Introduction:-
Capital Budgeting is used by organisations to evaluate a project in hand i.e. whether to proceed with it or leave it. There are various methods or techniques of capital budgeting. The most popular are
To determine:-
Here, in the given problem we are supposed to calculate NPV based on the inputs given like sales, cost of goods sold, equipment cost, investment in
Answer to Problem 1AE
Solution:-
Net Present Value is a Capital Budgeting technique which is used by management to decide as to whether proceed with a given project or not. It is calculated by discounting all the
When we solve the problem, the NPV of purchasing the equipment @14% is $31, 493 and NPV @10% is $56, 517 and as can be seen that NPV has increased when the discount rate is decreased.
Explanation of Solution
Explanation:-
Here, following key inputs given are as follows:-
| Purchase of Equipment | 60000 |
| Investment in working capital | 100000 |
| Sales | 200000 |
| Cost of goods sold | 125000 |
| Out of pocket operating costs | 35000 |
| Overhaul of equipment | 5000 |
| Salvage value of equipment | 10000 |
Now, calculating NPV at 14% and 10% discount rate At 14 % discount rate
| Years | ||||||
| Now | 1 | 2 | 3 | 4 | 5 | |
| Purchase of Equipment | -60000 | |||||
| Investment in working capital | -100000 | |||||
| Sales | 200000 | 200000 | 200000 | 200000 | 200000 | |
| Cost of goods sold | 125000 | 125000 | 125000 | 125000 | 125000 | |
| Out of pocket operating costs | 35000 | 35000 | 35000 | 35000 | 35000 | |
| Overhaul of equipment | 5000 | |||||
| Salvage value of equipment | 10000 | |||||
| Working Capital Released | 100000 | |||||
| Total | -160000 | 40000 | 40000 | 40000 | 35000 | 150000 |
| Discount factor @14% (b) | 1 | 0.87719 | 0.76947 | 0.67497 | 0.59208 | 0.51937 |
| Present value of cash flows (a x b) | -160000 | 35087.7 | 30778.7 | 26998.9 | 20722.8 | 77905.3 |
| Net Present Value | 31493.4 | |||||
At 10% discount rate
| Years | ||||||
| Now | 1 | 2 | 3 | 4 | 5 | |
| Purchase of Equipment | 60000 | |||||
| Investment in working capital | 100000 | |||||
| Sales | 200000 | 200000 | 200000 | 200000 | 200000 | |
| Cost of goods sold | 125000 | 125000 | 125000 | 125000 | 125000 | |
| Out of pocket operating costs | 35000 | 35000 | 35000 | 35000 | 35000 | |
| Overhaul of equipment | 5000 | |||||
| Salvage value of equipment | 10000 | |||||
| Working Capital Released | 100000 | |||||
| Total Cash flows (a) | -160000 | 40000 | 40000 | 40000 | 35000 | 150000 |
| Discount factor @10% (b) | 1 | 0.90909 | 0.82645 | 0.75131 | 0.68301 | 0.62092 |
| Present value of cash flows (a x b) | -160000 | 36363.6 | 33057.9 | 30052.6 | 23905.5 | 93138.2 |
| Net Present Value | 56517.7 | |||||
Now, we are asked to explain as to why the NPV has increased from $31493 to $56517 when the discount rate is reduced from 14% to 10%. Actually, with the decrease in the discount rate the Present Value factor increases and when we multiply that increased factor with the net cash flows, the resultant present value of the cash flows increases and ultimately the NPV figure.
Now, in the second query, the company is considering to purchase new equipment
| Years | ||||||
| Now | 1 | 2 | 3 | 4 | 5 | |
| Purchase of Equipment | 120000 | |||||
| Investment in working capital | 80000 | |||||
| Sales | 255000 | 255000 | 255000 | 255000 | 255000 | |
| Cost of goods sold | 160000 | 160000 | 160000 | 160000 | 160000 | |
| Out of pocket operating costs | 50000 | 50000 | 50000 | 50000 | 50000 | |
| Overhaul of equipment | 40000 | |||||
| Salvage value of equipment | 20000 | |||||
| Working Capital Released | 80000 | |||||
| Total Cash flows (a) | -200000 | 45000 | 45000 | 45000 | 5000 | 145000 |
| Discount factor @14% (b) | 1 | 0.87719 | 0.76947 | 0.67497 | 0.59208 | 0.51937 |
| Present value of cash flows (a x b) | -200000 | 39473.7 | 34626 | 30373.7 | 2960.4 | 75308.5 |
| Net Present Value @ 14% | -17258 | |||||
Therefore, NPV of the project is - $17, 258 Now, we will calculate the NPV at various discount rates i.e.13%, 12%, 11% and 10% and determine on which discount rate NPV turns profitable from the negative figure.
