According to Wittgenstein's Finite Rule Paradox every finite sequence of numbers can be a described in infinitely many ways - some simple, some complicated but all equally valid. Conversely, it is possible to find a rule such that any number of your choice can be the missing one.
You want 1? Try Un = 2275*n2 - 8251*n + 7403.
You want 2? Try Un = 2274*n2 - 8247*n + 7400.
You want 10? Try Un = 2266*n2 - 8215*n + 7376.
256
1024 = 45
the missing number in the series 1,4,27.----.3125 is 81,35,729,256,115 .Please help to find the missing number.
44 = 256
A sequence of squares: n to the nth power
46656 as it is 6 to the power of 6. Each in turn is the result of a number to the power of itself.
3125, 46656 This is the sequence I used: * 1 = 11 * 4 = 22 * 27 = 33 * 256 = 44 * 3125 = 55 * 46,656 = 66 * and so on...
3125 625,5 125,5,5 25,5,5,5 5,5,5,5,5
.3125 as a whole number is zero (0) because it is too small to round up to one.
Missing number is 256 The series is 1,4,27,256,3125 i.e. 1, 2*2, 3*3*3, 4*4*4*4, 5*5*5*5*5
5 does.
The number is 27. (33) The sequence shows the lowest 7 nonzero values for the exponential series nn, i.e. 1 to the first power, 2 to the 2nd power, up to 7 to the 7th power. 1*1=1 2*2=4 3*3*3=27 4*4*4*4=256 5*5*5*5*5=3125 6*6*6*6*6*6=46656 7*7*7*7*7*7*7=823543