题目内容
对于正整数k,用g(k)表示k的最大奇因数,如:g(1)=1,g(2)=1,g(3)=3,….记an=g(1)+g(2)+g(3)+…+g(2n),其中n是正整数.(I)写出a1,a2,a3,并归纳猜想an与an-1(n≥2,n∈N)的关系式;
(II)证明(I)的结论;
(Ⅲ)求an的表达式.
【答案】分析:(I)a1=g(1)+g(2)=2,a2=g(1)+g(2)+g(3)+g(4)=2+3+1=6,a3=g(1)+g(2)+g(3)+g(4)+g(5)+g(6)+
g(7)+g(8)=a2+g(5)+g(3)+g(7)+g(4)=6+5+3+7+1=6+42=22.猜想n≥2时,an=an-1+4n-1.
(II)若k为奇数,则g(k)=k;若k为偶数,则g(k)=
.若
为奇数,则
;若
为偶数,则可重复上述步骤得到g(k).由此可知:an=4n-1+an-1.当n≥2时,an=an-1+4n-1成立.
(Ⅲ)当n≥2时,an-an-1=4n-1,故有an=(an-an-1)+(an-1+an-2)+…+(a2-a1)+a1=4n-1+4n-2+…+4+2=
,由此能求出{an}的表达式.
解答:解:(I)a1=g(1)+g(2)=2,
a2=g(1)+g(2)+g(3)+g(4)=2+3+1=6.
a3=g(1)+g(2)+g(3)+g(4)+g(5)+g(6)+g(7)+g(8)
=a2+g(5)+g(3)+g(7)+g(4)=6+5+3+7+1=6+42=22
猜想n≥2时,an=an-1+4n-1.
(II)证明:若k为奇数,则g(k)=k;
若k为偶数,则g(k)=
.若
为奇数,则
;
反之,若
为偶数,则可重复上述步骤得到g(k)
由此可知:n≥2时,
an=g(1)+g(2)+g(3)+…+g(2n)
=1+3+5+…(2n-1)+g(2)+g(4)+g(6)+…g(2n)
=1+3+5+…+(2n-1)+g(2)+g(4)+g(6)+…g(2n)
=
+g(1)+g(2)+…g(2n-1)
=4n-1+an-1.
即当n≥2时,an=an-1+4n-1成立
(Ⅲ)由(I)知,当n≥2时,an-an-1=4n-1,故有an=(an-an-1)+(an-1+an-2)+…+(a2-a1)+a1=4n-1+4n-2+…+4+2=
,
a1也满足此式.
故
(n∈N,且n≥1)
点评:本题考查数列的性质和应用,解题时要注意公式的灵活运用,合理地进行等价转化.
g(7)+g(8)=a2+g(5)+g(3)+g(7)+g(4)=6+5+3+7+1=6+42=22.猜想n≥2时,an=an-1+4n-1.
(II)若k为奇数,则g(k)=k;若k为偶数,则g(k)=
.若为奇数,则;若为偶数,则可重复上述步骤得到g(k).由此可知:an=4n-1+an-1.当n≥2时,an=an-1+4n-1成立.(Ⅲ)当n≥2时,an-an-1=4n-1,故有an=(an-an-1)+(an-1+an-2)+…+(a2-a1)+a1=4n-1+4n-2+…+4+2=
,由此能求出{an}的表达式.解答:解:(I)a1=g(1)+g(2)=2,
a2=g(1)+g(2)+g(3)+g(4)=2+3+1=6.
a3=g(1)+g(2)+g(3)+g(4)+g(5)+g(6)+g(7)+g(8)
=a2+g(5)+g(3)+g(7)+g(4)=6+5+3+7+1=6+42=22
猜想n≥2时,an=an-1+4n-1.
(II)证明:若k为奇数,则g(k)=k;
若k为偶数,则g(k)=
.若为奇数,则;反之,若
为偶数,则可重复上述步骤得到g(k)由此可知:n≥2时,
an=g(1)+g(2)+g(3)+…+g(2n)
=1+3+5+…(2n-1)+g(2)+g(4)+g(6)+…g(2n)
=1+3+5+…+(2n-1)+g(2)+g(4)+g(6)+…g(2n)
=
+g(1)+g(2)+…g(2n-1)=4n-1+an-1.
即当n≥2时,an=an-1+4n-1成立
(Ⅲ)由(I)知,当n≥2时,an-an-1=4n-1,故有an=(an-an-1)+(an-1+an-2)+…+(a2-a1)+a1=4n-1+4n-2+…+4+2=
,a1也满足此式.
故
(n∈N,且n≥1)点评:本题考查数列的性质和应用,解题时要注意公式的灵活运用,合理地进行等价转化.
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