If you rolled that many times, you'd have approximately the same number of each - however many sides your die had. It's totally random, but it'll average out so that each number comes up about the same number of times. It's not going to be exact (like 50 #1s and 50 #2s and 50 #3s and so on) but it will average out to be about the same.
1:4 i think
15
It is 0.722... recurring.
On a normal cube, the probability is 0. If there are more than 1 cubes, the answer depends on how many are being rolled for each sum.
The probability of a one being rolled in a fair die is 1 in 6, or 0.1666... . The probability of a one not being rolled is 5 in 6, or 0.8333... . The probability, then, of exactly one one being rolled in nine rolls is 1 in 6 times 5 in 6 to the 8th power, or about 0.0388.
1:4 i think
36 times. But also, you might get the opposite result 36 times.
36 times. But also, you might get the opposite result 36 times.
15
It is 0.722... recurring.
1:6 or (theoretically) 50 times
25/36
On a normal cube, the probability is 0. If there are more than 1 cubes, the answer depends on how many are being rolled for each sum.
The probability of a one being rolled in a fair die is 1 in 6, or 0.1666... . The probability of a one not being rolled is 5 in 6, or 0.8333... . The probability, then, of exactly one one being rolled in nine rolls is 1 in 6 times 5 in 6 to the 8th power, or about 0.0388.
The answer depends on how many times it is rolled.
200.
1/12 possibilty.