The weights of a certain brand of candies are normally distributed with a mean weight of 0.8608 g and a standard deviation of 0.0511 g. A sample of these candies came from a package containing 452 candies, and the package label stated that the net weight is 386.0 g. (If every package has 452 candies, the mean weight of the candies must exceed 386.0 - = 0.8539 g for the net contents to weigh at least 386.0 g.) 452 a. If 1 candy is randomly selected, find the probability that it weighs more than 0.8539 g. The probability is (Round to four decimal places as needed.)

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The weights of a certain brand of candies are normally distributed with a mean weight of 0.8608 g and a standard deviation of 0.0511 g. A sample of these candies came from a package 386.0 = 0.8608 g for 452 containing 452 candies, and the package label stated that the net weight is 386.0 g. (If every package has 452 candies, the mean weight of the candies must exceed the net contents to weigh at least 386.0.7 g.) ..... a. If 1 candy is randomly selected, find the probability that it weighs more than 0.8608 g. The probability is|. (Round to four decimal places as needed.)

 
The weights of a certain brand of candies are normally distributed with a mean weight of 0.8608 g and a standard
deviation of 0.0511 g. A sample of these candies came from a package containing 452 candies, and the package label
stated that the net weight is 386.0 g. (If every package has 452 candies, the mean weight of the candies must exceed
386.0
- = 0.8539 g for the net contents to weigh at least 386.0 g.)
452
a. If 1 candy is randomly selected, find the probability that it weighs more than 0.8539 g.
The probability is
(Round to four decimal places as needed.)
Transcribed Image Text:The weights of a certain brand of candies are normally distributed with a mean weight of 0.8608 g and a standard deviation of 0.0511 g. A sample of these candies came from a package containing 452 candies, and the package label stated that the net weight is 386.0 g. (If every package has 452 candies, the mean weight of the candies must exceed 386.0 - = 0.8539 g for the net contents to weigh at least 386.0 g.) 452 a. If 1 candy is randomly selected, find the probability that it weighs more than 0.8539 g. The probability is (Round to four decimal places as needed.)
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