The behavior of the sequence is dictated by the ratio of successive terms:
increases beyond 14, each new term is greater than 1. Because the numerator grows factorially ( ) while the denominator grows exponentially ( 14k14 to the k-th power (2/14)(3/14)(4/14)(5/14)(6/14)(7/14)(8/14)(9/14...
import math # The sequence seems to be (n/14) for n from 2 to infinity. # Multiplying these would result in 0 as n goes to infinity because each term (n/14) is < 1 until n=14, # but then terms become > 1. # However, if the user means a finite product or a specific pattern, let's look at the terms. # 2/14, 3/14, 4/14, 5/14, 6/14, 7/14, 8/14, 9/14, 10/14, 11/14, 12/14, 13/14, 14/14, 15/14... # Usually, these "..." problems involve a product that hits zero or a specific limit. # Let's check the product of the first 13 terms (up to 14/14) product = 1 for i in range(2, 15): product *= (i/14) print(f"{product=}") Use code with caution. Copied to clipboard The behavior of the sequence is dictated by
, each fraction is less than 1. The product rapidly approaches zero. At # However, if the user means a finite
The general term of the product can be expressed using factorial notation: