Capital Budgeting Template
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![Page 1: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/1.jpg)
Example Cash Flows for Projects Y and Z: NPV, PI, IRR, and MIRR
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
k 12.60%
Net Present Value (NPV)
NPV Solution Detail
Time Cash Flows PV Cash Flows Cash Flows PV Cash Flows
1 420,000 373,001.78 450,000 399,644.76 2 480,000 378,585.92 540,000 425,909.16 3 320,000 224,147.97 400,000 280,184.96 4 280,000 174,182.48 710,000 441,677.00 5 380,000 209,938.28 900,000 497,222.25
PV Inflows 1,359,856.43 2,044,638.13 PV Outflows (1,200,000.00) (1,800,000.00)
NPV 159,856.43 244,638.13
Profitablity Index (PI)
Project Y Project Z
1
/ 1 t N
t
tt
NPV CF k Initial Investment
1
/ 1 / t N
t
tt
PI CF k Initial Investment
Capital Budgeting Methods/Functions: Excel has three traditional capital budgeting functions available as well as two of these functions that are date specific. This worksheet illustrates the use of the NPV, the IRR, and MIRR functions. In addition, using the NPV function to determine a PI (Profitability Index) is all illustrated. Some solution detail is provided below in addition to the Excel function solutions.
The date specific functions are presented in the XNPV and XIRR Example worksheet.
Caution: When using the NPV function, Excel treats the first cash flow as occurring at time period t = 1, not t = 0. In contrast, with all of the other capital budgeting functions; the first cash flow is assumed to occur in period t = 0.
![Page 2: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/2.jpg)
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
PI Solution Detail
Profitability
Index (PI)
PV Inflows 1,359,856.43 2,044,638.13 PV Outflows 1,200,000.00 1,800,000.00
PI 1.133 1.136
Internal Rate of Return (IRR)
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
IRR Solution Detail
Project Y Project Z
Time Cash Flows PV Cash Flows Cash Flows PV Cash Flows
1 420,000 355,234.10 450,000 383,332.42 2 480,000 343,377.60 540,000 391,849.98 3 320,000 193,618.15 400,000 247,257.29 4 280,000 143,291.18 710,000 373,861.29 5 380,000 164,478.98 900,000 403,699.02
PV Inflows 1,200,000.00 1,800,000.00 PV Outflows (1,200,000.00) (1,800,000.00)
NPV 0.00 (0.00)
Project Y Project Z
IRR : 18.23% IRR: 17.39%
1
/ 1 0t N
t
tt
IRR CF IRR Initial Investment
1
/ 1 / t N
t
tt
PI CF k Initial Investment
![Page 3: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/3.jpg)
Modified Internal Rate of Return (MIRR)
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
Terminal Value and MIRR Solution Detail
Project Y CF # Years FVt = 1 420,000 4 675,154.01t = 2 480,000 3 685,261.62t = 3 320,000 2 405,720.32t = 4 280,000 1 315,280.00t = 5 380,000 0 380,000.00
t = 0 (1,200,000) Sum 2,461,415.95 (t = 5)MIRR 15.45%
Project Z CF # Years FVt = 1 450,000 4 723,379.30t = 2 540,000 3 770,919.32t = 3 400,000 2 507,150.40t = 4 710,000 1 799,460.00t = 5 900,000 0 900,000.00
t = 0 (1,800,000) Sum 3,700,909.02 (t = 5)MIRR 15.51%
1
1 / 1 0t N
t N
tt
MIRR CF k MIRR Initial Investment
Bob Johnston:Terminal Value.
Bob Johnston:This is the interest rate that will make the PV of terminal value equal to the PV of the outflow. The "Rate" function in Excel has been used to determine this interest rate.
Bob Johnston:Terminal Value.
Bob Johnston:This is the interest rate that will make the PV of the terminal value equal to the PV of the outflow.
![Page 4: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/4.jpg)
Additional Example Applications for NPV, PI, IRR and MIRR
t=5 CF/Time t=0
380,000 Project M (2,600,000)
900,000 Project N (3,400,000)
k 14.80%
Excel NPV Function Solutions Excel NPV Function Solutions
k 12.60% k Project Y Project Z
NPV NPV
Capital Budgeting Methods/Functions: Excel has three traditional capital budgeting functions available as well as two of these functions that are date specific. This worksheet illustrates the use of the NPV, the IRR, and MIRR functions. In addition, using the NPV function to determine a PI (Profitability Index) is all illustrated. Some solution detail is provided below in addition to the Excel function solutions.
The date specific functions are presented in the XNPV and XIRR Example worksheet.
