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This can by done by Induction
Show that for all integers n >1, n^3 - n can be divided by 3. (Note: n^3 stands for n*n*n)
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! z( J$ D6 B1 v: G: g; b. {Proof:
0 ?! L( H$ Z5 T6 HLet n >1 be an integer 0 v( Q6 j- S7 ` i
Basis: (n=2)
2 L! h/ Z, T" n: l 2^3 - 2 = 2*2*2 –2 = 6 which can be divided by 3' u R, K9 Z" C2 x' h5 u9 c
& ]! x2 ^- a1 L( Q. y1 y
Induction Hypothesis: Let K >=2 be integers, support that& x) c4 H# R. z0 R) y
K^3 – K can by divided by 3.
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- k& U7 b% w6 `% T# w% FNow, we need to show that ( K+1)^3 - ( K+1) can be divided by 33 V8 q" d9 g3 a! [% R: n6 g
since we have (K+1)^3 = K^3 +3K^2 + 3K +1 by Binomial Theorem
! s( Y- t+ J' o& g: i: w9 q nThen we have (K+1)^3 – ( K+1) = K^3 +3K^2 + 3K +1 –(K+1)
( n" x2 ? b3 D [7 B1 v = K^3 + 3K^2 + 2K
r9 S# d* K( b& D. n = ( K^3 – K) + ( 3K^2 + 3K)
' s/ @* a0 `" k b = ( K^3 – K) + 3 ( K^2 + K)+ F2 v. c% ~0 \' @7 R6 ?8 }7 o
by Induction Hypothesis, we know that k^3 – k can by divided by 3 which means that k^3 – k = 3 X for some integer X>0
( d' ]$ f# ~+ u- E; q/ B0 wSo we have (K+1)^3 – ( K+1) = ( K^3 – K) + 3 ( K^2 + K)
6 J8 U+ @8 t4 T/ p0 W/ I9 w = 3X + 3 ( K^2 + K)$ y2 o9 ~" y) x/ U1 R9 R5 n
= 3(X+ K^2 + K) which can be divided by 3
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2 j9 D0 P( t; `* `4 F% PConclusion: By the Principle of Mathematics Induction, n^3 - n can be divided by 3 For all integers n >1.0 q% [' ]- m0 _/ G% j6 a d* t- s
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[ Last edited by 悟空 on 2005-2-23 at 10:06 AM ] |
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