| Total Cash flows (a) | -200000 | 45000 | 45000 | 45000 | 5000 | 145000 |
| Discount factor @13% (b) | 1 | 0.88496 | 0.78315 | 0.69305 | 0.61332 | 0.54276 |
| Present value of cash flows (a x b) | -200000 | 39823 | 35241.6 | 31187.3 | 3066.59 | 78700.2 |
| Net Present Value @ 13% | -11981 | |||||
| Total Cash flows (a) | -200000 | 45000 | 45000 | 45000 | 5000 | 145000 |
| Discount factor @12% (b) | 1 | 0.89286 | 0.79719 | 0.71178 | 0.63552 | 0.56743 |
| Present value of cash flows (a x b) | -200000 | 40178.6 | 35873.7 | 32030.1 | 3177.59 | 82276.9 |
| Net Present Value @ 12% | -6463.1 | |||||
| Total Cash flows (a) | -200000 | 45000 | 45000 | 45000 | 5000 | 145000 |
| Discount factor @11% (b) | 1 | 0.9009 | 0.81162 | 0.73119 | 0.65873 | 0.59345 |
| Present value of cash flows (a x b) | -200000 | 40540.5 | 36523 | 32903.6 | 3293.65 | 86050.4 |
| Net Present Value @ 11% | -688.74 | |||||
| Total Cash flows (a) | -200000 | 45000 | 45000 | 45000 | 5000 | 145000 |
| Discount factor @10% (b) | 1 | 0.90909 | 0.82645 | 0.75131 | 0.68301 | 0.62092 |
| Present value of cash flows (a x b) | -200000 | 40909.1 | 37190.1 | 33809.2 | 3415.07 | 90033.6 |
| Net Present Value @ 10% | 5357 |
As we can see that the NPV has turned positive from 14% discount rate to 10% discount rate.
Now, we are asked to determine the IRR of the project. As we can see above that NPV has turned positive at 10% discount rate, therefore the IRR of the project should lie between 10% and 11% discount rates i.e. at a place where NPV is zero. Actually, if calculated IRR is 10.88%. Now, we are asked to determine the salvage value of the equipment so that the NPV becomes positive, assuming that the amount given in the question is not given If we see in the initial table of discount rate of 14%, the NPV is -$17258 taking into account the salvage value of $20000 in the fifth year. Now, if we increase the salvage value, then only we will get the positive NPV.
Without taking into account the salvage value, then NPV is -$27645. Now dividing it by the PVIF @ 14% which is .51937, we will get the minimum salvage value of the equipment to turn NPV into positive figure.
=27645÷.51937
=$53,229
Therefore, the minimum salvage value should be $53229 to turn NPV into positive figure.
Conclusion:-
Since, the resultant net present value is positive in problem 1, therefore it is viable to proceed with the given project.
However, NPV is negative in project 2, therefore it is not viable to purchase the equipment.
Want to see more full solutions like this?
