The given sequence appears to be increasing by a pattern of adding consecutive even numbers: 14 (+1) 15, 15 (+3) 18, 18 (+6) 24, 24 (+4) 28, and 28 (+6) 34. The differences are 1, 3, 6, 4, and 6. Following this pattern, the next difference seems to be 8 (continuing the larger increases), so adding 8 to 34 gives us 42. Therefore, the next number is 42.
To find the next number in the series, we can observe the alternating pattern between pairs of numbers. The first number is 14, and it decreases by 3 to 11, then increases by 7 to 18. Following this pattern, the next number after 18 should decrease by 2, resulting in 16. Therefore, the next number in the series is 16.
The next number in the sequence would be 25.
30!
14, which is the middle number when they are listed in order.
To identify the pattern, we can look at the differences between consecutive numbers: 5 - 14 = -9, 18 - 5 = 13, 24 - 18 = 6, and so on. The differences are alternating in a way that suggests the next number should follow a specific sequence. Continuing the pattern, after 34, the next number would be 40, as it adds 6, consistent with the established pattern.
mean average = sum of dataset / number of items in dataset = (14 + 18 + 13 + 15) / 4 = 60/4 = 15
18
The next number could be 26 The next number could be 12 - - - - - - - - - The next number that is in the sequence is 12.
The number 7 comes next.
The next number in the sequence would be 25.
24
30!
18
14, which is the middle number when they are listed in order.
To identify the pattern, we can look at the differences between consecutive numbers: 5 - 14 = -9, 18 - 5 = 13, 24 - 18 = 6, and so on. The differences are alternating in a way that suggests the next number should follow a specific sequence. Continuing the pattern, after 34, the next number would be 40, as it adds 6, consistent with the established pattern.
11
6