Caution: When using the NPV function, Excel treats the first cash flow as occurring at time period t = 1, not t = 0. In contrast, with all of the other capital budgeting functions; the first cash flow is assumed to occur in period t = 0.
Recommendations:
Accept both Project Y and Project Z as their NPV's are positive.
![Page 5: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/5.jpg)
CF/Time t=0
Project M (2,600,000)
t=5
Project N (3,400,000) 380,000
k 14.80% 900,000
Excel PI Function Solutions Excel PI Function Solutions
k 12.60% k Project Y Project Z
PI PI
CF/Time t=0
t=5 Project M (2,600,000)
380,000 Project N (3,400,000)
900,000 k 14.80%
Excel IRR Function Solutions Excel IRR Function Solutions
k 12.60% k Project Y Project Z
IRR IRR
Recommendations:
Accept both Project Y and Project Z as their PI's are greater than one.
Recommendations:
Accept both Project Y and Project Z as their IRR's the exceed cost of capital for the projects.
![Page 6: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/6.jpg)
CF/Time t=0
Project M (2,600,000)
t=5 Project N (3,400,000)
380,000 k 14.80%
900,000
Excel MIRR Function Solution Excel MIRR Function Solution
Project Y k k 12.60%MIRR MIRR
Excel MIRR Function Solution
Project Z k 12.60%MIRR
1
1 / 1 0t N
t N
tt
MIRR CF k MIRR Initial Investment
Recommendations:
Accept both Project Y and Project Z as their MIRR's exceed the cost of capital for the projects.
Bob Johnston:Terminal Value.
Bob Johnston:Terminal Value.
![Page 7: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/7.jpg)
Additional Example Applications for NPV, PI, IRR and MIRR
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel NPV Function Solutions
14.80%Project M Project N
![Page 8: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/8.jpg)
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel PI Function Solutions
14.80%Project M Project N
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel IRR Function Solutions
14.80%Project M Project N
![Page 9: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/9.jpg)
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel MIRR Function Solution
14.80%Project M Project N
![Page 10: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/10.jpg)
Example Cash Flows for Projects Y and Z: NPV, PI, IRR, and MIRR
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
k 12.60%
Net Present Value (NPV)
NPV Solution Detail
Time Cash Flows PV Cash Flows Cash Flows PV Cash Flows
1 420,000 373,001.78 450,000 399,644.76 2 480,000 378,585.92 540,000 425,909.16 3 320,000 224,147.97 400,000 280,184.96 4 280,000 174,182.48 710,000 441,677.00 5 380,000 209,938.28 900,000 497,222.25
PV Inflows 1,359,856.43 2,044,638.13 PV Outflows (1,200,000.00) (1,800,000.00)
NPV 159,856.43 244,638.13
Project Y Project Z
1
/ 1 t N
t
tt
NPV CF k Initial Investment
Capital Budgeting Methods/Functions: Excel has three traditional capital budgeting functions available as well as two of these functions that are date specific. This worksheet illustrates the use of the NPV, the IRR, and MIRR functions. In addition, using the NPV function to determine a PI (Profitability Index) is all illustrated. Some solution detail is provided below in addition to the Excel function solutions.
The date specific functions are presented in the XNPV and XIRR Example worksheet.
Caution: When using the NPV function, Excel treats the first cash flow as occurring at time period t = 1, not t = 0. In contrast, with all of the other capital budgeting functions; the first cash flow is assumed to occur in period t = 0.
![Page 11: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/11.jpg)
Profitablity Index (PI)
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
PI Solution Detail
Profitability
Index (PI)
PV Inflows 1,359,856.43 2,044,638.13 PV Outflows 1,200,000.00 1,800,000.00
PI 1.133 1.136
Internal Rate of Return (IRR)
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
IRR Solution Detail
Project Y Project Z
Time Cash Flows PV Cash Flows Cash Flows PV Cash Flows
1 420,000 355,234.10 450,000 383,332.42
Project Y Project Z
IRR : 18.23% IRR: 17.39%
1
/ 1 0t N
t
tt
IRR CF IRR Initial Investment
1
/ 1 / t N
t
tt
PI CF k Initial Investment
![Page 12: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/12.jpg)
2 480,000 343,377.60 540,000 391,849.98 3 320,000 193,618.15 400,000 247,257.29 4 280,000 143,291.18 710,000 373,861.29 5 380,000 164,478.98 900,000 403,699.02
PV Inflows 1,200,000.00 1,800,000.00 PV Outflows (1,200,000.00) (1,800,000.00)
NPV 0.00 (0.00)
Modified Internal Rate of Return (MIRR)
CF/Time t=0 t=1 t=2 t=3 t=4
Project Y (1,200,000) 420,000 480,000 320,000 280,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000
Terminal Value and MIRR Solution Detail
Project Y CF # Years FVt = 1 420,000 4 675,154.01t = 2 480,000 3 685,261.62t = 3 320,000 2 405,720.32t = 4 280,000 1 315,280.00t = 5 380,000 0 380,000.00
t = 0 (1,200,000) Sum 2,461,415.95 (t = 5)MIRR 15.45%
Project Z CF # Years FVt = 1 450,000 4 723,379.30t = 2 540,000 3 770,919.32t = 3 400,000 2 507,150.40t = 4 710,000 1 799,460.00
1
1 / 1 0t N
t N
tt
MIRR CF k MIRR Initial Investment
Bob Johnston:Terminal Value.