Chapter 12 Solutions
Introduction To Managerial Accounting
- Below you will see three sets of inputs. After inputting all of your formulas, you should be able to use any of these sets of data and have the answers automatically update within excel. Please choose one of the data sets below and input all of the necessary formulas to find the answers. Once you are done, choose a different data set, enter it into your spreadsheet, and check the updated answers to ensure that everything is flowing through the formulas appropriately. A check answer for each one has been provided. Data set #1 Data Section: Actual and Budgeted Unit Sales: April 1,500 May 1,000 June 1,600 July 1,400 August 1,500 September 1,200 Balance Sheet, May 31, 19X5 Cash $8,000 Accounts Receivable 107,800 Merchandise Inventory 52,800 Fixed Assets (net) 130,000 Total assets $298,600 Accounts Payable (merchandise) $74,800 Owner's equity 223,800 Total liabilities & equity $298,600 Average selling price $98 Average purchase cost per unit $55 Desired ending inventory (% of next…arrow_forwardOpen the datafile named StartSalary (attached). Follow the instructions under “using Excel’s Descriptive Statistics Tool in Chapter 3 of textbook. Develop Figure 3.8. Make sure to use Microsoft Excel functions to generate the descriptive statistics. Upload the final figure showing descriptive statistics.arrow_forwardRequired information (The Excel worksheet form that appears below is to be used to recreate part of the example relating to Turbo Crafters that appears earlier in the chapter.) Download the Applying Excel form and enter formulas in all cells that contain question marks. For example, in cell B13 enter the formula "= B5". After entering formulas in all of the cells that contained question marks, verify that the dollar amounts match the example in the text. Check your worksheet by changing the estimated total amount of the allocation base in the Data area to 50,000 machine-hours, keeping all of the other data the same as in the original example. If your worksheet is operating properly, the predetermined overhead rate should now be $6.00 per machine-hour. If you do not get this answer, find the errors in your worksheet and correct them. Save your completed Applying Excel form to your computer and then upload it here by clicking "Browse." Next, click "Save." You will use this…arrow_forward
- Please show a step-by-step solution. Please explain your steps on excel and code you inputarrow_forwardPlease show all equations and work as needed. Make the correct answer clear. If possible, please type work so it can be copied. Thank you.arrow_forwardcan you please show me how to calculate this without using excel? Thanksarrow_forward
- CAN YOU SHOW THE STEPS ON A BA CALCULATOR USING THE PMT + I/Y + FV BUTTONS.....I CAN GET THE LONG FORM MATH TO WORK BUT I CAN'T GET THE ANSWER ON THE CALCULATORarrow_forwardWhat are the Microsoft Excel formulaues used to input these? Is there a way to show each formula for how you came up with these. Not just the ratios but what you would input into excel that would automatically calculate the correct answers?arrow_forwardCreate a SQL table using your name with the following features: the columns of your table must include, at least the data types (in this order) and one more of your choice NOTE: You need to specify a 2 column (i.e 2 attribute 1. varchar (n), // where n covers the string length you want to enter 2. Int, 3. decimal, (precision = 8, scale = 3 4. date. 5. ??? your choice here ??? Table constraints: 1. It has a two column primary key 2. a check constraint on 2 columns, on the decimal and the date field 3. Use '2024-02-18' date as the default on the date field 5. write down your relational schema 5. Create the table, insert at least 4 rows, and do a Select * to show them example don't just copy these, change the constraint namesarrow_forward
- When should you use Power Pivot?arrow_forwardPlease model the following decision in a spreadsheet, optimize it using MS-Excel Solver, and then upload that spreadsheet by attaching it to this question. I will grade this question on the accuracy of your () spreadsheet model (decision variables, objective, and constraints), (i) Solver parameters, (i optimal solution. Partial credit is available. The personnel-planning problem of Lexington Bank. The main branch of Lexington Bank is open for retail business from 8:00 AM to 4:00 PM on weekdays. The staffing requires from 8 to 15 tellers on duty depending on the time of day, as indicated in the following table. Time Period Minimum No. of Tellers 8:00 AM - 10:00 AM 10:00 AM - 12:00 PM 12:00 PM - 2:00 PM 10 15 2:00 PM - 4:00 PM 12 Full-time tellers work 8 consecutive hours (from 8:00 AM to 4:00 PM) at $15 per hour. Part-time workers work 4 consecutive hours at $8 per hour starting at 8:00 AM, 10:00 AM, or 12:00 noon. Assume workers never take breaks. Union regulations require that all…arrow_forwardWhen should you use Power BI Services?arrow_forward
Excel Applications for Accounting PrinciplesAccountingISBN:9781111581565Author:Gaylord N. SmithPublisher:Cengage Learning