Category Archives: Engineering homework help

1. Wordcount: at least 2,000 words – references are excluded from the wordcount;

1. Wordcount: at least 2,000 words – references are excluded from the wordcount;
2. Please submit ONLY word documents. PDFs or any kind of photo documents will not be marked;
3. Please do not plagiarise: any similarity index above 20% will be referred to the Ethics Committee;
4. Prose is highly recommended as opposed to any metrical structure of text;
5. Please title your answers, for example: Answer to Question 1 or Answer to Question 2;
6. If you need extra time, please apply for Extenuating Circumstances;
7. Deadline: saturday 2th of April by 23:59 GMT/UTC
Based on the case study: ‘Fiat: The Value of a Spinoff’
Answer all three questions.
Q1. (Weight 40%)
Investigate Fiat Group’s different options for splitting up its constituent companies in order to enable the market to assess the performance of its two main businesses (Capital Goods and Automobiles) on an individual basis.
Q2. (Weight 30%)
Critically reflect on the pros and cons of the diversification strategies.
Q3. (Weight 30%)
Comment on all possible reasons explaining the diversification discount.

One theory of technology puts forth the idea that technical things, or artifacts

One theory of technology puts forth the idea that technical things, or artifacts, have value-laden qualities. Furthermore, some of these value-laden qualities may include political values. As a consequence, any sharing of that artifact between different people would entail a sharing, and perhaps a spreading, of those same political values. But what does this mean?
Put another way: oftentimes, introducing new technologies into different cultures require their people to adapt or change their lifestyles, including the sphere of life we might call the political (that is, how and where they work, how they build cities and infrastructure, how they form organizations and institutions, and select leaders, etc.).
consider whether or not some technology (of your choice) possess inherently political values. Do research on how that technology has influenced the political behavior of another country’s people outside of the US and Canada, regardless of where that technology was first designed and developed.
be sure to:
1. Describe the relevant factual details of the case you will be discussing (i.e., the technology, where it was first developed, how people are using it in another country, etc.).
2. Take a position on whether or not the technology possesses inherently political qualities. Explain.
3. Take a position on whether or not it was ethical to introduce the technology into the country you chose.
4. Give an argument for how you reached your conclusions and defend your position appealing to the theories of technology discussed in class and readings.
Please do not use GMOs, Uber/Lyft (rideshare services), AirBNB, nuclear power or nuclear weapons, or any form of timekeeping devices as examples. Furthermore, please restrict your choice of example to the history of the 19th-21st centuries.

COURSE CODE GEEN 1093 COURSE TITLE Global Engineering: Theory and Practice Instr

COURSE CODE GEEN 1093
COURSE TITLE Global Engineering: Theory and Practice
Instructions
1. Wordcount: at least 2,000 words – references are excluded from the wordcount;
2. Please submit ONLY word documents. PDFs or any kind of photo documents will not be marked;
3. Please do not plagiarise: any similarity index above 20% will be referred to the Ethics Committee;
4.  form/Prose is highly recommended as opposed to any metrical structure of text;
5. Please title your answers, for example: Answer to Question 1 or Answer to Question 2;
6. If you need extra time, please apply for Extenuating Circumstances;
Based on the case study: ‘Netcare’s International Expansion’
Answer all three questions.
Q1. (Weight 30%)
Investigate the competencies that Netcare initially acquired in South Africa and subsequently they became internationally transferable.
Q2. (Weight 30%)
Critically reflect on the reasons the United Kingdom was an appropriate location for Netcare to do business.
Q3. (Weight 40%)
Assess the pros and cons of the various options that Netcare had either to expand internationally or do business at home.

Write a brief narrative paper describing a specific group or team situation you

Write a brief narrative paper describing a specific group or team situation you have experienced in your professional or para-professional life (PWC in San Jose). The paper should be descriptive in nature and specifically not analyze the situation. Analysis will be done at a later time with your learning team. The paper should adequately, but concisely, describe the situation at hand, the individuals involved with the situation, their roles within the group, and any problems or conflicts that were openly experienced by the group. Change the names of the company and/or individuals mentioned in the paper if the organization/individuals are of a sensitive nature. This paper should be three to four pages in length (double-spaced) and is due by the date of the start of the online class. The paper does not need to include an abstract or reference page but should be written in the third person and be free from typographical errors. 

