Of these outcomes, how many are favorable?D. What do you think are the chances of a favorable outcome on one spin?E. How many favorable outcomes do you expect in 100 spins?F. Click Run 10 trials 10 times. How many favorable outcomes occurred?Was this close to what you predicted?

Of these outcomes, how many are favorable?D. What do you think are the chances of a favorable outcome on one spin?

To begin, check that the Number of spinners is 1, Sections is 6, Number is 2, and thesign is chosen. In this game, a win (a favorable outcome) occurs if the spinner lands on 2.How likely do you think it is that a player will win the game? Explain.2. On the EXPERIMENTAL tab, click Run 1 trial. What was the outcome?3. Click Clear. Then, click Run 10 trials. How many trials were favorable?4. Click Run 10 trials 5 more times so there are a total of 60 trials. How many favorableoutcomes did you get out of 60 trials?

What do you think are the chances of a favorable outcome on one spin?

Which experiment gave more consistent favorable percentages, 10-spins-per-trial or100-spins-per-trial

The spinner below shows 10 equally sized slices. Keiko spun the dial 150 times and got the following results.Outcome White Grey BlackNumber of Spins 68 46 36Fill in the table below. Round your answers to the nearest thousandth.(a) Assuming that the spinner is fair, compute the theoretical probability of landing on white.(b) From Keiko's results, compute the experimental probability of landing on white.(c) Assuming that the spinner is fair, choose the statement below that is true:The smaller the number of spins, the greater the likelihood that the experimental probability will be close to the theoretical probability.The experimental probability will never be very close to the theoretical probability, no matter the number of spins.The larger the number of spins, the greater the likelihood that the experimental probability will be close to the theoretical probability.