Compare and contrast the fundamental differences between process improvement framework and problem solving framework.

Statistical Engineering Frameworks”

Please respond to the following:
Note: Online students, please select one of the two subjects to discuss.
• Compare and contrast the fundamental differences between process improvement framework and problem solving framework. Provide one (1) example of business management applying each framework to support your response.
• Select one (1) project from your working or educational environment in which you can apply problem solving framework. Next, suggest at least three (3) questions that you would ask yourself in order to identify the root-cause of the problem during the project that you have selected. Justify your response.

Describe how you could bring a broad perspective to the engineering classroom

Describe how you could bring a broad perspective to the engineering classroom

Factors to discuss include, but are not limited to: multi-cultural awareness, activities, or accomplishments; educational background and goals; living experiences, such as growing up in a disadvantaged or unusual environment; and special interests or talents

Software Engineering Discussion

Software Engineering Discussion

Question 1
Recursion is a double edged sword. It can be quite helpful and it can dramatically impact performance in a negative way and even cause runtime errors.
• Discuss when you think recursion should be used and when it shouldn’t.
• Include an example (do not cut-and-paste).
Question 2
What is software engineering? Why is it needed?

Engineering economics case study

Engineering economics case study

Case Description
Paul and Leslie Smithson are buying a new house. They have saved for several years to
accumulate a down payment and have now found a house that is just perfect for their
needs. It is a beautiful three bedroom Tudor house in a quiet neighborhood in the
suburbs. With the help of their real estate agent and after several rounds of offering and
counter-offering, they have agreed on a price of $103,000 with the sellers. The only thing
that remains to make their new home a reality is to select a mortgage. Paul and Leslie are
unsure about the details of making this type of decision and have come to you for
guidance because of your expertise in this area.

Paul and Leslie are both 30 years old and professionally employed. They earn generous
salaries and fall into the 28% effective tax bracket on their personal income taxes. They
dream long term of retiring at the age of 65 so they can travel the country to take in all its
scenic beauty. It is this dream that drives them to determine a mortgage arrangement that
allows them to generate the maximum retirement account balance that they can create to
supplement their company sponsored retirement plans. They currently have
accumulated $10,000 to use for the down payment and closing costs on their house. Any
excess amount not used in this way could be used as an initial deposit in their retirement
savings account. Alternatively, any excess could be used to make a down payment in
excess of the minimum requirement. After studying their budget and spending patterns
they have determined that they can afford $1,000/month to cover both mortgage
payments and personal retirement savings. They are strongly committed to their
retirement travel plans, so any of the $1,000 not spent on the mortgage will be invested in
the retirement savings account. In addition, any tax savings generated through the
mortgage will be deposited in the retirement account. Although they anticipate salary
increases over the years until they retire, the impact of inflation and changes in lifestyle
will offset these to the extent that the $1,000 per month can be considered constant over
the next 35 years.

They have selected a retirement savings vehicle which involves investment in a tax
sheltered mutual fund which pays an average of 9% per year compounded monthly. Paul
and Leslie, with the help of an investment banker, have studied the history of this fund
and are comfortable that the 9%/yr/mo average return over their 35 year retirement
savings horizon is reasonable. Undoubtedly their will be ups and downs but the long
term average of 9% appears to be reasonable and stable for planning purposes. Since this
is a tax sheltered account, all investments will grow tax free until their retirement.
Paul and Leslie have identified four potential mortgage options. They will make their
selection from among these four based on your recommendation.
Available Mortgage
15 year fixed rate @ 6.63%/year/2-weeks, bi-weekly payments, minimum 5% down
payment, 1 point closing costs
The mortgage has two options (must solve for both options):
1. Going with minimum down payment and getting more loan, but depositing the remaining of the $10,000 the Smithson’s accumulated in the beginning to the retirement account in time zero.
2. Using the whole $10,000 towards down payment and 1% closing cost and get lower amount of loan, but not having anything to deposit in the beginning (time zero) in the retirement account.

identifying stakeholders and proposing DETAILED methods of stakeholder engagement

Engineering design and innovation

1) identifying stakeholders and proposing DETAILED methods of stakeholder engagement;
2) providing a DETAILED communication plan and capacity building plan.
these 2 parts are in the guide line in page(39).

