A wheel with nine different colors on it is spun numerous times, and the results are recorded below:color black blue green purple pink yellow brown white greyresult 70 37 76 9 34 12 28 17 12What is the experimental probability of landing on a color other than green?0.2580.7420.3390.836

Let's say there is a wheel that is split into 9 numbered sections (labelled 1 – 9). Below is the table of how many times the spinner landed on each number after numerous spins.spinner number: 1 2 3 4 5 6 7 8 9result: 12 35 72 29 40 18 9 65 42Based on this result, what is the experimental probability of the spinner landing on a 1 or 7?0.0840.0650.0370.001

A spinner with 10 equally sized slices has 4 yellow slices, 4 red slices, and 2 blue slices. Amy spun the dial 1000 times and got the following results.Outcome Yellow Red BlueNumber of Spins 408 415 177Answer the following. Round your answers to the nearest thousandths.(a)From Amy's results, compute the experimental probability of landing on blue.(b)Assuming that the spinner is fair, compute the theoretical probability of landing on blue.(c)Assuming that the spinner is fair, choose the statement below that is true.

A spinner is divided into five colored sections that are not of equal size: red, blue, green, yellow, and purple. The spinner is spun several times, and the results are recorded below:Spinner ResultsColor FrequencyRed 8Blue 4Green 17Yellow 15Purple 3Based on these results, express the probability that the next spin will land on red or blue or green as a decimal to the nearest hundredth.

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.

A spinner with 9 equally sized slices is shown below. (5 slices are red, 2 are blue, and 2 are yellow.) The dial is spun and stops on a slice at random. What are the odds in favor of landing on a red slice?