yes
A probability can never be greater than 1.
The probability of rolling a number greater than 6 on a die is 0.
NO!!! In probability P(0) = Event will NOT happen/occur P(1) - Event is certain to occur. Probability answers less than zero, or greater than '1' are incorrect.
The probability that the number rolled, on a fair, six sided die, will be greater than 4 is 1/3.The probability that the number rolled, on a fair, six sided die, will be greater than 4 is 1/3.The probability that the number rolled, on a fair, six sided die, will be greater than 4 is 1/3.The probability that the number rolled, on a fair, six sided die, will be greater than 4 is 1/3.
If probability becomes greater than one, then the uncertainty coefficient fluctuates and results in a terminal case.
It is not possible to have a probability greater than 1. All probabilities are between 0 and 1, inclusive.
A probability can never be greater than 1.
FALSE. The probability of success (or anything else) cannot be greater than 1.0
A probability of 1 means something will definitely happen. There cannot be a greater certainty than that, so probability cannot be greater than 1.
A very high probability if your numbers are greater than 78.
Probability value can only be real number between 0 to 1, therefore, it cannot be greater than 1 or less than 0 or a complex number.
The probability is 0.88... recurring.
The probability of rolling a number greater than 6 on a die is 0.
NO!!! In probability P(0) = Event will NOT happen/occur P(1) - Event is certain to occur. Probability answers less than zero, or greater than '1' are incorrect.
Probability cannot be greater than 1.
To find the probability that the sum of two dice rolls is less than 9 or greater than 11, we first consider the possible outcomes. The total outcomes when rolling two dice are 36. The combinations that yield sums less than 9 are: 2, 3, 4, 5, 6, 7, and 8. For sums greater than 11, the only possible sums are 12. After calculating the favorable outcomes for both conditions, we can determine the probability by dividing the total favorable outcomes by 36.
no