The pattern in the sequence is that each number is obtained by multiplying the previous number by 3 and subtracting 1.
1 x 3 - 1 = 2 2 x 3 - 1 = 5 5 x 3 - 1 = 14 14 x 3 - 1 = 41 41 x 3 - 1 = 122
Therefore, the next number in the sequence would be 122 x 3 - 1 = 365.
365 would be next because you multiply the last number by three then subtract one.
The differences between the pairs of numbers up to that point are 31, 32, 33, 34. If the difference between the fifth number and the sixth number is equal to 35, that would make the next number equal to 122 + 243 = 265.
Let's see. 122 + 14 = 136. 136 + 14 = 150. 150 + 14 = ?
365.
The number 7 comes next.
The next number works out as 365
365 would be next because you multiply the last number by three then subtract one.
365 since the pattern is times three minus one
The differences between the pairs of numbers up to that point are 31, 32, 33, 34. If the difference between the fifth number and the sixth number is equal to 35, that would make the next number equal to 122 + 243 = 265.
Let's see. 122 + 14 = 136. 136 + 14 = 150. 150 + 14 = ?
365.
The number 7 comes next.
The series follows a pattern where each term is obtained by multiplying the previous term by 3 and then adding 1. Specifically: (2 \times 3 + 1 = 5), (5 \times 3 - 1 = 14), (14 \times 3 - 2 = 41), and (41 \times 3 - 3 = 122). Following this pattern, the next term would be (122 \times 3 - 4 = 362 - 4 = 358). Therefore, the next number in the series is 365.
119. un = (-n4 + 15n3 - 77n2 + 225n + 192)/6
41 should be in between 14 and 122
22
14