i am applying to a grad school and i need a Statement of Purpose or Personal Statement.
this is what they wrote on their website about it. “Statement of Purpose or Personal Statement is designed to help reviewers learn more about you. This should highlight your academic goals and interests, your professional goals, as well as your reasons for pursuing this graduate program of study.”
so i am applying to phd program in electrical engineering at west virginia university. I got both my undergrad and master’s from West virginia university. My undergrad was in computer engineering and my masters was in applied math.
during my undergraduate i tooj many electrical enginnering classes and higher level ones like control systems. and was interested in them bc they use a lot of differential equation. i seek phd in electrical engineering bc it will compliment my engineering background and with the addition my math skills specifically in differential equations i belive i will excell in the phd program
Category: Engineering
The task is to reverse engineer the financial model used in this study: “https:/
The task is to reverse engineer the financial model used in this study: “https://finance.yahoo.com/news/nextsource-materials-announces-global-anode-114500544.html”
Assume a 40% raw material to CSPG conversion ratio, with the byproduct (“fines’) sold at say 10% of the price of CSPG product
eg: 10,000 tons graphite yields 4,000 tons CSPG and 6,000 tons fines
Assume the 20,000 tons capacity in Year 1 increases at Year 3 to 50,000 tons and at Year 5 to 100,000 tons
In all cases the production rate set at 90% of utilization (ie 10% flex unused for downtime etc)
So the set of Capex out / cashflow in spread over 3yrs, when 8% applied should be somewhere near that NPV
Some details missing no doubt, so a plug number will be needed (a goal seek)
Comments from Customer
Category: Financial Modelling
Please see attached PDF which explains this assignment requirements in details a
Please see attached PDF which explains this assignment requirements in details and please note that this assignment is continuous of assignment No.01. However, the first assignment was more of a design related and multiuse site and various buildings but this one is larger body of work and focused on one private residential dwelling (more details and requirements in the brief).
The instructor mentioned other points that needs focus:
1- Use feedback from assignment No.01 to improve this assignment No.02.
2- Critical Analysis is major key in this assignment.
3- Specify where the site is (Riyadh, Saudi Arabia (you can provide more details)) in the introduction.
4- Arguments & Posing arguments to justify why you are doing and why is suitable.
I have attached the below:
A- assignment no.01 for your reference
B- picture of assignment no.01 feedback
C- assignment no.02 brief and requirements (this assignment)
D- sample of how this assignment no.02 should look like.
The following writer ID helped developed a similar assignmnt: 350261622 Please e
The following writer ID helped developed a similar assignmnt: 350261622
Please ensure to select a writer that is similar in expertise with this guy. Im attaching the work he has done for me earlier.
This assignment guideliens:
We are seeking your expertise to develop a calculation tool (Excel-based calculator) for estimating emissions under Scope 3, Category 1: Purchased Goods and Services, as defined by the GHG Protocol. This tool will enable us to streamline data collection, calculation, and reporting of emissions associated with the production of goods and services we purchase.
Objective:
To create a user-friendly, Excel-based emissions calculator for Category 1: Purchased Goods and Services, aligned with the GHG Protocol guidelines, enabling accurate and efficient emissions estimation.
Components to Be Included:
The tool should incorporate the following features and align with the GHG Protocol requirements:
1.
Boundary Setting and Scope Definition:
•
Ensure the calculator accounts for cradle-to-gate emissions for all purchased goods and services.
•
Include emissions from upstream activities such as raw material extraction, processing, manufacturing, and transportation to the point of purchase.
2.
Data Input Requirements:
•
Design input fields for:
•
Types of goods and services purchased.
•
Quantities or volumes (e.g., kilograms, liters, pieces, etc.).
•
Financial spend data (if available, for a spend-based approach).
•
Supplier-specific emissions data (if available).
•
Allow flexibility to input both primary data (from suppliers) and secondary data (from databases or assumptions).
3.
Emissions Factor Integration:
•
Embed a database of emissions factors for common materials and products based on:
•
Material type (e.g., steel, aluminum, textiles, plastics).
