Upcoming SlideShare
×

# Net present value

2,724 views

Published on

Net Present Value, Money Management, Project/Idea/Firm, Choosing A Good Firm, Decisions Criteria, 1,2,3,

Published in: Education
1 Like
Statistics
Notes
• Full Name
Comment goes here.

Are you sure you want to Yes No
• Be the first to comment

Views
Total views
2,724
On SlideShare
0
From Embeds
0
Number of Embeds
6
Actions
Shares
0
181
0
Likes
1
Embeds 0
No embeds

No notes for slide
• NPV = vR1 + R2 + R3 + ... − InitialInvestment (1 + i) 1 (1 + i) 2 (1 + i)3
• ### Net present value

1. 1. Net Prese nt Value PAZ-Paddon Development Email: paz4Tunnel@hotmail.ca http://accountingexplained.com/managerial/capital-budgeting/npv
2. 2. Net Present Value To discount you go to the left from FV and calculate the PV, this is called discounting. • Net Present Value is the present value of net cash inflows generated by a project including salvage value, if any, less the initial investment on the project. It is one of the most reliable measures used in capital budgeting because it accounts for time value of money by using discounted cash inflows. • Before calculating NPV, a target rate of return is set which is used to discount the net cash inflows from a project. Net cash inflow equals total cash inflow during a period less the expenses directly incurred on generating the cash inflow.
3. 3. Net Present Value Calculation Methods and Formulas • Calculation Methods and Formulas • The first step involved in the calculation of NPV is the determination of the present value of net cash inflows from a project or asset. • The net cash flows may be even (i.e. equal cash inflows in different periods) or uneven (i.e. different cash flows in different periods). • When they are even, present value can be easily calculated by using the present value formula of annuity. • However, if they are uneven, we need to calculate the present value of each individual net cash inflow separately. • In the second step we subtract the initial investment on the project from the total present value of inflows to arrive at net present value.
4. 4. Net Present Value Thus we have the following two formulas for the calculation of NPV: • When cash inflows are even: • NPV = R × 1 − (1 + i) -n − Initial Investment i Investment • In the above formula, • R is the net cash inflow expected to be received each period; • i is the required rate of return per period; • n are the number of periods during which the project is expected to operate and generate cash inflows.
5. 5. Net Present Value NPV = R1 + R2 + R3 + (1 + i) 1 (1 + i) 2 (1 + i)3 • When cash inflows are uneven: R1 + R2 + R3 + ... −Initial Investment (1 + i) 1 (1 + i) 2 (1 + i)3 • Where, • i is the target rate of return per period; • R1 is the net cash inflow during the first period; • R2 is the net cash inflow during ... − Initial Investment the second period; • R3 is the net cash inflow during the third period, and so on ... NPV =
6. 6. Net Present Value NPV = R1 + R2 + R3 + ... − Initial Investment (1 + i) 1 (1 + i) 2 (1 + i)3 • Decision Rule • Accept the project only if its NPV is positive or zero. • Reject the project having negative NPV. • While comparing two or more exclusive projects having positive NPVs, accept the one with highest NPV.
7. 7. Value • Examples • Example 1: Even Cash Inflows: Calculate the net present value of a project which requires an initial investment of \$243,000 and it is expected to generate a cash inflow of \$50,000 each month for 12 months. Assume that the salvage value of the project is zero. The target rate of return is 12% per annum. • Solution • We have, Initial Investment = \$243,000 Net Cash Inflow per Period = \$50,000 Number of Periods = 12 Discount Rate per Period = 12% ÷ 12 = 1% • Net Present Value = \$50,000 × (1 − (1 + 1%)^-12) ÷ 1% − \$243,000 = \$50,000 × (1 − 1.01^-12) ÷ 0.01 − \$243,000 ≈ \$50,000 × (1 − 0.887449) ÷ 0.01 − \$243,000 ≈ \$50,000 × 0.112551 ÷ 0.01 − \$243,000 ≈ \$50,000 × 11.2551 − \$243,000 ≈ \$562,754 − \$243,000 ≈ \$319,754
8. 8. • Example 2: Uneven Cash Inflows: An initial investment on plant and machinery of \$8,320 thousand is expected to generate cash inflows of \$3,411 thousand, \$4,070 thousand, \$5,824 thousand and \$2,065 thousand at the end of first, second, third and fourth year respectively. At the end of the fourth year, the machinery will be sold for \$900 thousand. Calculate the present value of the investment if the discount rate is 18%. Round your answer to nearest thousand dollars. • Solution • PV Factors: • Year 1 = 1 ÷ (1 + 18%)^1 ≈ 0.8475 • Year 2 = 1 ÷ (1 + 18%)^2 ≈ 0.7182 • Year 3 = 1 ÷ (1 + 18%)^3 ≈ 0.6086 • Year 4 = 1 ÷ (1 + 18%)^4 ≈ 0.5158 • The rest of the problem can be solved more efficiently in table format as show below: • Year 1 2 3 4 • Net Cash Inflow \$3,411 \$4,070 \$5,824 \$2,065 • Salvage Value 900 • Total Cash Inflow \$3,411 \$4,070 \$5,824 \$2,965 • × Present Value Factor 0.8475 0.7182 0.6086 0.5158 • Present Value of Cash Flows \$2,890.68 \$2,923.01 \$3,544.67 \$1,529.31 • Total PV of Cash Inflows \$10,888 • − Initial Investment − 8,320 • Net Present Value \$2,568 thousand Net Present Value
9. 9. • Advantage and Disadvantage of NPV • Advantage: Net present value accounts for time value of money. Thus it is more reliable than other investment appraisal techniques which do not discount future cash flows such payback period and accounting rate of return. • Disadvantage: It is based on estimated future cash flows of the project and estimates may be far from actual results. • Written by Irfanullah Jan Present Value