The following data represent the filling weights based on samples of 350-gram containers. Ten samples of...

Bongo’s nut bar is produced at a highly automated facility.  One of the quality control factors is...

Bongo’s nut bar is produced at a highly automated facility.  One of the quality control factors is the weight of each bar.  Samples of 10 bars are taken regularly and adjustments are made based on the outcome of quality control process.  Average weights and ranges of the latest samples are reported as following: Sample Average weight (gram) Range 1 51 5 2 53 4 3 48 1 4 49 3 5 52 2 What is the upper control limit of X chart? 50.5...

The following samples have been taken from an on-going process. Use these values to create both...

The following samples have been taken from an on-going process. Use these values to create both an X bar and an R chart, and then answer the questions below. Please show work. Sample 1: 56 48 53 58 52 Sample 2: 50 59 57 56 54 Sample 3: 61 59 56 55 58 Sample 4: 57 51 49 57 50 Sample 5: 50 49 57 55 56 Sample 6: 56 55 60 58 57 A) What is the value of...

Happy Oil Processing needs to monitor the amount of oil they put in 1-liter containers on...

Happy Oil Processing needs to monitor the amount of oil they put in 1-liter containers on their filling line. They have had problems with underfilled containers.       Samples of 250 containers were collected 4 times a day for 12 days.   They’ve asked you to create an np-chart for the filling process and interpret the results. a)   What values will be used for the centerline, upper control limit, and lower control limit? (You only need to make a table of the...

Twelve​ samples, each containing five​ parts, were taken from a process that produces steel rods at...

Twelve​ samples, each containing five​ parts, were taken from a process that produces steel rods at Emmanual​ Kodzi's factory. The length of each rod in the samples was determined. The results were tabulated and sample means and ranges were computed. Refer to Table S6.1 - Factors for computing control chart limits (3 sigma) for this problem. Sample ​Size, n Mean​ Factor, A2 Upper​ Range, D4 Lower​ Range, D3 2 1.880 3.268 0 3 1.023 2.574 0 4 0.729 2.282 0...

Random samples of size n = 410 are taken from a population with p = 0.09....

Random samples of size n = 410 are taken from a population with p = 0.09. Calculate the centerline, the upper control limit (UCL), and the lower control limit (LCL) for the p¯p¯ chart. (Round the value for the centerline to 2 decimal places and the values for the UCL and LCL to 3 decimal places.) Calculate the centerline, the upper control limit (UCL), and the lower control limit (LCL) for the p¯p¯ chart if samples of 290 are used....

Below are six samples of size three giving drained weights after filling of contents of No....

Below are six samples of size three giving drained weights after filling of contents of No. 3 cans of standard grade sardines canning factory. What do these data indicate about the stability of the filling process? (20 points) Sample            Weights in Ounces         1                    22.0 22.5 22.5         2                    20.5 22.5 22.5         3                    20.0 20.5 23.0        4                    21.0 22.0 22.0         5                    22.5 19.5 22.5         6...

QUESTION 20 Five samples of size 12 were collected. The data are provided in the following...

QUESTION 20 Five samples of size 12 were collected. The data are provided in the following table: Sample number 1 2 3 4 5 Sample mean 4.80 4.62 4.81 4.55 4.92 Sample standard deviation 0.30 0.33 0.31 0.32 0.37 The upper control limit (UCL) and lower control limit (LCL) for an s-chart are: 1.LCL = 0.0971, UCL = 0.5868. 2.LCL = 0.1154, UCL = 0.5366. 3.LCL = 0.1011, UCL = 0.6109. 4.LCL = 0.1034, UCL = 0.6246. 5.LCL = 0.0994,...

The following data is X-Bar and R values for 12 samples of size n = 5....

The following data is X-Bar and R values for 12 samples of size n = 5. They were taken from a process measuring various inductance values for a new production line of high fidelity speakers. Subgroup No., (X-Bar), ((Range)) 1 (345) ((13)), 2 (347) ((14)), 3 (350) ((12)), 4 (346) ((11)), 5 (350) ((15)), 6 (345) ((16)), 7 (349)((14)), 8 (348) ((13)), 9 (348)((12)), 10 (354) ((15)), 11 (352) ((13)), 12 (355) ((16)) Create X-Bar and R control charts from...

The results of inspection of DNA samples taken over the past 10 days are given below....

The results of inspection of DNA samples taken over the past 10 days are given below. Sample size is 100. Day 1 2 3 4 5 6 7 8 9 10 # of defectives 7 6 6 9 5 0 0 8 6 1 (a) Determine the fraction defective of the p chart. Please give the formula and at least one step of calculation for full credit. (6 points) (b) Determine the of the p chart. Please give the formula...

The following data represent samples that were taken on 10 separate days. Each day has a...

The following data represent samples that were taken on 10 separate days. Each day has a varying sample size and the number of defects for the items sampled is listed. We want to see if this process is consistent and in control. Day Sample Size Defects 1 100 6 2 110 4 3 190 10 4 190 7 5 240 15 6 255 8 7 105 3 8 175 6 9 245 22 10 265 27 Find the UCL.              ...