•
Sector-specific emissions data.
•
Regional variations in production.
•
Allow for custom emissions factor inputs to accommodate company-specific or supplier-specific data.
4.
Calculation Methodology:
•
Incorporate the Spend-Based, Process-Based, and Hybrid Approaches:
•
Spend-Based: Financial spend multiplied by emissions factor per monetary unit.
•
Process-Based: Quantity-based calculations using material-specific emissions factors.
•
Hybrid: Combine spend and quantity-based data where applicable.
•
Automate the calculation process with formulas embedded in the Excel sheet.
5.
Data Quality Management:
•
Include a data quality scoring mechanism to assess the completeness and reliability of the input data.
•
Highlight areas where primary data or improved data collection is needed.
6.
Reporting and Documentation:
•
Automate summary outputs, including:
•
Total emissions by product type, category, or supplier.
•
Graphs or charts for visualization.
•
Include fields for documentation of assumptions, data sources, and calculation methods to ensure transparency.
7.
Tool Features:
•
User-friendly interface with clear instructions.
•
Drop-down menus or predefined options for ease of data entry.
•
Conditional formatting to flag missing or inconsistent data.
•
Macro-enabled calculations (if applicable) for large data sets.
8.
Alignment with GHG Protocol:
•
Ensure all calculations and methodologies are compliant with the GHG Protocol’s guidance for Scope 3, Category 1.
•
Include recommendations for data collection improvement over time.
Deliverables:
We expect the following deliverables from your engagement:
•
A fully functional Excel-based emissions calculator tailored to Category 1: Purchased Goods and Services.
•
A detailed user guide explaining how to use the tool, including input data requirements, calculation steps, and output interpretation.
•
Integration of a database of emissions factors and instructions for updating the database as needed.
•
Recommendations for improving data quality and supplier engagement.
The following writer ID helped developed a similar assignmnt: 350261622 Please e
The following writer ID helped developed a similar assignmnt: 350261622
Please ensure to select a writer that is similar in expertise with this guy. Im attaching the work he has done for me earlier.
This assignment guideliens:
We are seeking your expertise to develop a calculation tool (Excel-based calculator) for estimating emissions under Scope 3, Category 1: Purchased Goods and Services, as defined by the GHG Protocol. This tool will enable us to streamline data collection, calculation, and reporting of emissions associated with the production of goods and services we purchase.
Objective:
To create a user-friendly, Excel-based emissions calculator for Category 1: Purchased Goods and Services, aligned with the GHG Protocol guidelines, enabling accurate and efficient emissions estimation.
Components to Be Included:
The tool should incorporate the following features and align with the GHG Protocol requirements:
1.
Boundary Setting and Scope Definition:
•
Ensure the calculator accounts for cradle-to-gate emissions for all purchased goods and services.
•
Include emissions from upstream activities such as raw material extraction, processing, manufacturing, and transportation to the point of purchase.
2.
Data Input Requirements:
•
Design input fields for:
•
Types of goods and services purchased.
•
Quantities or volumes (e.g., kilograms, liters, pieces, etc.).
•
Financial spend data (if available, for a spend-based approach).
•
Supplier-specific emissions data (if available).
•
Allow flexibility to input both primary data (from suppliers) and secondary data (from databases or assumptions).
3.
Emissions Factor Integration:
•
Embed a database of emissions factors for common materials and products based on:
•
Material type (e.g., steel, aluminum, textiles, plastics).
•
Sector-specific emissions data.
•
Regional variations in production.
•
Allow for custom emissions factor inputs to accommodate company-specific or supplier-specific data.
4.
Calculation Methodology:
•
Incorporate the Spend-Based, Process-Based, and Hybrid Approaches:
•
Spend-Based: Financial spend multiplied by emissions factor per monetary unit.
•
Process-Based: Quantity-based calculations using material-specific emissions factors.
•
Hybrid: Combine spend and quantity-based data where applicable.
•
Automate the calculation process with formulas embedded in the Excel sheet.
