The diameters of steel shafts produced by a certain manufacturing process should have a mean diameter...

The diameter of copper shafts produced by a certain manufacturing company process should have a mean...

The diameter of copper shafts produced by a certain manufacturing company process should have a mean diameter of 0.51 mm. The diameter is known to have a standard deviation of 0.0002 mm. A random sample of 40 shafts has an average diameter of 0.509 mm. Test the hypotheses on the mean diameter using α = 0.05.

It is known that the diameters of the rods of an aluminum alloy produced in an...

It is known that the diameters of the rods of an aluminum alloy produced in an extrusion machine have a standard deviation of 0.0001 inches. A random sample of 38 rods with an average diameter of 0.5046 inches. It can be assumed that the actual mean diameter of the rods is 0.5025 inches, use a confidence interval of 99% to conclude.

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of...

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of 1.5 and a mean diameter of 205 inches. If 79 shafts are sampled at random from the batch, what is the probability that the mean diameter of the sample shafts would differ from the population mean by more than 0.3 inches?

Suppose that 22% of all steel shafts produced by a certain process are nonconforming but can...

Suppose that 22% of all steel shafts produced by a certain process are nonconforming but can be reworked (rather than having to be scrapped). (a) In a random sample of 235 shafts, find the approximate probability that between 47 and 66 (inclusive) are nonconforming and can be reworked. (b) In a random sample of 235 shafts, find the approximate probability that at least 54 are nonconforming and can be reworked.

Suppose that 24% of all steel shafts produced by a certain process are nonconforming but can...

Suppose that 24% of all steel shafts produced by a certain process are nonconforming but can be reworked (rather than having to be scrapped). (a) In a random sample of 183 shafts, find the approximate probability that between 29 and 52 (inclusive) are nonconforming and can be reworked. (b) In a random sample of 183 shafts, find the approximate probability that at least 48 are nonconforming and can be reworked.

Suppose that 24% of all steel shafts produced by a certain process are nonconforming but can...

Suppose that 24% of all steel shafts produced by a certain process are nonconforming but can be reworked (rather than having to be scrapped). (a) In a random sample of 183 shafts, find the approximate probability that between 29 and 52 (inclusive) are nonconforming and can be reworked. (b) In a random sample of 183 shafts, find the approximate probability that at least 48 are nonconforming and can be reworked.

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of...

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of 1.5 and a mean diameter of 205 inches. If 79 shafts are sampled at random from the batch, what is the probability that the mean diameter of the sample shafts would be less than 205.3 inches? Round your answer to four decimal places.

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of...

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of 2.5 and a mean diameter of 214 inches. If 85 shafts are sampled at random from the batch, what is the probability that the mean diameter of the sample shafts would be greater than 214.2 inches? Round your answer to four decimal places.

Suppose that 23% of all steel shafts produced by a certain process are nonconforming but can...

Suppose that 23% of all steel shafts produced by a certain process are nonconforming but can be reworked (rather than having to be scrapped). (a) In a random sample of 222 shafts, find the approximate probability that between 45 and 64 (inclusive) are nonconforming and can be reworked. (b) In a random sample of 222 shafts, find the approximate probability that at least 55 are nonconforming and can be reworked. Please do not round up the numbers during the process,...

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of...

Suppose a batch of metal shafts produced in a manufacturing company have a standard deviation of 1.9 and a mean diameter of 200 inches. If 78 shafts are sampled at random from the batch, what is the probability that the mean diameter of the sample shafts would differ from the population mean by greater than 0.2 inches? Round your answer to four decimal places.