Bob Johnston:This is the interest rate that will make the PV of terminal value equal to the PV of the outflow. The "Rate" function in Excel has been used to determine this interest rate.
Bob Johnston:Terminal Value.
Bob Johnston:This is the interest rate that will make the PV of the terminal value equal to the PV of the outflow.
![Page 13: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/13.jpg)
t = 5 900,000 0 900,000.00t = 0 (1,800,000) Sum 3,700,909.02 (t = 5)
MIRR 15.51%
Bob Johnston:Terminal Value.
Bob Johnston:This is the interest rate that will make the PV of the terminal value equal to the PV of the outflow.
![Page 14: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/14.jpg)
Additional Example Applications for NPV, PI, IRR and MIRR
t=5 CF/Time t=0
380,000 Project M (2,600,000)
900,000 Project N (3,400,000)
k 14.80%
Excel NPV Function Solutions Excel NPV Function Solutions
k 12.60% k Project Y Project Z
NPV 159,856.43 244,638.13 NPV
Capital Budgeting Methods/Functions: Excel has three traditional capital budgeting functions available as well as two of these functions that are date specific. This worksheet illustrates the use of the NPV, the IRR, and MIRR functions. In addition, using the NPV function to determine a PI (Profitability Index) is all illustrated. Some solution detail is provided below in addition to the Excel function solutions.
The date specific functions are presented in the XNPV and XIRR Example worksheet.
Caution: When using the NPV function, Excel treats the first cash flow as occurring at time period t = 1, not t = 0. In contrast, with all of the other capital budgeting functions; the first cash flow is assumed to occur in period t = 0.
Recommendations:
Accept both Project Y and Project Z as their NPV's are positive.
![Page 15: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/15.jpg)
CF/Time t=0
Project M (2,600,000)
t=5
Project N (3,400,000) 380,000
k 14.80% 900,000
Excel PI Function Solutions Excel PI Function Solutions
k 12.60% k Project Y Project Z
PI 1.133 1.136 PI
CF/Time t=0
t=5 Project M (2,600,000)
380,000 Project N (3,400,000)
900,000 k 14.80%
Excel IRR Function Solutions Excel IRR Function Solutions
k 12.60% k Project Y Project Z
IRR 18.23% 17.39% IRR
Recommendations:
Accept both Project Y and Project Z as their PI's are greater than one.
![Page 16: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/16.jpg)
CF/Time t=0
Project M (2,600,000)
t=5 Project N (3,400,000)
380,000 k 14.80%
900,000
Excel MIRR Function Solution Excel MIRR Function Solution
Project Y k k 12.60%MIRR 15.45% MIRR
Excel MIRR Function Solution
Project Z k 12.60%MIRR 15.51%
Recommendations:
Accept both Project Y and Project Z as their IRR's the exceed cost of capital for the projects.
1
1 / 1 0t N
t N
tt
MIRR CF k MIRR Initial Investment
Bob Johnston:Terminal Value.
Bob Johnston:Terminal Value.
![Page 17: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/17.jpg)
Recommendations:
Accept both Project Y and Project Z as their MIRR's exceed the cost of capital for the projects.
Bob Johnston:Terminal Value.
