To determine the next number in the sequence 1, 5, 10, 14, 28, we need to identify the pattern or rule governing the sequence. By examining the differences between consecutive numbers, we can see that the pattern involves adding consecutive prime numbers: 4 (2+2), 5 (3+2), 7 (5+2), 11 (7+4). Therefore, the next number in the sequence would be 28 + 11 = 39.
18
14
To determine the pattern in the series 17, 20, 14, -1, we can see that the difference between each consecutive number is not consistent. The sequence seems to be alternating between adding and subtracting numbers. Specifically, the pattern is +3, -6, -15. Following this pattern, the next number in the series would be obtained by subtracting 24 from -1, resulting in -25.
95
11
The next number is 10. The pattern is -7, -6, -5, -4.
eight
The pattern alternates between adding and multiplying. Starting from 7: 7 + 7 = 14, then 14 - 6 = 8, followed by 8 + 8 = 16, then 16 - 6 = 10, followed by 10 + 10 = 20, and finally 20 - 6 = 14. Following this pattern, the next two numbers would be 14 + 14 = 28 and then 28 - 6 = 22.
The sequence given is 8, 14, 22. To find the pattern, we can observe that the differences between the numbers are 6 (14 - 8) and 8 (22 - 14). Following this pattern, the next difference might increase by 2, suggesting the next number is 22 + 10 = 32. Continuing this pattern, the subsequent number would be 32 + 12 = 44. Therefore, the next two numbers are 32 and 44.
The series 1318162119 appears to be a sequence where each number is formed by concatenating the first few even numbers. The pattern is: 2 (2), 4 (4), 6 (6), 8 (8), 10 (10), 12 (12), 14 (14), and 16 (16). Following this pattern, the next even number is 18, which would be represented as "18" in the series. Thus, the next number in the series is 20, resulting in the next sequence being 131816211920.
14
8
14
5 8 7 10 9 12 11 14 The pattern is +3, -1, +3, -1, +3, -1, +3
10
14
18