as you cannot get more than 1
One
I do not add probabilities to anybody!
In probability, the probability of the occurrence of event A or event B is the sum of their probabilities only if they are mutually exclusive; not otherwise. So, by itself, "or" does not mean anything.
For two 6-sided dice, the sum of seven will come up more often than any other sum. You need to look at each die as a unique event to solve this. So here are the outcomes that add to seven: 1 + 62 + 53 + 44 + 35 + 26 + 1Note that there are six different outcomes which add to 7. Also note that 1+6 is a different event than 6+1, and similarly for the other events. The next most likely sums are 6 and 8: each of those has five different outcomes to sum up.
To calculate the probabilities of compound events, you can use the multiplication rule or the addition rule, depending on whether the events are independent or mutually exclusive. The multiplication rule is used when the events are independent, and you multiply the probabilities of the individual events. The addition rule is used when the events are mutually exclusive, and you add the probabilities of the individual events.
One
It is cumulative when you add together the probabilities of all events resulting in the given number or fewer successes.
I do not add probabilities to anybody!
In probability, the probability of the occurrence of event A or event B is the sum of their probabilities only if they are mutually exclusive; not otherwise. So, by itself, "or" does not mean anything.
For two 6-sided dice, the sum of seven will come up more often than any other sum. You need to look at each die as a unique event to solve this. So here are the outcomes that add to seven: 1 + 62 + 53 + 44 + 35 + 26 + 1Note that there are six different outcomes which add to 7. Also note that 1+6 is a different event than 6+1, and similarly for the other events. The next most likely sums are 6 and 8: each of those has five different outcomes to sum up.
this is a stupid question you can add an event by clicking the "add event" button below your list of events, or right click the event list, select add event, then choose the event you would like to add.
Your question is not clear, but I will attempt to interpret it as best I can. When you first learn about probability, you are taught to list out the possible outcomes. If all outcomes are equally probable, then the probability is easy to calculate. Probability distributions are functions which provide probabilities of events or outcomes. A probability distribution may be discrete or continuous. The range of both must cover all possible outcomes. In the discrete distribution, the sum of probabilities must add to 1 and in the continuous distribtion, the area under the curve must sum to 1. In both the discrete and continuous distributions, a range (or domain) can be described without a listing of all possible outcomes. For example, the domain of the normal distribution (a continuous distribution is minus infinity to positive infinity. The domain for the Poisson distribution (a discrete distribution) is 0 to infinity. You will learn in math that certain series can have infinite number of terms, yet have finite results. Thus, a probability distribution can have an infinite number of events and sum to 1. For a continuous distribution, the probability of an event are stated as a range, for example, the probability of a phone call is between 4 to 10 minutes is 10% or probability of a phone call greater than 10 minutes is 60%, rather than as a single event.
If p is the probability that an event will happen once, then the probability that it will happen just twice is p2. The probability it will happen 3 times is p3. The probability it will happen at least once ( ie once or twice or three times ore more times is p + p2 + p3 + ... = p(1-p). For "or" you add probabilities, for "and" you multiply probabilities.
Well... the probabilities should add up to exactly 1 and cannot be negative.
To calculate the probabilities of compound events, you can use the multiplication rule or the addition rule, depending on whether the events are independent or mutually exclusive. The multiplication rule is used when the events are independent, and you multiply the probabilities of the individual events. The addition rule is used when the events are mutually exclusive, and you add the probabilities of the individual events.
To add mutually to discover the totality amount To utter numbers sequentially To take account of Counting Principle is used to discover the figure of probable upshots. It shapes that if an occasion has "b" achievable outcomes and another autonomous event has "g" likely outcomes, then there are "bg" probable outcomes for the two occurrences collectively. Definition of Counting Numbers: The numbers which are used for counting from one to infinity are called Counting Numbers.
non-event