Assess a real-life company or organization’s use of Lean, Agile, DFSS, or Design

Assess a real-life company or organization’s use of Lean, Agile, DFSS, or Design Thinking. Provide evidence of their processes and outcomes.  Comment on where the organization may find new opportunities to use a methodology covered in this course. (LO1, LO2, LO3, LO4).
Minimum 8 pages, maximum 10 pages (double spaced), not including cover page. Please look at the example paper for your references.

FlyingData Inc. is a health information management consultancy and at the start

FlyingData Inc. is a health information management consultancy and at the start of the pandemic in 2020, all employees had to work from home. The office administrator contacted you 2 days afterward and mentioned not being able to access any folders or files needed for her job. As the network administrator, you were asked to ensure the office administrator is able to get access to the needed folders and files.
P.S: The User’s computer has an internet and can access other cloud applications, but not anything
hosted onsite.
Assignment:
1. What is the main reason the user is unable
to access the files and folders onsite?
2. Lay out a detailed approach on how you will
resolve this issue
3. Name 5 common protocols for your
response to question 1
4. Based on the solution to question 1, list 5
examples of tools the company could
purchase to fix this issue.
Please use the references and I dont need an answer from any chegg or course hero subscription.

Create a Gas In Place (OGIP) distribution, determining the P10, P50 & P90 values

Create a Gas In Place (OGIP) distribution, determining the P10, P50 & P90 values using the following hints. Document your results in a 2 page report with key screen shots. Also upload your @Risk excel sheet.
a. Use the HW3_OGIP.XLS spreadsheet which has two tabs:
i. Welldata – this is the raw data from 25 wells in the same field.
ii. VolumetricModel – this is where the calculations reside for that field.
b. In the VolumetricModel tab, replace the Input Values for Depth, Thickness, GC, Density, PhiM, and Sw with distribution functions from @Risk. To obtain the distributions functions, go first to the WellData TAB.
c. In the WellData tab, choose a distribution function — for each of these inputs — that you think adequately matches the data. Be careful of using functions that result in nonsensical values (i.e. negative thickness; use RiskTruncate).
d. In the VolumetricModel tab, replace the OutputValue for GIPTotal with a RiskOutput function.
e. Run the  Monte Carlo simulation utilizing the distributions of input variables and the single output variable GIPTotal to generate the distribution for GIPTotal and the P10, P50 and P90 estimates. Use at least 1000 iterations.
Part A1:
Convert the probabilistic OGIP estimation of HW3 to an EUR estimation, using the recovery factors for the gas given as a probability input function in HW4A_RF.xls. Use the function for shale gas RF as inputs for the EUR computations. Here are the steps
a. Your output function needs to be an RIskOutput function.
b. Run the MC simulation.
c. Determine the P10, P50 & P90 EUR values (assuming well is economic)
d. Give a table with P10, P50 & P90 EUR, as well as proved, probable and possible reserves volumes.
Part B:
Using the data in ‘HW4B_Correlation Data.XLS’, do the following:
Determine the       correlation between depth and Gas Content, and simulate (with @RISK) 100       pairs of randomly generated depth and Gas Content data;
Give a cross-plot on       the same graph with (1) the raw input data, and (2) the data generated       from the distributions [under task (a)].
Fit a least squares       regression curve through each of the data sets using xcel. 
Show the equations and       correlation coefficients of each of the equations in the plot.
If you have done this properly, the input and simulated dataset will have similar clustering and similar least squares fits.

Create a Gas In Place (OGIP) distribution, determining the P10, P50 & P90 values

Create a Gas In Place (OGIP) distribution, determining the P10, P50 & P90 values using the following hints. Document your results in a 2 page report with key screen shots. Also upload your @Risk excel sheet.
a. Use the HW3_OGIP.XLS spreadsheet which has two tabs:
i. Welldata – this is the raw data from 25 wells in the same field.
ii. VolumetricModel – this is where the calculations reside for that field.
b. In the VolumetricModel tab, replace the Input Values for Depth, Thickness, GC, Density, PhiM, and Sw with distribution functions from @Risk. To obtain the distributions functions, go first to the WellData TAB.
c. In the WellData tab, choose a distribution function — for each of these inputs — that you think adequately matches the data. Be careful of using functions that result in nonsensical values (i.e. negative thickness; use RiskTruncate).
d. In the VolumetricModel tab, replace the OutputValue for GIPTotal with a RiskOutput function.
e. Run the  Monte Carlo simulation utilizing the distributions of input variables and the single output variable GIPTotal to generate the distribution for GIPTotal and the P10, P50 and P90 estimates. Use at least 1000 iterations.