What are the control limits for an x-bar control charts with α=0.004 probability limit and a...

Control charts for x bar and R with subgroup size=4 are used to monitor a normally...

Control charts for x bar and R with subgroup size=4 are used to monitor a normally distributed quality characteristic. The control charts parameter were: X bar chart UCL=813, x bar chart CL=800, x bar chart LCL=787. R chart UCL=46.98, R chart CL=20.59, R chart LCL=0, both charts exhibit control. If the process mean shift from 800 to 780. What is the probability of detecting this shift on or before the second sample? A. 0.9934 B. 0.9834 C. 0.9993 D. 0.9894...

Broody Plastics produces plastic bottles for the customer orders. Statistical process control charts is being used...

Broody Plastics produces plastic bottles for the customer orders. Statistical process control charts is being used to monitor all the process. assume that the sample size is 4 and the specification for the bottle neck diameter is 6.00+-0.35. (Note that the central line of chart for the sample means is set at 6.00 and the range at 0.4 in.) (a) Calculate control limits for the mean and range charts. (b) If the firm is looking for the three-sigma performance, is...

Aspen Plastics produces plastic bottles to customer order. To monitor the process, statistical process control charts...

Aspen Plastics produces plastic bottles to customer order. To monitor the process, statistical process control charts are used. The central line of the chart for the sample means is set at 8.50 and the range at 0.31in. Assume that the sample size is 6 and the specification for the bottle neck diameter is 8.50 ± 0.25. a. Calculate the control limits for the mean and range charts. (3 points) b. Suppose that the standard deviation of the process distribution is...

Process in statistical control has a mean of 100.0 and standard deviation of 3.0. ?_bar and...

Process in statistical control has a mean of 100.0 and standard deviation of 3.0. ?_bar and ? charts with subgroups of size 7 are used to monitor the process. If the process center shifts downward to 96.0, what is the probability of first point falling outside ?_bar chart control limits is on the third sample taken after the shift?

The General Widgets Company (GWC) is interested in setting up x-bar and R charts, both with...

The General Widgets Company (GWC) is interested in setting up x-bar and R charts, both with 3 sigma control limits on the net weight of a 100 ounce widget. They have collected 100 samples using the sample size of 9 and found that ?̿=99.95 and ?̅=1.3464. However, they are planning on switching to a sample of size 4. a)Set up the x-bar chart for a sample of size 4. b)Set up the R chart for a sample of size 4....

A process is controlled with a fraction nonconforming control chart with three-sigma limits, ? = 100....

A process is controlled with a fraction nonconforming control chart with three-sigma limits, ? = 100. Suppose that the center line = 0.10. (a) Suppose that the percentage of conforming units in sample ? is ?? . What distribution should ?? follow? Use a Normal distribution to approximate the distribution of ?? . Specify the mean and the variance of this Normal distribution. (b) Find the upper and lower control limit for this fraction nonconforming chart. (c) Find the equivalent...

Suppose you calculate “X bar bar” = 25 and “R bar” = 7.5 from 25 previous...

Suppose you calculate “X bar bar” = 25 and “R bar” = 7.5 from 25 previous samples of size 5 each. Assume the quality characteristic has a normal distribution and both the “X bar” and R charts show statistical control of the process. Specification limits are at 24 ± 7.    c) Calculate the percentage of items outside the specification limits.   d) Calculate the capability index. Comment on the capability of the process.

The Slip-Ring Diameters (cm) – Each Sample consisted of 5 Observations to Calculate the X-Bar and...

The Slip-Ring Diameters (cm) – Each Sample consisted of 5 Observations to Calculate the X-Bar and R-Bar CONTROL Charts for each of the Sample Size. PRESUME each Sample Consisted of 8 Observations AND HAD THE SAME X-BAR & R-BAR AVERAGES!! (Slide 4-29; 2 RightHand Columns ONLY!!) Calculate Upper and Lower Control Limits for X-Bar R-Bar Graph the CONTROL Charts with the 10 Data Samples X-Bar R-Bar

A process is in control and normally distributed with ? control chart limits of 45 and...

A process is in control and normally distributed with ? control chart limits of 45 and 15. The subgroup size is 4. Suppose the process variance suddenly triples while process mean remains unchanged. What is the probability that the first subsequent subgroup average will fall outside the control limits? What are the ? probability and ARL?

A process is in control and normally distributed with ? control chart limits of 45 and...

A process is in control and normally distributed with ? control chart limits of 45 and 15. The subgroup size is 4. Suppose the process variance suddenly triples while process mean remains unchanged. What is the probability that the first subsequent subgroup average will fall outside the control limits? What are the ? probability and ARL? Suppose the process variance suddenly triples while process mean shifts downward to 10. What are the β probability and ARL now?