Category: Essay

MODULE 2: MCI Assignment
Build your own MCI
The purpose of this exercise is to ensure that you may demonstrate the key responsibilities you would need to undertake if faced by a mass casualty incident.

These include:
communication (the SITREP)
managing the scene (a map of the incident an resource placement)
The triage sieve and sort
Design it yourself to allow you think more broadly about what would constitute a mass casualty incident and well as how to manage the incident. The client is not looking for excellence in graphic art of cartography; rather they want you to make sure you have covered all the major learning points of the module. You will be marked by the clarity, accuracy and comprehensiveness the information.

Submit a MCI of your own design. You should have 20 patients with no more that 2 of those patients being dead. You will need to provide a description of the incident using the SITREP format. This should be followed by an incident map which shows all the relevant components of the incident and the management structure. Finally you will need to describe all your patients and allocate triage scores.

The format of your work should be:
1. Your SITREP
2. Map:

This should be an A3 sized map of a fictitious or real location which details the incident, major structures/vehicles involved, locations of hospitals (and distances) locations of emergency services (and distances) and any local resources relevant to the incident, (e.g. nearby fuel depot, transport facilities, open spaces, refuge areas). You may hand draw the map or use a downloaded map (such as google maps).

On the map you should mark and label the following:

Patients (or groups of patients if all in one place) with an identifier for each
e.g. patient 6 or patients 6 – 10
no more than 2 dead patients
The layout of the incident according to the Mass Casualty Incident Management Guide
Location of all the named roles according to the Mass Casualty Incident Management Guide
3. A list of all your casualties (1-20) detailed as follows:

Patient

Injuries/condition

Status & vitals

Triage Sieve score

Triage Sort Score / priority

Example:

patient 1

Head injury & facial lacerations

Walking: No

Breathing: Yes

Resp rate: 8

Pulse: 50

GCS: 5

Systolic BP: 130

Priority 1

7 / Priority 1

The client has sent an example of the map and what needs to be inside it.
For the 20 Patients that you choose with vital signs, reference all of the vitals from whichever book or journal you have chosen.
For the SITREP you can use ETHANE in place of that.

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

New and retrofitted residential buildings working towards zero-carbon housing standards have air tight interiors with mechanical ventilation and heating systems fitted. Based on the location of vents, it may be possible to observe pockets of air that are not refreshed sufficiently to maintain a good level of air quality within these buildings. This CFD study is aimed at identifying such poorly circulated areas and to identify ways to eliminate or minimise such pockets of ‘used’ or polluted air by repositioning the inlet and exhaust vents. Also, the effect of the heaters and their locations on circulation within the house will be studied. If the vents and heaters are positioned properly to complement each other, it may be possible to obtain better air changing to maintain a healthy living space.

—
Please use software:

ANSYS software
Auto CAD software.

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

2. Boehm Incorporated is expected to pay a $1.50 per share dividend at the end of this year (i.e., D1 = $1.50). The dividend is expected to grow at a constant rate of 6% a year. The required rate of return on the stock, rȿ is 13%. What is the estimated value per share of Boehm’s stock?
4. Nick’s Enchiladas Incorporated has preferred stock outstanding that pays a dividend of $5 at the end of each year. The preferred sells for $50 a share. What is the stock’s required rate of return (assume the market is in equilibrium with the required return equal to the expected return)?
5. A company currently pays a dividend of $2 per share (Dₒ = $2). It is estimated that the company’s dividend will grow at a rate of 20% per year for the next 2 years, and then at a constant rate of 7% thereafter. The company’s stock has a beta of 1.2, the risk-free rate is 7.5%, and the market risk premium is 4%. What is your estimate of the stock’s current price?
15. You buy a share of The Ludwig Corporation stock for $21.40. You expect it to pay dividends of $1.07, $1.1449, and $1.2250 in Years 1, 2, and 3, respectively, and you expect to sell it at a price of $26.22 at the end of 3 years.
a. Calculate the growth rate in dividends.
b. Calculate the expected dividend yield.
c. Assuming that the calculated growth rate is expected to continue, you can add the dividend
yield to the expected growth rate to obtain the expected total rate of return.
What is the stock’s expected total rate of return (assume the market is in equilibrium with the
required return equal to the expected return)?
16. Investors require a 13% rate of return on Brooks Sister’s stock. (rs = 13%)
a. What would the estimated value of Brook’s stock be if the previous dividend were Dₒ = $3.00
and if investors expect dividends to grow at a constant annual rate of (1) – 5%, (2) 0%, (3) 5%,
(4) 10%?
b. Using data from part a, what is the constant growth model’s estimated value for Brooks Sister’s stock if the required rate of return is 13% and the expect growth rate is (1) 13% or (2) 15%? Are these reasonable results? Explain.
c. Is it reasonable to expect that a constant growth stock would have g > rs?