![Page 18: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/18.jpg)
Additional Example Applications for NPV, PI, IRR and MIRR
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel NPV Function Solutions
14.80%Project M Project N
251,003.63 (107,995.21)
![Page 19: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/19.jpg)
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel PI Function Solutions
14.80%Project M Project N
1.097 0.97
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel IRR Function Solutions
14.80%Project M Project N
18.01% 13.40%
![Page 20: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/20.jpg)
t=1 t=2 t=3 t=4 t=5 t = 6
585,000 744,000 645,000 880,000 755,000 1,065,000
995,000 745,000 1,220,000 1,830,000
Excel MIRR Function Solution
14.80%Project M Project N
16.58% 13.88%
![Page 21: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/21.jpg)
EXCEL Spreadsheet Illustration of Capital Investment Examples
General NPV and IRR Functions in Excel CF/Time t=0 t=1 t=2 t=3 t=4 t=5
Project Y (1,200,000) 420,000 480,000 320,000 280,000 380,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000 900,000
k 12.60%
NPV IRR
Project Y 159,856 18.23%
Project Z 244,638 17.39%
Date Specific NPV and IRR Functions in Excel CF Dates 1-Jan-02 1-Jan-03 1-Jan-04 1-Jan-05 1-Jan-06 1-Jan-07
Project Y (1,200,000) 420,000 480,000 320,000 280,000 380,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000 900,000
k 12.60%
Capital Budgeting Methods/Functions: XNPV and XIRR The basic NPV and IRR functions in Excel treat the cash flows as if they all occur in one period (one year) intervals. In fact, with most projects cash flows occur at intervals different from once a year.
The XNPV and XIRR functions determine NPV and IRR respectively by the exact dates when cash flows are expected to occur. When using this functions it is necessary to specific for each cash flow a date when the cash flow occurred.
Bob Johnston:The NPV function in Excel treats the first cash flow in a row or column as occurring in time period t =1, not t = 0.
Bob Johnston:The IRR function in Excel treats the first cash flow in a column or row as occurring in time period t = 0.
Bob Johnston:The XNPV function in Excel treats the first cash flow in a row or column as occurring on the date defined for the specific cash flow cell.
![Page 22: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/22.jpg)
EXCEL Spreadsheet Illustration of Capital Investment Examples
XNPV XIRR Project Y
Project Z
Bob Johnston:The XNPV function in Excel treats the first cash flow in a row or column as occurring on the date defined for the specific cash flow cell.
![Page 23: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/23.jpg)
EXCEL Spreadsheet Illustration of Capital Investment Examples
CF/Time t=0 t=1 t=2
Project M (2,600,000) 585,000 744,000
Project N (3,400,000) 995,000 745,000
k 14.80%
NPV IRR
Project Y 251,004 18.01%
Project Z (107,995) 13.40% Additional Example Applications for XNPV and XIRR
CF/Time 15-Feb-2003 15-Feb-2004 15-Feb-2005
Project M (2,600,000) 585,000 744,000
Project N (3,400,000) 995,000 745,000
k 14.80%
Capital Budgeting Methods/Functions: XNPV and XIRR The basic NPV and IRR functions in Excel treat the cash flows as if they all occur in one period (one year) intervals. In fact, with most projects cash flows occur at intervals different from once a year.
The XNPV and XIRR functions determine NPV and IRR respectively by the exact dates when cash flows are expected to occur. When using this functions it is necessary to specific for each cash flow a date when the cash flow occurred.
Bob Johnston:The NPV function in Excel treats the first cash flow in a row or column as occurring in time period t =1, not t = 0.
Bob Johnston:The IRR function in Excel treats the first cash flow in a column or row as occurring in time period t = 0.
![Page 24: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/24.jpg)
EXCEL Spreadsheet Illustration of Capital Investment Examples
XNPV XIRR Project M
Project N
![Page 25: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/25.jpg)
EXCEL Spreadsheet Illustration of Capital Investment Examples
t=3 t=4 t=5 t=6
645,000 880,000 755,000 1,065,000
1,220,000 1,830,000
15-Feb-2006 15-Feb-2007 15-Feb-2008 15-Feb-2009
645,000 880,000 755,000 1,065,000
1,220,000 1,830,000
Bob Johnston:The IRR function in Excel treats the first cash flow in a column or row as occurring in time period t = 0.
![Page 26: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/26.jpg)
General NPV and IRR Functions in Excel CF/Time t=0 t=1 t=2 t=3 t=4 t=5
Project Y (1,200,000) 420,000 480,000 320,000 280,000 380,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000 900,000
k 12.60%
NPV IRR
Project Y 159,856 18.23%
Project Z 244,638 17.39%
Date Specific NPV and IRR Functions in Excel CF Dates 1-Jan-02 1-Jan-03 1-Jan-04 1-Jan-05 1-Jan-06 1-Jan-07
Project Y (1,200,000) 420,000 480,000 320,000 280,000 380,000
Project Z (1,800,000) 450,000 540,000 400,000 710,000 900,000
Capital Budgeting Methods/Functions: XNPV and XIRR The basic NPV and IRR functions in Excel treat the cash flows as if they all occur in one period (one year) intervals. In fact, with most projects cash flows occur at intervals different from once a year.
