When you can find a model that satisfactorily captures the scientific laws behind all the possible outcomes of the trial.
There are 25 = 32 possible outcomes.
The possible outcomes of a coin that is flipped are heads or tails.
Sometimes it is possible to define a model for a trial or experiment and then use mathematical or scientific rules to determine the probability of the possible outcomes. Such a procedure gives theoretical probabilities.
you ether use a graph tree diagram or web diagram to answer the possible outcomes of the question possible outcomes meaning the number of outcomes the person will have in the probability or divide the number of favourable outcomes by the number of possible outcomes favorible outcomes meaning the number of outcomes all together
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A tree diagram is a tool, in probability theory, that helps list all the possible outcomes of a trial and calculate their probabilities.A tree diagram is a tool, in probability theory, that helps list all the possible outcomes of a trial and calculate their probabilities.A tree diagram is a tool, in probability theory, that helps list all the possible outcomes of a trial and calculate their probabilities.A tree diagram is a tool, in probability theory, that helps list all the possible outcomes of a trial and calculate their probabilities.
an outcome
The binomial distribution is a discrete probability distribution. The number of possible outcomes depends on the number of possible successes in a given trial. For the Poisson distribution there are Infinitely many.
Flipping a coin is an example of a Bernoulli trial. It is an experiment with two possible outcomes (heads or tails) and has a constant probability of success (0.5) for each trial.
A dichotomous trial is one for which there are only two possible outcomes. Another name for it is binary outcome.
When you can find a model that satisfactorily captures the scientific laws behind all the possible outcomes of the trial.
The assumptions of the binomial distribution are that there are a fixed number of independent trials, each trial has two possible outcomes (success or failure), the probability of success is constant across all trials, and the outcomes of each trial are independent of each other.
how do we analyze favorable and possible outcomes
There are 25 = 32 possible outcomes.
There are 2 possibilities for each toss. Since the three tosses are independent (one trial does not affect the outcome of the other trials), there are 2 * 2 * 2 = 8 total possible outcomes. The outcomes are: HHH HHT HTH HTT THH THT TTH TTT
There are 36 possible outcomes.