There is only one even number over 4, which is 6, so when rolling the number cube, the chances of it coming up are 1/6.
A single fair die has the numbers 1 to 6, so when a single fair die is tossed the probability of obtaining a number different than 11 is: P(x diff than11) = 1.
well, it will have 6 times of the greater chance.
The probability is 90/216 = 5/12
With one toss of a coin, there can be at most 1 head. So the probability of 4 or more heads is very definitely 0.
21/36 = 7/12
1/6
Coins do not have numbers, there is only the probability of heads or tails.
The probability of rolling a number greater than 1 is 5/6.
The answer will depend on what is being tossed!
A single fair die has the numbers 1 to 6, so when a single fair die is tossed the probability of obtaining a number different than 11 is: P(x diff than11) = 1.
25%
The probability that the die tossed will land on a number that is smaller than 5 is 4/6 or 2/3. Smaller than 5 is 1 - 4 and 6 is the sample space.
well, it will have 6 times of the greater chance.
The probability is 90/216 = 5/12
1 - (2/3)4 = 1 - 16/81 = 65/81 ≈ 80.25%
These are all independent events. So the probability of them all happening is the product of the probabilities of each one of them happening. The desired probability is (2/6)*(1/2)*(1/2)=1/12
The probability is 1/16.