The XNPV and XIRR functions determine NPV and IRR respectively by the exact dates when cash flows are expected to occur. When using this functions it is necessary to specific for each cash flow a date when the cash flow occurred.
Bob Johnston:The NPV function in Excel treats the first cash flow in a row or column as occurring in time period t =1, not t = 0.
Bob Johnston:The IRR function in Excel treats the first cash flow in a column or row as occurring in time period t = 0.
Bob Johnston:The XNPV function in Excel treats the first cash flow in a row or column as occurring on the date defined for the specific cash flow cell.
![Page 27: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/27.jpg)
XNPV XIRR Project Y 159,659 18.22%
Project Z 244,242 17.38%
Bob Johnston:The XNPV function in Excel treats the first cash flow in a row or column as occurring on the date defined for the specific cash flow cell.
![Page 28: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/28.jpg)
CF/Time t=0 t=1 t=2
Project M (2,600,000) 585,000 744,000
Project N (3,400,000) 995,000 745,000
k 14.80%
NPV IRR
Project Y 251,004 18.01%
Project Z (107,995) 13.40% Additional Example Applications for XNPV and XIRR
CF/Time 15-Feb-2003 15-Feb-2004 15-Feb-2005
Project M (2,600,000) 585,000 744,000
Project N (3,400,000) 995,000 745,000
k 14.80%
Capital Budgeting Methods/Functions: XNPV and XIRR The basic NPV and IRR functions in Excel treat the cash flows as if they all occur in one period (one year) intervals. In fact, with most projects cash flows occur at intervals different from once a year.
The XNPV and XIRR functions determine NPV and IRR respectively by the exact dates when cash flows are expected to occur. When using this functions it is necessary to specific for each cash flow a date when the cash flow occurred.
Bob Johnston:The NPV function in Excel treats the first cash flow in a row or column as occurring in time period t =1, not t = 0.
Bob Johnston:The IRR function in Excel treats the first cash flow in a column or row as occurring in time period t = 0.
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XNPV XIRR Project M 249,943 18.00%
Project N (108,912) 13.39%
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t=3 t=4 t=5 t=6
645,000 880,000 755,000 1,065,000
1,220,000 1,830,000
15-Feb-2006 15-Feb-2007 15-Feb-2008 15-Feb-2009
645,000 880,000 755,000 1,065,000
1,220,000 1,830,000
Bob Johnston:The NPV function in Excel treats the first cash flow in a row or column as occurring in time period t =1, not t = 0.
Bob Johnston:The IRR function in Excel treats the first cash flow in a column or row as occurring in time period t = 0.
![Page 31: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/31.jpg)
Cost ofYear Cash Flow Capital NPV
0 (145.00) 0% ($10.00)1 100.00 3% ($1.88)2 100.00 3.91% $0.00 3 100.00 6% $3.49 4 100.00 9% $6.74 5 (265.00) 12% $8.37
15% $8.75 18% $8.17
IRR # 1 3.91% 21% $6.88 IRR # 2 30.28% 24% $5.03
27% $2.79 30% $0.25
30.28% $0.00 33% ($2.49)36% ($5.38)39% ($8.35)
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4
-15
-10
-5
0
5
10
Two IRRs
Cost of Capital
Net
Pre
sent
Val
ue
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0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4
-15
-10
-5
0
5
10
Two IRRs
Cost of Capital
Net
Pre
sent
Val
ue
![Page 33: Capital Budgeting Template](https://reader033.fdocuments.in/reader033/viewer/2022051513/54612448b1af9fc3518b4623/html5/thumbnails/33.jpg)
CF/Time t=0 t=1 t=2 t=3 t=4 t=5
Project M (2,600,000) 585,000 744,000 645,000 880,000 755,000
Project N (3,400,000) 995,000 745,000 1,220,000 1,830,000
k 14.80%
NPV PI IRR MIRR
Project Y 251,004 1.097 18.01% 16.58%
Project Z (107,995) 0.968 13.40% 13.88%
CF Dates 15-Jul-01 15-Jul-02 15-Jul-03 15-Jul-04 15-Jul-05 15-Jul-06
Project Y (2,600,000) 585,000 744,000 645,000 880,000 755,000
Project Z (3,400,000) 995,000 745,000 1,220,000 1,830,000
XNPV XIRR Project Y 250,332 18.01%
Project Z (108,698) 13.39%
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t = 6
1,065,000
15-Jul-07
1,065,000