The equation above would have to work on 2 givens: 1. You get every possible vote each day/voting period (8/24hrs) And 2. You get top 5 or are at least tied with top 5 each month. One of the rules of the top 5 rewards, however, is that if there is a tie then the reward will be split up as 1,500 minebucks for each person involved in the tie and given that there is no possible way to determine whether or not you will end up in a situation where you're tied, or where you're in a clear top 5 position, then we can just work under 3 situations:

A: where the vote is not tied and you're in the top 5

Minebucks given for that year: 2,920 + 24,000 = 26,920 = $269.20

B: where the vote is tied and not tied for 6 months

Minebucks given for that year: 2,920 + 21,000 = 23,920 = $239.20

C: where the vote is tied every month and

Minebucks given for that year: 2,920 + 18,000 = 20,920 = $209.20

The probability of each scenario occurring *could * be calculated, but it would require evidence of at least 1 12 month period to yield satisfactory results (you could base it off of just 2 or 3 months but the data would be inaccurate)

Using this, all you'd have to do is take the math of 295,300 /(A, B, or C) and you'd get around 1,000 years to get a house solely through voting and winning votes, regardless of the outcome

A. 996.96 years* (363,980 Days)

B. 1,234.53 years* (450,603 Days)

C. 1411.57 years* (515,223 Days)

* - Rounded to the nearest 100th place