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The following table shows the typical depth (rounded to

Applied Statistics and Probability for Engineers | 6th Edition | ISBN: 9781118539712 | Authors: Douglas C. Montgomery, George C. Runger ISBN: 9781118539712 55

Solution for problem 35E Chapter 3.2

Applied Statistics and Probability for Engineers | 6th Edition

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Applied Statistics and Probability for Engineers | 6th Edition | ISBN: 9781118539712 | Authors: Douglas C. Montgomery, George C. Runger

Applied Statistics and Probability for Engineers | 6th Edition

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Problem 35E

Problem 35E

The following table shows the typical depth (rounded to the nearest foot) for nonfailed wells in geological formations in Baltimore County (The Journal of Data Science, 2009, Vol. 7, pp. 111–127).

Geological Formation Group

Number of Nonfailed Wells

Nonfailed Well Depth

Gneiss

1,515

255

Granite

26

218

Loch Raven Schist

3,290

317

Mafic

349

231

Marble

280

267

Prettyboy Schist

1,343

255

Other schists

887

267

Serpentine

36

217

Total

7,726

2,027

Calculate the probability mass function of depth for nonfailed

wells from the table.

Step-by-Step Solution:

Solution:

Step 1 of 2:

Let X = the non-failed well depth

We have the typical depth for non-failed wells in geological formations in Baltimore County.

Geological Formation Group

Number of Non-failed Wells

Non-failed Well Depth

Gneiss

1,515

255

Granite

26

218

Loch Raven Schist

3,290

317

Mafic

349

231

Marble

280

267

Prettyboy Schist

1,343

255

Other schists

887

267

Serpentine

36

217

Total

7,726

2,027


Step 2 of 2

Chapter 3.2, Problem 35E is Solved
Textbook: Applied Statistics and Probability for Engineers
Edition: 6
Author: Douglas C. Montgomery, George C. Runger
ISBN: 9781118539712

The answer to “The following table shows the typical depth (rounded to the nearest foot) for nonfailed wells in geological formations in Baltimore County (The Journal of Data Science, 2009, Vol. 7, pp. 111–127).Geological Formation GroupNumber of Nonfailed WellsNonfailed Well DepthGneiss1,515255Granite26218Loch Raven Schist3,290317Mafic349231Marble280267Prettyboy Schist1,343255Other schists887267Serpentine36217Total7,7262,027Calculate the probability mass function of depth for nonfailedwells from the table.” is broken down into a number of easy to follow steps, and 53 words. This full solution covers the following key subjects: nonfailed, wells, depth, schist, Table. This expansive textbook survival guide covers 97 chapters, and 2005 solutions. Applied Statistics and Probability for Engineers was written by and is associated to the ISBN: 9781118539712. Since the solution to 35E from 3.2 chapter was answered, more than 891 students have viewed the full step-by-step answer. This textbook survival guide was created for the textbook: Applied Statistics and Probability for Engineers , edition: 6. The full step-by-step solution to problem: 35E from chapter: 3.2 was answered by , our top Statistics solution expert on 07/28/17, 07:57AM.

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The following table shows the typical depth (rounded to