5.
Data Quality Management:
•
Include a data quality scoring mechanism to assess the completeness and reliability of the input data.
•
Highlight areas where primary data or improved data collection is needed.
6.
Reporting and Documentation:
•
Automate summary outputs, including:
•
Total emissions by product type, category, or supplier.
•
Graphs or charts for visualization.
•
Include fields for documentation of assumptions, data sources, and calculation methods to ensure transparency.
7.
Tool Features:
•
User-friendly interface with clear instructions.
•
Drop-down menus or predefined options for ease of data entry.
•
Conditional formatting to flag missing or inconsistent data.
•
Macro-enabled calculations (if applicable) for large data sets.
8.
Alignment with GHG Protocol:
•
Ensure all calculations and methodologies are compliant with the GHG Protocol’s guidance for Scope 3, Category 1.
•
Include recommendations for data collection improvement over time.
Deliverables:
We expect the following deliverables from your engagement:
•
A fully functional Excel-based emissions calculator tailored to Category 1: Purchased Goods and Services.
•
A detailed user guide explaining how to use the tool, including input data requirements, calculation steps, and output interpretation.
•
Integration of a database of emissions factors and instructions for updating the database as needed.
•
Recommendations for improving data quality and supplier engagement.
Follow the instruction in the attachment. And the class slides is attached in or
Follow the instruction in the attachment. And the class slides is attached in order to clear the idea.
Instructions will be uploaded later. Important Info
Instructions will be uploaded later.
Important Info
The order was placed through a short procedure (customer skipped some order details).
Please clarify some paper details before starting to work on the order.
Type of paper and subject
Number of sources and formatting style
Type of service (writing, rewriting, etc)
Dear Writer, I want you please to rewrite the attcahed word file of the same to
Dear Writer,
I want you please to rewrite the attcahed word file of the same topic. I have submitted this work last year for the same course and I have gained 45/50 grade however i can not re submit the same work as this is considered self plagiarism. Please work it out to be similar work and enhance so that I aim to get full mark on this assignment please. Please see below more details on the assignment and attached PDF as well.
You work for a developer that is responsible for planning, designing and construction of sustainable buildings on a brownfield site near a town centre/city centre/built-up area of your choice.
The local authority has requested that your planning permission is subject to an agreement that every activity to be carried out must be justified from a sustainability perspective. As such, your development proposal must be socially, environmentally and economically sustainable.
Also make sure to cover all design specifications and go through the grading criteria. Please follow the same paper format
Find all answers for varient 8 Important Info
Find all answers for varient 8
Important Info
The order was placed through a short procedure (customer skipped some order details).
Please clarify some paper details before starting to work on the order.
Type of paper and subject
Number of sources and formatting style
Type of service (writing, rewriting, etc)
PLEASE REVIEW ALL ATTACHMENTS Short Answer Questions: Answer the following 5 qu
PLEASE REVIEW ALL ATTACHMENTS
Short Answer Questions:
Answer the following 5 questions as completely as possible.
1. Describe the relationship between a current waveform and the magnetic field it produces.
2. Describe self-inductance and its relationship to counter emf.
3. Explain the phase relationship between current and voltage in an inductor.
4. Describe mutual inductance.
5. Describe the differences between apparent power, true power, and reactive power.
PROBLEMS
″REVIEW ATTACHED png Assignment 2″
Complete the following problems. Show all work.
The circuit current shown in the following figure has a measured value of 100 mA.
Assuming that the circuit has a value of k = 0, determine the value of L2.
Image for problem one
Simulation Problems—Using your Student Suite edition of Multisim, open each of the following figures by first downloading Chapter 10 Multisim Figures and then opening the respective problem. For each figure, click Control-D to open the desсrіption box. Then follow the instructions for completing the simulation. Do all calculations asked for in the exercise, and save the simulation files you run showing final circuits, meter readings, values, etc. Submit your calculations and all the simulation files you saved as part of the exercise.
Fig. 10.10
Fig. 10.19