negative 245
Fit the polynomial:
t(n) = (-124n5 + 2035n4 - 12370n3 + 34685n2 - 44026n + 20160)/120 for n = 1, 2, 3, etc
66
44000
The next number in this sequence should be 33.
The next numbers in the sequence are... 16, then 88.
To find the missing number in the sequence 16, 4, 12, 36, 9, 27, 44, 11, we can look for a pattern. The first set of numbers appears to alternate between two sequences: the first sequence (16, 12, 9, 44) and the second sequence (4, 36, 27, 11). Following this pattern, the missing number, which follows the last number in the second sequence (11), should be 33. Thus, the missing number is 33.
66
44000
The next number in this sequence should be 33.
44. You're adding 11 then 9 each time !
The next numbers in the sequence are... 16, then 88.
The next number in the sequence 1 6 15 44 109 is 226 Solution found using method at http://everything2.com/index.pl?node_id=1027744
1595. To find each digit in the sequence you have to reverse the numbers (for example , 13 reversed is 31), then add that number to the original (for example the original is 13), so the next number in the sequence is 31 + 13 = 44, and so on. It is palindromic.
The answer is 44. The sequence is adding nine to each number, assuming that the first number is supposed to be -1.
The difference between each number is decreasing by 1 each time. Therefore, the difference between the final number and the next number in the sequence will be 6. Therefore, 50 - 6 = 44.
33 5 44 3 55 1 so the next two numbers are 51 there is a relation between 33 and 44 which is 33-44= 11 and a relation between 44 and the guessed number 55 which is 44-55= 11 if we take the numbers 5 and 3 ... 5-3= 2 and between 3 and the guessed number which is 1 .... 3-1= 2 so that proves the result 33 5 44 3 55 1
44
44 this is based on a sequence of doubling the initial number then adding 2 to that result.