Category: Engineering

CIV61021 – Coursework: The 1984 Failure of Carsington Dam
For Part D, use the following drawdown values as given to you by registration number. Drawdown, zdraw(m)24. Use GeoStudio2023 to model and simulate and analyze solutions. Content requirements and article structure are written in the first document

Download the Project WBS Template (Solo or Team) from the Templates folder under Content
Develop a WBS to at least Level 3, clearly showing all three project deliverables
The Prototype section of the WBS should be detailed more finely than the Presentation and Report sections
Use a product-oriented structure
Add costs (labor hours) for the lowest level element in your WBS
Add a milestone (Name and Week #) for each WBS Level 3 element
Save the file as ‘Project WBS – xxxxx’ (replace ‘xxxxx’ with your last name)
Submit the native Excel file

I have 3 Problems that I need done by 3pm tomorrow. (11-17-2023)
Linear graphing of electrical systems and mechanical systems. should take about 2 hours to complete. need all work shown clearly. Consists of drawing the linear graph, doing the normal tree, finding the state variables, and deriving the elemental, compatibility, and continuity equations. Solving for the state equation and the output equation in standard form. I have attached the 3 problems below.

Develop an excel-based Scope 3 (category 6 and category 7 – Business Travel and employee commuting) Calculator.
This calculator will specifically focus on Category 6 (Business Travel) and Category 7 (Employee Commuting) emissions to facilitate our reporting obligations.
The scope of the project includes:
1. **Development of an Excel-Based Calculator:**
– The calculator should allow users to input data easily, such as the number of travels, employee cars, estimated commuting distances, etc., to compute Scope 3 emissions.
– Ensure user-friendliness with well-defined parameters, equations, constants, and emissions factors.
2. **Data Sources and References:**
– Clearly define and include sources for emissions factors, constants, and variables used in the calculator.
– List assumptions made and provide references for data sources used in the emissions calculations.
3. **Design and Visual Appeal:**
– Create an appealing design for the Excel sheet, including demonstrative pictures or visuals, to enhance user-friendliness and engagement.
4. **Example Sheet:**
– Include a separate sheet within the Excel file that demonstrates how inputting values generates the resultant CO2 equivalent, showcasing a detailed example with all necessary inputs.
5. **Detailed Requirements:**
– Define and include the equations, assumptions, and detailed parameters needed for accurate emissions calculation in the example sheet.

We aim to ensure that the tool provides a user-friendly interface while being robust in capturing and calculating emissions data accurately. We also prioritize transparency and reliability by including comprehensive sources and references for all input factors.
The final deliverable should be an Excel-based tool that assists us in calculating Scope 3 emissions related to business travel and employee commuting, aligning with our sustainability reporting needs.
* Scope 3 emissions needs to include air, rail, car and hotel stays

Develop an excel-based Scope 3 (category 6 and category 7 – Business Travel and employee commuting) Calculator.
This calculator will specifically focus on Category 6 (Business Travel) and Category 7 (Employee Commuting) emissions to facilitate our reporting obligations.
The scope of the project includes:
1. **Development of an Excel-Based Calculator:**
– The calculator should allow users to input data easily, such as the number of travels, employee cars, estimated commuting distances, etc., to compute Scope 3 emissions.
– Ensure user-friendliness with well-defined parameters, equations, constants, and emissions factors.
2. **Data Sources and References:**
– Clearly define and include sources for emissions factors, constants, and variables used in the calculator.
– List assumptions made and provide references for data sources used in the emissions calculations.
3. **Design and Visual Appeal:**
– Create an appealing design for the Excel sheet, including demonstrative pictures or visuals, to enhance user-friendliness and engagement.
4. **Example Sheet:**
– Include a separate sheet within the Excel file that demonstrates how inputting values generates the resultant CO2 equivalent, showcasing a detailed example with all necessary inputs.
5. **Detailed Requirements:**
– Define and include the equations, assumptions, and detailed parameters needed for accurate emissions calculation in the example sheet.

We aim to ensure that the tool provides a user-friendly interface while being robust in capturing and calculating emissions data accurately. We also prioritize transparency and reliability by including comprehensive sources and references for all input factors.
The final deliverable should be an Excel-based tool that assists us in calculating Scope 3 emissions related to business travel and employee commuting, aligning with our sustainability reporting needs.
* Scope 3 emissions needs to include air, rail, car and hotel stays

I have an extra credit assignment for Fluid Dynamics. Just one problem but might be difficult working with Matlab and designing a GUI for the problem.

Write a technical report that includes, at the very least, an outline of the project, calculations (with references to the equations and tables you used), an analysis, the choice and description of countermeasures, an evaluation of their effectiveness, a discussion of the results, and a conclusion for the project. The information given for a corridor includes diagrams of the current state, collision diagrams, and crash analyses. Find out how many crashes are likely to happen in the current corridor, look at the data to come up with countermeasures, reevaluate the corridor as if the countermeasures were put in place, find out how many crashes are likely to happen in the improved corridor, and do a safety effectiveness evaluation to see if the proposed countermeasures will statistically make the corridor safer.

Introduction to Operation Engineering Management Decision Analysis
Product Mix
Your company is in construction business and is planning to build Houses (X1), Apartments (X2), and offices (X3).
a) The company has permission to build no more than a total of 10,000 units of the above structures.
b) A special type of iron bars are used for the foundation. Offices use twice that material than houses and apartments use three times of that material than houses. The company can source no more that 16,000 tons of this material.
c) The amount of wiring for internet and other communication needs in an office is 3 times that of a house and an apartment uses twice that amount of wire than a house. The company has no more than 15,000 meters of such wiring material.
d) Profit from each house is 3 million Rial, from an apartment is 5 million Rial and from an office is 4 million Rial
Question: Given the above constraints, how many houses, apartments, and offices should the company build to maximize its profit
1. Cast the above problem as a Linear Programming question
a) What is the objective function?
b) What are the constraints?
c) Is House = 5000, Apartments = 6000 , Offices = 7000
i. A solution
ii. A feasible solution
d) Give a solution of your own that is infeasible
Any values that violate at least one of the constraints is an infeasible solution for example
e) Is House = 1000, Apartments = 2000 , Offices = 3000
i. A solution
ii. A feasible solution
f) Give a solution of your own that is feasible
Any set of numbers that satisfy the constraints is a feasible solution for example
g) Using EXCEL to find the optimal feasible solution and the total profit in that cas
h) If the results of part g are not integers, let [x] be the largest integer ≤ x. For example [2.33] = 2. Replace results of optimal solutions by [x] and [x]+1 and indicate feasible solutions and the profit in each case.

Assignment #3:
Profile a major oil spill using one of the case summaries provided in the Oil Spill Case Histories document
found in Module 3. Create at least a 3-page case study that could be used to educate about the consequences
and corrective actions involving oils spills. The essay should address the following items:
1. Summary of Event (be sure to include the below):
a. Date of Event:
b. Type of Pollutant:
c. Volume of Spill:
2. Primary cleanup method deployed:
3. Root Cause Opinion
4. Lesson Learned Opinion:
5. Work Cited
You should format your response as follows: Times New Roman 12. APA Format. Proper headings with name,
date, course, etc.
Your work here should include additional research to located information beyond the summary facts
provided in the case history document provided. Use of photos, illustrations and tables is encouraged.
I have provided the oil spill case study they wanted us to use for reference as an attachment.

I have uploaded my project to you. It has a plagiarism detection feature. However, there is a 50% chance that this text was solely written by Al. Can you assist in ensuring there’s no plagiarism and decrease the probability of Al being the sole author to 0%?