If rolling 1 die it is 1; if rolling 7 dice it is 0.
The probability of rolling a number less than 6 on a die would be 5/6.
1:6
The probability is 1, if the dice are rolled often enough.
There is a 4 in 6 (or 2 in 3) probability of rolling a number less than a five on a standard number cube.
4/6
The probability of rolling a number less than 6 on a die would be 5/6.
The probability of rolling a number less than 1 on a standard 6-sided die is zero. It will not happen.
There could be many questions: What is the probability of rolling an even number. What is the probability of rolling an odd number. What is the probability of rolling a number less than 4. What is the probability of rolling a number more than 3. What is the probability of rolling 1,4, or 6. Basically it could be any question about the probability of rolling half of the faces.
Well, if you put them back after you take them out, then 3=1/6 7=1/6 and
The probability of not rolling a 6 is 5/6.
1:6
The probability is 1, if the dice are rolled often enough.
Assuming it is a regular 6 sided die, it would be 4/6 or 2/3.
The probability of rolling a 4 is 1/6.
There is a 4 in 6 (or 2 in 3) probability of rolling a number less than a five on a standard number cube.
4/6
The probability of rolling a 6 on a fair six-sided die is ( \frac{1}{6} ). For the compound event of rolling a 6 and getting heads on a coin, the probability is ( \frac{1}{6} \times \frac{1}{2} = \frac{1}{12} ). Since ( \frac{1}{6} ) is greater than ( \frac{1}{12} ), we would expect the probability of rolling a 6 to be greater than the probability of the compound event.