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15y ago

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How many possible outcomes are there on the spinner?

To determine the number of possible outcomes on a spinner, you need to know how many distinct sections or segments the spinner has. Each segment represents a different possible outcome. For example, if a spinner is divided into 8 equal sections, there are 8 possible outcomes. If you provide more details about the spinner, I can give a more specific answer.


How many outcomes are possible if you spin the spinner 3 times?

You need to know how many outcomes you have. Is the spinner composed of colors, numbers, names? What categories does the spinner have?


How many squares will you need to find possible outcomes for 3 traits per parent?

Please make your answer more clear.


What is the probability of tossing a coin 20 times?

Do you mean what are all the possible outcomes? Or what is the probability of a certain outcome? Need a little more information.


Why do you need probability in real life?

Because there are many events whose outcomes cannot be determined. However, using probability it may be possible to make a good estimate as to the outcome.Because there are many events whose outcomes cannot be determined. However, using probability it may be possible to make a good estimate as to the outcome.Because there are many events whose outcomes cannot be determined. However, using probability it may be possible to make a good estimate as to the outcome.Because there are many events whose outcomes cannot be determined. However, using probability it may be possible to make a good estimate as to the outcome.


Why do you find the sample space for an experiment to find the probability of an even?

You do not need to but it can help to identify all the possible outcomes so that you don't miss any out (by mistake).


How many leaves on a tree diagram are needed to represent all possible combinations of tossing a coin in drawing a card from a standard deck of cards?

To represent all possible combinations of tossing a coin and drawing a card from a standard deck, you need to consider both events. Tossing a coin has 2 outcomes (heads or tails), and drawing a card from a standard deck has 52 outcomes. Therefore, the total number of combinations is 2 (coin outcomes) multiplied by 52 (card outcomes), resulting in 104 leaves on the tree diagram.


What is the name of the peninsula that Moses crossed I need this as soon as possible.?

Sinai.


Two coins and one six sided cube are tossed together What is the probability of getting 2 heads and a four?

Probability is defined as the number of ways an outcome can occur divided by the number of possible outcomes. For the coins, there are 4 outcomes (HH, HT, TH, TT). On the cube, there are 6 possible outcomes. The total number of outcomes is then 4*6 = 24. Since there is only 1 way to obtain HH, look at the cube outcomes. With the HH outcome, the cube would need to fall on a 4. So, there is only 1 way a HH4 can occur. Therefore the probability of getting 2 heads and a four is 1/24 or 0.04167.


How many possible outcomes would there be if a coin is tossed?

2, there could only be two outcomes. Heads or tails As in any experiment you need to define a valid toss. So if you are examining the number of heads and tails you would limit the outcomes to these two states. However, in a real world experiment there may be a condition where the coin landed on a uneven surface and was tilted in some way. The number of tilted ways is infinite. You could also have the coin land on its edge which is unlikely but possible.


Two coins are tossed and a tetrahedral die is thrownthe tetrahedral die has 4 faces 1234 the probablity that only one head and even number?

To calculate the probability of getting only one head and an even number on the tetrahedral die, we need to consider the total number of possible outcomes. There are 2 outcomes for the coin toss (HH, HT), and 2 outcomes for the tetrahedral die (2, 4). Therefore, there are a total of 2 x 2 = 4 possible outcomes. The favorable outcome for getting only one head and an even number is (HT, 2) or (HT, 4), which is 2 out of the 4 possible outcomes. Thus, the probability is 2/4 = 0.5 or 50%.


What is the probability of exactly three heads in four flips of a coin given at least two are heads?

If you know that two of the four are already heads, then all you need to find isthe probability of exactly one heads in the last two flips.Number of possible outcomes of one flip of one coin = 2Number of possible outcomes in two flips = 4Number of the four outcomes that include a single heads = 2.Probability of a single heads in the last two flips = 2/4 = 50%.