Math, asked by victoriades3, 10 months ago

A manufacturer of chocolate candies uses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ounces ?

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Answered by ganesh8919757726
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uses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the packaging process is stopped if there is evidence that the mean amount packaged is different from 8.17 ounces. Suppose that in a particular sample of 20 packages, the mean amount dispensed is 8.15 ounces, with a sample standard deviation of 0.046 ounce. Is there evidence that the population mean amount is different from 8.17 ouncesuses machines to package candies as they move along a filling line. Although the packages are labeled as 8 ounces, the company wants the packages to contain a mean of 8.17 ounces so that virtually none of the packages contain less than 8 ounces. A sample of 20 packages is selected periodically, and the pac

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