The next number in the series can be determined by observing the pattern of multiplication. Starting with 1, each subsequent number is multiplied by the next increasing integer. Therefore, 1 x 2 = 2, 2 x 4 = 8, 8 x 6 = 48, 48 x 8 = 384. Following this pattern, the next number would be 384 x 10 = 3840.
I'm convinced that 3,840 is.
It is 2n * n!
390
560
3840
I'm convinced that 3,840 is.
It is 2n * n!
1x2=2 2x4=8 8x6=48 48x8=384 so x2 then x4 then x6 then x8
385
To find out how many tens are in 384, divide 384 by 10, which gives you 38.4. This means there are 38 complete tens in 384. The next greatest number of tens would be 39.
390
76
560
3840
Given any number it is easy to find a rule based on a polynomial of order 4 such that the first four numbers are as listed in the question and the fifth is the given number. That is, it is easy to find a rule so that any number can be the "next" in the sequence.The simplest rule, based on a polynomial of order 3, isUn = (323n3 - 1959n2 + 3778n - 2136)/6 for n = 1, 2, 3, ...and, accordingly, U5 = 1359.
160% of 384 is 614.4
384 is an integer so there is no sensible way of representing it as a mixed number.