题目内容
已知x,y,z∈R,且x+y+z=1,x2+y2+z2=
,证明:x,y,z∈[0,
].
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分析:证法一:由x+y+z=1,x2+y2+z2=
,得x2+y2+(1-x-y)2=
,整理成关于y的一元二次方程得:2y2-2(1-x)y+2x2-2x+
=0,根据y∈R,故△≥0;
证法二:构造新变量.设x=
+x′,y=
+y′,z=
+z′,则x′+y′+z′=0,于是
=x2+y2+z2=
+
x′2,从而可证;
证法三:反证法.设x、y、z三数中若有负数,不妨设x<0,则x2>0,
=x2+y2+z2≥x2+
=
+x2=
x2-x+
>
,矛盾;x、y、z三数中若有最大者大于
,同理可得.
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证法二:构造新变量.设x=
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证法三:反证法.设x、y、z三数中若有负数,不妨设x<0,则x2>0,
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| (y+z)2 |
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| (1-x)2 |
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解答:证法一:由x+y+z=1,x2+y2+z2=
,得x2+y2+(1-x-y)2=
,整理成关于y的一元二次方程得:
2y2-2(1-x)y+2x2-2x+
=0,∵y∈R,故△≥0
∴4(1-x)2-4×2(2x2-2x+
)≥0,得0≤x≤
,∴x∈[0,
]
同理可得y,z∈[0,
]
证法二:设x=
+x′,y=
+y′,z=
+z′,则x′+y′+z′=0,
于是
=(
+x′)2+(
+y′)2+(
+z′)2
=
+x′2+y′2+z′2+
(x′+y′+z′)
=
+x′2+y′2+z′2≥
+x′2+
=
+
x′2
故x′2≤
,x′∈[-
,
],x∈[0,
],
同理y,z∈[0,
]
证法三:设x、y、z三数中若有负数,不妨设x<0,则x2>0,
=x2+y2+z2≥x2+
=
+x2=
x2-x+
>
,矛盾.
x、y、z三数中若有最大者大于
,不妨设x>
,则
=x2+y2+z2≥x2+
=x2+
=
x2-x+
=
x(x-
)+
>
,矛盾.
故x、y、z∈[0,
]
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2y2-2(1-x)y+2x2-2x+
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∴4(1-x)2-4×2(2x2-2x+
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同理可得y,z∈[0,
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证法二:设x=
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于是
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=
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=
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| (y′+z′)2 |
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故x′2≤
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同理y,z∈[0,
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证法三:设x、y、z三数中若有负数,不妨设x<0,则x2>0,
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| (y+z)2 |
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| (1-x)2 |
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x、y、z三数中若有最大者大于
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| (y+z)2 |
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| (1-x)2 |
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=
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故x、y、z∈[0,
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点评:本题以条件等式为载体,考查不等式的证明,考查反证法的运用,考查构造法证明不等式,综合性强.
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