9. (Ch6) Determine the best altermative using the annual cash fNow analysis from the data given...
Which of the alternatives presented in the following table would you recommend ding the analysis based on annual worth? 2. Initial cost- I Annual benefit $800 $200 $180 Salvage valueL$500 | $900 | O Life in years 2 years 3 Years Infinity MARR $1500 $900 $1200 10%
Select two data values from your raw data – one that is inside of the confidence interval and one that is outside – one must be at the high end of the data and one at the low end – and construct two hypothesis tests, one for each value. One of the tests should be a “less than”, the other should be a “greater than”, depending on the value being tested. Use a 95% level of confidence, and showcase Ho...
1) Use the data given in Example 2.1 and assume that the feeder
has the peak loss of 72 kW at peak load and an annual loss factor
of 0.14. Determine the following:
a. The daily average load of the feeder:
b. The average power loss of the feeder
(Example 2.1
Assume that the loading data given in Table 2.1 belongs to one of
the primary feeders of the No
Light & No Power (NL&NP) Company and that they are...
Need cash flow diagram
04) Three mutually exclusive alternative are being considered Initial Cost Benefit at the end of the first Year Uniform Annual Benefits at end of subsequent years Useful Life in years $500 $200 $100 $400 $200 $125 $300 $200 $100 At the end of its useful life, an alternative is not replaced. If MARR is 10%, which alternatives should be selected? a) Based on the payback period? b) Based on benefit-cost ratio analysis c) Benefit/Costs Analysis using...
5-73 Given the following data, use present worth analysis to find the best alternative, A, B, or C $10,000 15,000 $12,000 Initial cost Annual benefit 6,000 10,000 5,000 Salvage value 1,0002,000 3,000 Useful life 4 years 3 years 2 years Use an analysis period of 12 years and 15% interest.
5-73 Given the following data, use present worth analysis to find the best alternative, A, B, or C $10,000 15,000 $12,000 Initial cost Annual benefit 6,000 10,000 5,000 Salvage value...
Lab 9 Emission Analysis of Aqueous Solutions of Group IA and lIA Metal Salts Emion Analysis of Aqus Seltions of Gros A and BA Metal Salts 3. Identify the metal ions present in each of the following water sample emission spectra. Use the data in the Table in Question 2 to assist you in identifying the metal ions present in each spectrum Water Sample 1 75 nm and 771 m 672 nm 3900 603 nm 2900 554 pm 1900 900...
MC 2. Using an annual cash flow analysis Your Test Equipment Y may be replaced with an identical tem over 20 years at the same costs and anal be an annual cash flow analysis with interest rate of 9%, which alternative should be selected? Equipment X Equipment Y Equipment Z Cost $100,000 $150,000 $175,000 Uniform annual benefit 30,000 45,000 55.000 Useful Life in years 20 years infinite oo 20 years
The cash flow for two alternatives is shown in the table below. a) Determine which alternative should be selected based on present worth comparison (use i=10%). b) If your analysis period (study period) is just 3 years, what should be the salvage value of alternative A2 at the end of year 3 to make the two alternatives economically indifferent? A1 Year 0 -900 -400 A2 -1800 -300 -300 1 2 -400 3 -400+200 -300 4 5 6 -300 -300 -300...
Calculating the current year's demand from three customers
based on previous data to maximize the company's profits
What is the marginal contribution per unit of each
product?
How much can the material supply increase for this value to
remain valid?
Kosanka is a manufacturing company, and its main three customers are Hooper, Minden and Neptune. The demands of the three companies have fluctuated in the following ranges in recent years: Hooper Minden Neptune Inventory Minimum Maximum Minimum Maximum Minimum Maximum...
From the data in the table below, estimate two regression models using a calculator or MS Excel (calculations only) to solve this. At a very minimum, please attempt one using a calculator. Show your work in a table Model 1: Weekly Disposable IncomeAge+ Model 2: Weekly Per Capita Consumption Age+ Age (years) Income (S Weekly Disposable Weekly Consumption per capita (S 30 35 40 45 50 500 550 600 500 900 1000 1000 1200 1500 50 60 60 50 70...