sequence 2, 5, 8, 11, 14...

Natasha1

This is my question: Which powers of numbers in the sequence below are always in the sequence and which are not. Prove it?

Sequence: 2, 5, 8, 11, 14...

Answer:
So the gerenal term is 3n + 2

Now
(3n+2)^2 = 9n^2 + 12n +4

Where should I go from here?

kahless2005

Quote by Natasha1

This is my question: Which powers of numbers in the sequence below are always in the sequence and which are not. Prove it?

Sequence: 2, 5, 8, 11, 14...

Answer:
So the gerenal term is 3n + 2

Now
(3n+2)^2 = 9n^2 + 6n + 4

Where should I go from here?

I think that should be 9n^2 + 12n + 4

quasar987

Conventionally, [itex]\mathbb{N}[/itex] is the index set of sequence. This means that when identifying the general term, it must be that a1 is the first term in the sequence. The way you wrote an, a0 is your first term.

It's no big deal, it just avoids confusion.

I suggest you go back to your iniital problem before tacking this one as the method of proof is very similar and you're just one step away from the final solution in the other problem.

0rthodontist

When you expand (3n + 2)^k into a polynomial, every term except for the constant term must be divisible by 3.

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Natasha1	sequence 2, 5, 8, 11, 14... Tweet This is my question: Which powers of numbers in the sequence below are always in the sequence and which are not. Prove it? Sequence: 2, 5, 8, 11, 14... Answer: So the gerenal term is 3n + 2 Now (3n+2)^2 = 9n^2 + 12n +4 Where should I go from here?

0rthodontist Recognitions: Science Advisor	sequence 2, 5, 8, 11, 14... When you expand (3n + 2)^k into a polynomial, every term except for the constant term must be divisible by 3.