2. (24 points, 4 each) Measurements of a critical dimension on a sample of autom

Question

2. (24 points, 4 each) Measurements of a critical dimension on a sample of automotive parts are taken with the following results (in units of mm): 10.4 10.11 10.14 10.09 9.87 9.93 10.02 9.99 9.99 10 10.03 10.02 The parts are produced from a machine known to have a standard deviation of ? 0.10 mm. The intended u is 10, but is known to drift from this mean during production. Based on this information, answer the following questions, clearly showing your work Calculate the 95% confidence interval for the mean for the production process during the time when these parts were machined. Assume that the standard deviation for the production process is not known. Calculate the 95% confidence interval for the mean. c.Assume that the standard deviation for the production process is known. Calculate the 99% confidence interval for the mean. Assume that the standard deviation for the production process is not known. Calculate the 99% confidence interval for the mean. Find the p-value (the smallest level of significance at which Ho would be rejected) under the assumption that ? is known and when ? is not known Find ß (the probability of a Type II error) for the case where a 95% confidence interval is used, the true mean 10.2, and ? is known.

Explanation / Answer

Sol:

(a)

n = 12     

x-bar = 10.05     

s = 0.1     

% = 95     

Standard Error, SE = ?/?n =    0.1 /?12 = 0.028867513

z- score = 1.959963985     

Width of the confidence interval = z * SE =     1.95996398454005 * 0.0288675134594813 = 0.056579287

Lower Limit of the confidence interval = x-bar - width =      10.05 - 0.0565792867038086 = 9.993420713

Upper Limit of the confidence interval = x-bar + width =      10.05 + 0.0565792867038086 = 10.10657929

(b)

n = 12     

x-bar = 10.05     

s = 0.133     

% = 95     

Standard Error, SE = s/?n =    0.133/?12 = 0.038393793

Degrees of freedom = n - 1 =   12 -1 = 11   

t- score = 2.200985159     

Width of the confidence interval = t * SE =     2.20098515872184 * 0.0383937929011101 = 0.084504168

Lower Limit of the confidence interval = x-bar - width =      10.05 - 0.0845041683623834 = 9.965495832

Upper Limit of the confidence interval = x-bar + width =      10.05 + 0.0845041683623834 = 10.13450417

(c)

n = 12     

x-bar = 10.05     

s = 0.1     

% = 99     

Standard Error, SE = ?/?n =    0.1 /?12 = 0.028867513

z- score = 2.575829304     

Width of the confidence interval = z * SE =     2.57582930354892 * 0.0288675134594813 = 0.074357787

Lower Limit of the confidence interval = x-bar - width =      10.05 - 0.0743577870895246 = 9.975642213

Upper Limit of the confidence interval = x-bar + width =      10.05 + 0.0743577870895246 = 10.12435779

(d)

n = 12     

x-bar = 10.05     

s = 0.133     

% = 99     

Standard Error, SE = s/?n =    0.133/?12 = 0.038393793

Degrees of freedom = n - 1 =   12 -1 = 11   

t- score = 3.105806514     

Width of the confidence interval = t * SE =     3.10580651358217 * 0.0383937929011101 = 0.119243692

Lower Limit of the confidence interval = x-bar - width =      10.05 - 0.119243692073393 = 9.930756308

Upper Limit of the confidence interval = x-bar + width =      10.05 + 0.119243692073393 = 10.16924369

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