Any number that you choose can be the next number. It is easy to find a rule based on a polynomial of order 6 such that the first six numbers are as listed in the question followed by the chosen next number. Short of reading the mind of the person who posed the question, there is no way of determining which of the infinitely many solutions is the "correct" one.
Here, a solution, based on a polynomial of order 4, isU(n) = (7*n^4 - 82*n^3 + 173*n^2 + 70*n + 24)/24 and, accordingly, U(7) = -97.
17?
a
If you mean: 1, 2, 4, 8 and 16 then the next number is 32
65,536 is.
You are multiplying each number in the sequence by -2. Therefore, the next number in the sequence after 32 is -64.
22
17?
16 is the next squared number.
The next number in the sequence 2, 4, 16, 64 is 256.
a
To find the next number in the sequence 16, 11, 13, 8, 10, 5, 7, we first look for a pattern. Consider the differences between consecutive terms: 11 - 16 = -5 13 - 11 = 2 8 - 13 = -5 10 - 8 = 2 5 - 10 = -5 7 - 5 = 2 The differences alternate between -5 and 2. Following this pattern, the next difference after 7 should be -5: 7 + (-5) = 2 Therefore, the next number in the sequence is **2**.
The next number in the sequence is... 64
If you mean: 1, 2, 4, 8 and 16 then the next number is 32
It is: 34
8
65,536 is.
You are multiplying each number in the sequence by -2. Therefore, the next number in the sequence after 32 is -64.