Which factors associated with the contaminant(s) produced by the welding operation would you consider in choosing the ventilation system?

SAFETY ENGINEERING

Discuss the factors that might contribute to a person tripping on a walking surface. Which of these factors do you believe can best be controlled using engineering controls? Which of the factors is the most difficult to control?

Your essay should be at least 100 words in length.

Question 2

1.

What dimensions would you use for a booth-type hood if you wanted an exhaust rate of 1,000 cubic feet per minute and a capture rate of 100 feet per minute to capture organic vapors from a paint spray operation? Be sure to show your work. If you wanted to clean the air that you are capturing before exhausting it outside, what type of air cleaning device would you recommend and why?

Your essay should be at least 100 words in length.

Question 3

1.

Compare and contrast the different types of tribometers. In your opinion which of the tribometers best represents the slip resistance of a surface?

Your essay should be at least 100 words in length.
4
You have a production area where ten welders are producing small parts using MIG welding on mild steel for eight hours each day. There is a general “haze” visibly present, which increases throughout the work day. What type ventilation system would you recommend for the operation? Which factors associated with the contaminant(s) produced by the welding operation would you consider in choosing the ventilation system? How would you evaluate the effectiveness of any ventilation system you installed?

Your essay should be at least 100 words in length

5 The Heat Stress Index (HSI) uses the terms O (Oxygen required), M (Metabolism), R (Radiation) C (Convection), and E (Evaporation). Compare and contrast the terms. Provide an example of a control method that you believe would be effective in controlling heat stress related to each of the terms M, R, C, and E.

Your essay should be at least 100 words in length.

Engineering Project Management

Engineering Project Management

The scope statement is to be a brief two to three sentence statement as to what a project of your

The scope statement is to be a brief two to three sentence statement as to what a project of you
choice is going to be about. The sentences should include the overall description, some
measurements as to what the expected output will be and some reference to cost and time.

A new product is being designed by an engineering team at Golem Security.

A new product is being designed by an engineering

A new product is being designed by an engineering team at Golem Security. Several managers and employees from the cost accounting department and the marketing department are also on the team to evaluate the product and determine the cost using a target costing methodology. An analysis of similar products on the market suggests a price of $120.00 per unit. The company requires a profit of .16 of selling price. How much is the target cost per unit?

Water-Related Diseases and Vector-Borne Diseases

Environmental engineering

Essay Question:
Discuss reasonable and cost-effective strategies for dealing with the growing volume of global, solid waste generated annually •
Assignment 1

No less than 400 words, you must support your assertions within your thread with at least 1 peer-reviewed article in current AMA format.

1) https://www.researchgate.net/publication/49826700_Evaluation_of_the_effectiveness_of_deworming_and_participatory_hygiene_education_strategy_in_controlling_anemia_among_children_aged_6-15_years_in_Gadagau_community_Giwa_LGA_Kaduna_Nigeria.

2) http://journals.plos.org/plosntds/article?id=10.1371/journal.pntd.0000143.

Topic: Water-Related Diseases and Vector-Borne Diseases

• Describe the major hygiene or sanitation issues related to the health problem in your assigned websites.
• How could lessons learned from this health problem be used to address this same health issue or similar issue in another location?
• Indicate the challenges to conduct further interventions related to the health problems in the websites.

andupper flammability limit (UFL) are important for fire prevention and suppression

SAFETY ENGINEERING

Summarize the components in a building that can be used to reduce the risk of fire during the design phase. Which building component do you believe is the most important to address to reduce the risk of fire in a building?

Your essay should be at least 200 words in length. Need references

Question 2

1.

Explain why an understanding of the terms lower flammability limit (LFL) andupper flammability limit (UFL) are important for fire prevention and suppression. How are the LFL and UFL different from the lower explosive limit (LEL) andupper explosive limit (UEL)?