1. Suppose a U.S. treasury bond will pay $2,500 five years from now. If the going interest rate on 5-year treasury bonds is 4.25%, how much is the bond worth today?
2. Five years ago, Greenery Inc. earned $1.50 per share. Its earnings this year were $3.20. What was the growth rate in earnings per share (EPS) over the 5-year period?
3. You plan to invest in securities that pay 8.0%, compounded annually. If you invest $5,000 today, how many years will it take your investment to grow to $9,140.20?
4. You want to go to Europe 5 years from now, and you can save $3,100 per year, beginning one year from today. You plan to deposit the funds in a mutual fund that you think will return 8.5% per year. Under these conditions, how much would you have just after you make the 5th deposit, 5 years from now?
5. You inherited an oil well that will pay you $25,000 per year for 25 years, with the first payment being made today. If you think a fair return on the well is 7.5%, how much should you ask for it if you decide to sell it?
6. Suppose you just won the state lottery, and you have a choice between receiving $2,550,000 today or a 20-year annuity of $250,000, with the first payment coming one year from today. What rate of return is built into the annuity? Disregard taxes.
7. You sold a car and accepted a note with the following cash flow stream as your payment. What was the effective price you received for the car assuming an interest rate of 6.0%?
Years: 0 1 2 3 4
| | | | |
CFs: $0 $1,000 $2,000 $2,000 $2,000
8. You are offered a chance to buy an asset for $7,250 that is expected to produce cash flows of $750 at the end of Year 1, $1,000 at the end of Year 2, $850 at the end of Year 3, and $6,250 at the end of Year 4. What rate of return would you earn if you bought this asset?
9. Master Card and other credit card issuers must by law print the Annual Percentage Rate (APR) on their monthly statements. If the APR is stated to be 18.00%, with interest paid monthly, what is the card’s EFF%?
10. Suppose you deposited $5,000 in a bank account that pays 5.25% with daily compounding based on a 360-day year. How much would be in the account after 8 months, assuming each month has 30 days?
11. Suppose you are buying your first condo for $145,000, and you will make a $15,000 down payment. You have arranged to finance the remainder with a 30-year, monthly payment, amortized mortgage at a 6.5% nominal interest rate, with the first payment due in one month. What will your monthly payments be?
12. You are considering investing in a bank account that pays a nominal annual rate of 7%, compounded monthly. If you invest $3,000 at the end of each month, how many months will it take for your account to grow to $150,000?
13. Your child’s orthodontist offers you two alternative payment plans. The first plan requires a $4,000 immediate up-front payment. The second plan requires you to make monthly payments of $137.41, payable at the end of each month for 3 years. What nominal annual interest rate is built into the monthly payment plan?
14. Your sister turned 35 today, and she is planning to save $7,000 per year for retirement, with the first deposit to be made one year from today. She will invest in a mutual fund that’s expected to provide a return of 7.5% per year. She plans to retire 30 years from today, when she turns 65, and she expects to live for 25 years after retirement, to age 90. Under these assumptions, how much can she spend each year after she retires? Her first withdrawal will be made at the end of her first retirement year.
15. After graduation, you plan to work for Dynamo Corporation for 12 years and then start your own business. You expect to save and deposit $7,500 a year for the first 6 years (t = 1 through t = 6) and $15,000 annually for the following 6 years (t = 7 through t = 12). The first deposit will be made a year from today. In addition, your grandfather just gave you a $25,000 graduation gift which you will deposit immediately (t = 0). If the account earns 9% compounded annually, how much will you have when you start your business 12 years from now?

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

History of diatoms
Role of diatom in nature
Gross, M. (2012). The mysteries of the diatoms. Current Biology, 22(15), R581–R585. http://doi.org/10.1016/j.cub.2012.07.041
Barron, J. a. (2003). Planktonic Marine Diatom Record of the Past 18 M.Y.: Appearances and Extinctions in the Pacific and Southern Oceans. Diatom Research, 18, 203–224. http://doi.org/10.1080/0269249X.2003.9705588
Carbon Fixation
Roberts, K., Granum, E., Leegood, R. C., & Raven, J. a. (2007). Carbon acquisition by diatoms. Photosynthesis Research, 93(1-3), 79–88. http://doi.org/10.1007/s11120-007-9172-2

(Engineering) Growth rate studies
Gilstad, M., & Sakshaug, E. (1990). Growth rates of ten diatom species from the Barents Sea at different irradiances and day lengths . Marine Ecology Progress Series, 64, 169–173. http://doi.org/10.3354/meps064169
D’Elia, C. F., Guillard, R. R. L., & Nelson, D. M. (1979). Growth and competition of the marine diatoms <i>Phaeodactylum tricornutum</i> and <i>Thalassiosira pseudonana</i>. I. Nutrient effects. Marine Biology, 50, 305–312. http://doi.org/10.1007/bf00387007
Andrianasolo, E. H. (2008). Effect of aeration rates on growth rates and natural abundans of Phaeodactylum tricornutum. Journal of Natural Products, 71, 1197–1201. http://doi.org/10.1021/np800124k
Morais, K. C. C., Ribeiro, R. L. L., Santos, K. R., Taher, D. M., Mariano, a B., & Vargas, J. V. C. (2009). Phaeodactylum tricornum microalgae growth rate in heterotrophic and mixotrophic conditions. Engenharia Térmica (Thermal Engineering), 8(June), 84–89.

