In mathematics, particularly in probability theory, "outcomes" refer to the possible results of a random experiment or event. For example, when flipping a coin, the outcomes are heads or tails. An "event" is a specific subset of outcomes that we are interested in, such as getting heads when flipping the coin. Together, outcomes and events help in analyzing and calculating probabilities.
Random events are events that do not have a determined outcome. The set of possible outcomes for a random event is always greater than one item.
Yes, two events are mutually exclusive if they have no outcomes in common. This means that the occurrence of one event precludes the occurrence of the other. For example, when flipping a coin, the events of getting heads and tails are mutually exclusive, as you cannot get both outcomes simultaneously.
In mathematics, "favorable" typically refers to outcomes or events that are considered desirable or beneficial in a probability context. For example, when calculating probability, favorable outcomes are those that align with the event of interest. The probability of an event is determined by the ratio of the number of favorable outcomes to the total number of possible outcomes.
Theoretical implies the mathematical calculation of the probability. Empirical means the actual outcomes to happen.
Multiply the possible outcomes of the events in the disjoint events
Random events are events that do not have a determined outcome. The set of possible outcomes for a random event is always greater than one item.
Yes, two events are mutually exclusive if they have no outcomes in common. This means that the occurrence of one event precludes the occurrence of the other. For example, when flipping a coin, the events of getting heads and tails are mutually exclusive, as you cannot get both outcomes simultaneously.
The law of causality states that every event has a cause, and every cause produces an effect. This means that events and outcomes are connected in a chain of cause and effect, where one event leads to another. Understanding this law helps us see how actions and decisions can influence future events and outcomes.
Theoretical implies the mathematical calculation of the probability. Empirical means the actual outcomes to happen.
False
Multiply the possible outcomes of the events in the disjoint events
events that have one or more outcomes in common.
he possibility of that outcome.
The answer is statistics
true A compound event consists of two more outcomes or simple events
Tree diagrams are used in math to see how many possible outcomes there are. The sample space of a tree diagram shows you how many possible outcomes there are.
I assume you mean how many possible outcomes when looking at all 13 results. It would be 2^13 = 8192