
Topic review (newest first)
how do i solve the following? write down the integer value of n which satisfy the inequality 2<n1
solve these inequalities: 2x  5 < 10
x/3 > 6
 Ricky
 20060204 11:17:07
When you have experience with proving statements like this, you know what the poster means even if (s)he doesn't say it.
That's really all it is, experience, nothing else irspow.
Oh, and I meant to say integer larger or equal to 0 in my post, since this was about integers and nothing else.
Was this a question that a teacher/professor gave you? It should be worded 9^p and 25^p for p ≥ 1, aka, natural numbers.
It's not wrong the way it is, just...weird.
 irspow
 20060204 11:06:34
I am always very confused, but thanks for the sympathy.
Oh, and I meant to say integer larger or equal to 0 in my post, since this was about integers and nothing else. Sorry if that confused you, irspow.
Thanks Ricky, I got it now :]
I need to learn those tricks with adding more terms, very clever.
 Ricky
 20060204 10:21:44
If p is an integer, then p + 1 would also be an integer the equation would only produce a series like;
(27n + 25n)/4 = 54n/4 = 13n, which of course would all be integers.
Let n = 1:
So you are saying there is an integer p ≥ 1 such that (3*9^(p+1)+25^(p+1))/4 = 13?
Furthermore, you are saying that 9^(p+1) = 25^(p+1) for all p, since n = n
 irspow
 20060204 10:16:39
I think Enfy said any number greater than or equal to zero. I dont think that there is anything to prove otherwise. If p is an integer, then p + 1 would also be an integer the equation would only produce a series like;
(27n + 25n)/4 = 54n/4 = 13n, which of course would all be integers.
This is obviously not a proof, because I mistakenly used an arithmetic series example instead of a geometric series, but I think that it can be shown to be similar since the relationship of multiples still holds. I will try it that way.
 Ricky
 20060204 10:14:15
I've tried the induction proof, but I didn't get too far with it (I'm still not too comfortable with it btw). I might try something similar to what Ricky posted before he edited his post, though I was confused with one of the steps he provided.
 MathsIsFun
 20060204 09:55:54
p is any number? Only integers, right?
I guess it can be prove that 3*9^(p+1)+25^(p+1) is always a multiple of 4.
You could try an inductive proof: 1) prove the base case (p=1), 2) prove that whenever you add 1 to p, the result will still be a multiple of 4 (use p=n → p=n+1)
 Ricky
 20060204 09:37:42
Edit: Ah, spotted a large error in my proof, fixing it right now.
 irspow
 20060204 09:19:01
I hope you get your answer here. I was looking for a similar definition in an earlier thread, but a clear one never emerged.
I've been trying to solve this for a while, but without any good result. I could definitely need some help :]
k = (3*9^(p+1)+25^(p+1))/4
p is any number larger or equal to 0. How can I be 100% sure that k is an integer? I've tried different values to test it, and it looks like it is an integer, but I don't know how to actually proof it.
