$=3.(10分)
故,数列{${S}_{n}+\frac{9}{2}$}是以$\frac{27}{2}$为首项,公比为3的等比数列.(12分)
点评 本题考查数列的通项公式的求法,考查等比数列的证明,是中档题,解题时要认真审题,注意等比数列的性质的合理运用.
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