According to Wittgenstein's Finite Rule Paradox every finite sequence of numbers can be a described in infinitely many ways and so can be continued any of these ways - some simple, some complicated but all equally valid.
The simplest solution in this case is based on the cubic equation:U(n) = (5*n^3 - 24*n^2 + 19*n + 27)/3 for n = 1, 2, 3, ... and, accordingly, the next term in the sequence is 49.
The sequence is generated using cubes, or n^3. The next number in the sequence will be 4^3, or 256.
16 is the next squared number.
The next number in the sequence would be 8. The sequence alternates between numbers from 1 to 5, and then increases by 7. Therefore, the pattern continues with the next number being 8.
The next number in the sequence is... 64
144 The sequence goes by adding the number plus the number before it to get the next number: 1+1=2 1+2=3 2+3=5 3+5=8...
The sequence is generated using cubes, or n^3. The next number in the sequence will be 4^3, or 256.
1
25 is the next number that appears in that sequence.
The next number is 4, followed by -2
16 is the next squared number.
The next number in the sequence is 18. It's +1, +2, +3, +4, ....
The next number in this sequence is 13112221.
19
0.1
The next number in the sequence would be 8. The sequence alternates between numbers from 1 to 5, and then increases by 7. Therefore, the pattern continues with the next number being 8.
The next number in the sequence is... 64
For an integral sequence the next number is 6 (add 5 subtract 7 pattern).