Climb To A Prime

June 13, 2017

The British mathematician John Horton Conway, famous for inventing the Game of Life cellular automaton, made this conjecture:

Select a number, then compute its prime factors, with multiplicity; for instance, 90 = 2 × 32 × 5. Then “bring down” the exponent and write the resulting digits, forming a new number; for instance, the exponent of 2 in the above factorization is brought down, forming the number 2325. Repeat the process with the new number, and again, and so on; for instance, starting from 90, the chain is 90, 2325, 35231, 72719, where the chain terminates. I conjecture that the process will eventually terminate with a prime number.

At his YouTube channel, Numberphile revealed that the conjecture is false. The number 13532385396179 = 13 × 532 × 3853 × 96179, so at each step it replaces itself, resulting in an infinite loop that will never reach a prime, thus disproving the conjecture. The discoverer of that number, James Davis, is entitled to a $1000 prize from Conway.

Your task is to write a program that calculates the climb to a prime for a given input number. When you are finished, you are welcome to read or run a suggested solution, or to post your own solution or discuss the exercise in the comments below.


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