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I have assignment question which asks to prove one of the floor-ceiling property. ⌈lg(n+1)⌉=⌊lgn⌋+1

I have tried to prove using induction technique. 1. with n = 1 value, we get value 1 on both side. 2. we assume that it is true of n = k 3. We have to prove for n = k+1

I am stuck here, how to prove this third step. Is there any other way to prove the same? I understand that this is assignment question. Not answer but some hints will be appreciated.

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closed as off topic by Maroun Maroun, deceze, Barmar, Cameron Skinner, M42 Jun 4 '13 at 7:18

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There is a mathematics stack exchange where you may find your question more on topic. –  Patashu Jun 4 '13 at 6:11
yes here lg is log to the base 10 –  Andrew Jun 4 '13 at 6:27
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2 Answers

I can prove that it's false. If lg is log10, and n is 99.5, then ceil(lg(99.5+1)) is 3 while floor(lg(99.5))+1 is 2, and your equality does not hold.

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You could also have proven that it's false by assuming that lg is exp and n is a maple leaf. –  ruakh Jun 4 '13 at 6:21
I assumed that lg stood for an arbitrary logarithm, so I chose a specific example to make the point by contradiction. It does not seem to contradict the description of the problem. –  Dolda2000 Jun 4 '13 at 6:22
n is probably intended to be an integer. –  hammar Jun 4 '13 at 6:23
Thank you Dolda....That helps. –  Andrew Jun 4 '13 at 6:38
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Suppose lg is log10. For any n where 10^k <= n < 10^(k+1) - 1 for some integer k. k < lg(n+1)< k+1,that is ⌈lg(n+1)⌉ = k+1 and k =< lgn < k+1, then ⌊lgn⌋+1 = k+1. The equation will be true. Then, we just need specially handle the case where n=10^(k+1)-1, when n= 10^(k+1)-1, lg(n+1) = k+1, k < lgn < k+1, that is ⌊lgn⌋+1 = k+1. Above all, ⌈lg(n+1)⌉=⌊lgn⌋+1 is always true for any integer n.

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