Consider a FatBoy Bean Bag Production line in which the weight of the product is important....

Consider two production lines with fraction of nonconformities in accordance with LSL, USL. Production Line 1...

Consider two production lines with fraction of nonconformities in accordance with LSL, USL. Production Line 1 P1=0.2 Production Line 2 P2=0.2 Suppose that two independent random samples of 100, 120 are taken from production lines 1 & 2, respectively. Also, Let’s 10, and 12 represents the number of nonconformities in the samples. Develop a procedure for testing the hypothesis that fraction of nonconforming production for both lines (P1, P2) by Normal Distribution approximation. (Alpha=5%) Make hypothesis a test of whether...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and Action H 0:  = 16         Filling okay, keep running H a:     16       Filling off standard; stop and adjust machine The sample size is 39 and the population standard deviation is  = 0.7. Use  = .05. Do not round intermediate calculations. What is the probability of making a Type II error when the machine is overfilling by .5 ounces (to 4 decimals)?    What is the power of...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis Conclusion...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis Conclusion and Action H 0: = 16 Filling okay, keep running H a: not equal to 16 Filling off standard; stop and adjust machine The sample size is 39 and the population standard deviation is = 0.7. Use = .05. Do not round intermediate calculations. a. What is the probability of making a Type II error when the machine is overfilling by .5 ounces (to...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and Action H 0:  = 16         Filling okay, keep running H a:     16       Filling off standard; stop and adjust machine The sample size is 33 and the population standard deviation is  = 0.7. Use  = .05. Do not round intermediate calculations. What is the probability of making a Type II error when the machine is overfilling by .5 ounces (to 4 decimals)? What is the power of the...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis Conclusion...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis Conclusion and Action H0: = 16 Filling okay, keep running Ha: (not equal) 16 Filling off standard; stop and adjust machine The sample size is 35 and the population standard deviation is = 0.8. Use = .05. What would a Type II error mean in this situation? What is the probability of making a Type II error when the machine is overfilling by .5 ounces...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and Action H 0:  = 16         Filling okay, keep running H a:     16       Filling off standard; stop and adjust machine The sample size is 32 and the population standard deviation is  = 0.7. Use  = .05. Do not round intermediate calculations. What would a Type II error mean in this situation? SelectConcluding that the mean filling weight is not 16 ounces when it actually isConcluding that the mean...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and Action H 0:  = 16         Filling okay, keep running H a:     16       Filling off standard; stop and adjust machine The sample size is 39 and the population standard deviation is  = 0.7. Use  = .05. Do not round intermediate calculations. What would a Type II error mean in this situation? SelectConcluding that the mean filling weight is not 16 ounces when it actually isConcluding that the mean...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis Conclusion...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis Conclusion and Action H 0: = 16 Filling okay, keep running H a:       16 Filling off standard; stop and adjust machine The sample size is 35 and the population standard deviation is = 0.7. Use = .05. Do not round intermediate calculations. What would a Type II error mean in this situation? What is the probability of making a Type II error when the machine...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and...

A production line operation is tested for filling weight accuracy using the following hypotheses. Hypothesis       Conclusion and Action H 0:  = 16         Filling okay, keep running H a:     16       Filling off standard; stop and adjust machine The sample size is 31 and the population standard deviation is  = 0.7. Use  = .05. Do not round intermediate calculations. What is the probability of making a Type II error when the machine is overfilling by .5 ounces (to 4 decimals)?   

A production line operation is tested for filling weight accuracy using the following hypotheses. H 0:...

A production line operation is tested for filling weight accuracy using the following hypotheses. H 0: = 16 and H a: not equal  to  16. The sample size is 36 and the population standard deviation is = 0.7. Use = .05. Do not round intermediate calculations. What is the probability of making a Type II error when the machine is overfilling by .5 ounces (to 4 decimals)? What is the power of the statistical test when the machine is overfilling...