Oh, what a lovely pattern we have here! It looks like we're counting down by 1 each time. So, the nth term for this sequence would be 10 - n. Keep exploring and creating, there are endless possibilities waiting for you!
It is the sequence of first differences. If these are all the same (but not 0), then the original sequence is a linear arithmetic sequence. That is, a sequence whose nth term is of the form t(n) = an + b
It is: nth term = 35-9n
The Nth term in the series is [ 2N ] .
A single number, such as 491625 does not define a sequence and so cannot have an nth term.
If you mean: 3, 4, 5, 6 and 7 then nth term = n+2
Each number in this sequence is twice the previous number. The nth. term is 2n-1.Each number in this sequence is twice the previous number. The nth. term is 2n-1.Each number in this sequence is twice the previous number. The nth. term is 2n-1.Each number in this sequence is twice the previous number. The nth. term is 2n-1.
The given sequence (7, 14, 21, 28, 35,....) is an arithmetic sequence where each term increases by 7. The nth term of the given sequence is 7n
The nth term of a sequence is the general formula for a sequence. The nth term of this particular sequence would be n+3. This is because each step in the sequence is plus 3 higher than the previous step.
i dont get it
To find the nth term of a sequence, we first need to identify the pattern or rule that governs the sequence. In this case, the sequence is decreasing by 6 each time. Therefore, the nth term can be represented by the formula: 18 - 6(n-1), where n is the position of the term in the sequence.
123456789 * * * * * The nth term is 3n
6n-5 is the nth term of this sequence
It works out as -5 for each consecutive term
the first 4 terms of the sequence which has the nth term is a sequence of numbers that that goe together eg. 8,12,16,20,24 the nth term would be 4n+4
A single number, such as -3052 cannot define a sequence and, without a sequence you cannot have an nth term.
The nth term is (36 - 4n)