Mitch Hedberg math (dice) problem
February 11th, 2010 at 10:31:35 AM
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Quote:My lucky number is four billion. That doesn't come in real handy when you're gambling. "Come on four billion!... F---! Seven. Not even close. I need some more dice. Four billion divided by six... at least. -- Mitch Hedberg
This got me thinking on calculating the probability of rolling 4 billion with the minimum number of dice.
Here's how far I got.
You'd need 6666666667 dice to roll 4 billion.
If you rolled a 6 on 6666666666 dice and a 4 on the other die, the probability of that is 1 in 87791495225240054872976680384307270233204389574760109739369.
Where I am getting lost is the other possibilities... for example, you could roll a 6 on 6666666665 dice and two 5s. And so on.
I have no idea how to calculate the permutations -- does it matter which die you roll below 6 on -- and how to integrate them into the total odds.
Can anyone give me some guidance?
February 11th, 2010 at 10:37:02 AM
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Best post ever.
RIP Mitch
RIP Mitch
February 11th, 2010 at 5:04:37 PM
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With 666,666,667 dice there are two situations that yield exactly 4 billion:
A) 666,666,665 sixes and 2 fives. Since any 2 of the 666,666,667 dice can be fives, there are combin(666666667,2) = 222,222,222,111,111,111 combinations for this case.
B) 666,666,666 sixes and a four. Since any one die can be the four, there are combin(666666667,1) = 666,666,667 combinations for this case.
Added together, there are a total of 222,222,222,777,777,778 ways to roll 4 billion out of 6666666667 possible outcomes. The fraction would therefore look like:
Since the denominator is too large to work with on a typical computer (over 518 million digits), a different approach is required to reduce the fraction. The base-6 log of 222,222,222,777,777,778 is approximately 22.292308182317007125968919384765. So, dividing both the numerator and denominator by 622.292308182317007125968919384765 gives the following approximation:
Suffice it to say, the probability of 666,666,667 dice being rolled to a sum of exactly 4,000,000,000 is (an) infinitesimal.
A) 666,666,665 sixes and 2 fives. Since any 2 of the 666,666,667 dice can be fives, there are combin(666666667,2) = 222,222,222,111,111,111 combinations for this case.
B) 666,666,666 sixes and a four. Since any one die can be the four, there are combin(666666667,1) = 666,666,667 combinations for this case.
Added together, there are a total of 222,222,222,777,777,778 ways to roll 4 billion out of 6666666667 possible outcomes. The fraction would therefore look like:
222,222,222,777,777,778
6666,666,667
6666,666,667
Since the denominator is too large to work with on a typical computer (over 518 million digits), a different approach is required to reduce the fraction. The base-6 log of 222,222,222,777,777,778 is approximately 22.292308182317007125968919384765. So, dividing both the numerator and denominator by 622.292308182317007125968919384765 gives the following approximation:
________________ 1 ________________
6666666644.70769181768299287403108
6666666644.70769181768299287403108
Suffice it to say, the probability of 666,666,667 dice being rolled to a sum of exactly 4,000,000,000 is (an) infinitesimal.
February 12th, 2010 at 12:15:01 AM
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Thank you very much, JB. It was the combinations part that threw me. Very informative.
February 16th, 2010 at 3:24:37 PM
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Another good craps on TV problem.
In a Dave Chappelle skit, "The World Series of Dice" A character "Grits n Gravy" is known for rolling 77 7s in a row at a casino in Vegas.
What's the probability of that? (1/6)^77 = my calculator broke...
In a Dave Chappelle skit, "The World Series of Dice" A character "Grits n Gravy" is known for rolling 77 7s in a row at a casino in Vegas.
What's the probability of that? (1/6)^77 = my calculator broke...
February 16th, 2010 at 5:07:35 PM
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Use Excel instead.
(1/6)^7 = 1.2088E-60
(FYI: E-60 means you slide that decimal sixty places to the left.)
(1/6)^7 = 1.2088E-60
(FYI: E-60 means you slide that decimal sixty places to the left.)
I invented a few casino games. Info:
http://www.DaveMillerGaming.com/ —————————————————————————————————————
Superstitions are silly, childish, irrational rituals, born out of fear of the unknown. But how much does it cost to knock on wood? 😁
February 16th, 2010 at 5:38:51 PM
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Quote: TheArchitectWhat's the probability of that? (1/6)^77 = my calculator broke...
1 in 827,268,102,990,819,696,904,779,987,451,100,917,723,545,245,377,785,847,873,536.
February 16th, 2010 at 5:51:15 PM
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Quote: JBQuote: TheArchitectWhat's the probability of that? (1/6)^77 = my calculator broke...
1 in 827,268,102,990,819,696,904,779,987,451,100,917,723,545,245,377,785,847,873,536.
So that's roughly 40% less than 1 in a googol?
February 16th, 2010 at 6:29:33 PM
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Quote: TheArchitectSo that's roughly 40% less than 1 in a googol?
No, for a couple of reasons:
1) 1 in a googol is a smaller number than the above figure.
2) The difference in the number of decimal digits between two numbers is not the same thing as their arithmetic difference. Your question is similar to the following one: "So 2 is roughly 75% less than 2000?". A single-digit number is much lower than 25% of a 4-digit number; it is roughly 1 thousandth. Likewise, a 60-digit number is much lower than a 100-digit number; it is roughly one-10,000,000,000,000,000,000,000,000,000,000,000,000,000th (one ten-duodecillionth).
What would be correct is to say that there are 40% fewer digits in the decimal representation of the denominator of the figure above than there are in the denominator of 1 in a googol.
February 16th, 2010 at 6:44:01 PM
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Quote: JBQuote: TheArchitectSo that's roughly 40% less than 1 in a googol?
No, for a couple of reasons:
1) 1 in a googol is a smaller number than the above figure.
2) The difference in the number of decimal digits between two numbers is not the same thing as their arithmetic difference. Your question is similar to the following one: "So 2 is roughly 75% less than 2000?". A single-digit number is much lower than 25% of a 4-digit number; it is roughly 1 thousandth. Likewise, a 60-digit number is much lower than a 100-digit number; it is roughly one-10,000,000,000,000,000,000,000,000,000,000,000,000,000th (one ten-duodecillionth).
What would be correct is to say that there are 40% fewer digits in the decimal representation of the denominator of the figure above than there are in the denominator of 1 in a googol.
I really didn't know that. Thank you JB!
February 26th, 2010 at 10:37:35 PM
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Ashy Larry actually broke his record i heard.
February 26th, 2010 at 10:38:55 PM
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Quote: TheArchitectAnother good craps on TV problem.
In a Dave Chappelle skit, "The World Series of Dice" A character "Grits n Gravy" is known for rolling 77 7s in a row at a casino in Vegas.
What's the probability of that? (1/6)^77 = my calculator broke...
-Ashy Larry actually broke his record i heard.