Biochemistry physiology cell wall
Hecky, R. E., Mopper, K., Kilham, P., & Degens, E. T. (1973). The amino acid and sugar composition of diatom cell-walls. Marine Biology, 19, 323–331. http://doi.org/10.1007/BF00348902
De La Rocha, C. L. (2000). Effects of iron and zinc deficiency on elemental composition and silica production by diatoms. Retrieved March 13, 2015, from http://www.int-res.com/articles/meps/195/m195p071.pdf
Tesson, B., Gaillard, C., & Martin-Jézéquel, V. (2009). Insights into the polymorphism of the diatom Phaeodactylum tricornutum Bohlin. Botanica Marina, 52(2), 104–116. http://doi.org/10.1515/BOT.2009.012

Silica Content
Conley, D. J., Kilham, S. S., & Theriot, E. (1989). Differences in silica content between marine and freshwater diatoms. Limnology and Oceanography, 34, 205–212. http://doi.org/10.4319/lo.1989.34.1.0205
Medlin, L. K. (2002). Why Silica or Better Yet Why Not Silica? Speculations As To Why the Diatoms Utilise Silica As Their Cell Wall Material. Diatom Research, 17, 453–459. http://doi.org/10.1080/0269249X.2002.9705562

Applications
Jamali, A. A., Akbari, F., Ghorakhlu, M. M., de la Guardia, M., & Khosroushahi, A. Y. (2012). Applications of diatoms as potential microalgae in nanobiotechnology. BioImpacts, 2(2), 83–89. http://doi.org/10.5681/bi.2012.012
Lebeau, T., & Robert, J.-M. (2003). Diatom cultivation and biotechnologically relevant products. Part II: current and putative products. Applied Microbiology and Biotechnology, 60, 624–632. http://doi.org/10.1007/s00253-002-1176-4
Ramachandra, T. V, Mahapatra, D. M., Karthick, B., & Gordon, R. (2009). Milking Diatoms for Sustainable Gasoline: Biochemical Engineering vs Diatom Solar Panels. Wetlands, 8769–8788.

Specific Applications
Wastewater
Kelly, M. G. (2002). Role of benthic diatoms in the implementation of the Urban Wastewater Treatment Directive in the River Wear, North-East England. Journal of Applied Phycology, 14, 9–18. http://doi.org/10.1023/A:1015236404305

Silica in the environment
Ragueneau, O., Tréguer, P., Leynaert, A., Anderson, R. ., Brzezinski, M. ., DeMaster, D. ., … Quéguiner, B. (2000). A review of the Si cycle in the modern ocean: recent progress and missing gaps in the application of biogenic opal as a paleoproductivity proxy. Global and Planetary Change, 26(4), 317–365. http://doi.org/10.1016/S0921-8181(00)00052-7

Silica wastes
Rice Husk
Vaibhav, V., Vijayalakshmi, U., & Roopan, S. M. (2015). Agricultural waste as a source for the production of silica nanoparticles. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 139, 515–520. http://doi.org/10.1016/j.saa.2014.12.083
Liu, N., Huo, K., McDowell, M. T., Zhao, J., & Cui, Y. (2013). Rice husks as a sustainable source of nanostructured silicon for high performance Li-ion battery anodes. Scientific Reports, 3, 1919. http://doi.org/10.1038/srep01919

Electronic Wastes
Bazargan, A., Bwegendaho, D., Barford, J., & McKay, G. (2014). Printed circuit board waste as a source for high purity porous silica. Separation and Purification Technology, 136, 88–93. http://doi.org/10.1016/j.seppur.2014.08.026

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]

the assignment is about answering 5 questions regarding the case study. the case study needs to be analysed using MS Project 2010 using the data provided in the case study and an excel sheet provided by the professor with actual data to answer question 5. i have created an initial baseline using MS Project 2010, but i could not get the correct duration.. the project should take 6 months but my baseline plan is saying the project will take around 2 years.

i need also, all the MS project 2010 files used to answer the questions, it is part of the assignment.

_______

i have attached the case study in the document named “A&D case study scanned”. it has the precedence. also, baseline.mmp have it, which is attached. also, the excel sheet attached has it “A&D High Tech Case Actuals as of Aug 26 2003″. the 5 questions that needs to be answered are in the document called” Some+Directional+Questions+for+Assignment+1+-+AD+High+Tech+HBS+Case+v1″

Use the order calculator below and get started! Contact our live support team for any assistance or inquiry.

[order_calculator]