Capital Budgeting Decision Rules

1. Capital Budgeting Decision Rules What real investments should firms make?

2. Alternative Rules in Use Today • NPV • IRR • Profitability Index • Payback Period • Discounted Payback Period • Accounting Rate of Return

3. What Provides Good Decision-Making? • Our work has shown that several criteria must be satisfied by any good decision rule: • Decision rule should be based upon cash flow. • The rule should incorporate all the incremental cash flows attributable to the project. • The rule should discount cash flows appropriately taking into account the time value of money and properly adjusting for the risk inherent in the project. - Opportunity cost of capital. • When forced to choose between projects, the choice should be governed by maximizing shareholder wealth given any relevant constraints.

4. NPV Analysis • The recommended approach to any significant capital budgeting decision is NPV analysis. • NPV = PV of the incremental benefits – PV of the incremental costs. • NPV based decision rule: • When evaluating independent projects, take those with positive NPVs, reject those with negative NPVs. • When evaluating interdependent projects, take the feasible combination with the highest combined NPV.

5. Lockheed Tri-Star • As an example of the use of NPV analysis we will use the Lockheed Tri-Star case. • To examine the decision to invest in the Tri-Star project, we first need to forecast the cash flows associated with the Tri-Star project for a volume of 210 planes. • Then we can ask: What is a valid estimate of the NPV of the Tri-Star project at a volume of 210 planes as of 1967.

6. Lockheed Tri-Star – Key Points • Pre-production costs estimated at $900 million incurred between 1967 and 1971. • Total of 210 planes delivered from 1972-1977 • Revenues of $16 million per unit, 25% of revenue received 2 years in advance of delivery. • Production costs of $14 million (at 210 units could decline to $12.5 million at 300) from 1971-1976. • Discount rate of 10% per year.

7. Tri-Star Cash Flows • 210 planes (1972-1977) • Planes per year = 210/6=35 • Production Costs (1971-1976) • 35($14M)=$490M per year • Don’t forget the preproduction costs of $900M • Revenues (1970-1977) • Total Revenues 35($16M)=$560M per year • Deposits=0.25($560M)=$140M (2 yrs in advance) • Net Revenues=$560-$140=$420M on delivery

8. Tri-Star Cash Flows(210 Planes)

9. Tri-Star NPV @10% in 1967

10. Accounting Profits at 210 • Production revenues are $16M per plane and production costs are $14M per plane. Profit is $2M per plane. • 210×$2M = $420M production profits. $420M vs. $900M preproduction costs is breakeven? • Suppose production cost is $12.5M per plane (learning curve hits early). Profit per plane is $3.5M. At 210 planes this is $735M production profit. • Now take the extreme low-end of the $800M - $1B preproduction cost range. • Suddenly you have “breakeven.” Smart huh?

11. Tri-Star NPV 1967 ($Millions)

12. Tri-Star Cash Flows 1970(210 Planes)

13. 1970 Tri-Star NPV @10%

14. Tri Star Post Mortem • Accounting breakeven approximately 275 planes • $16M - $12.5M = $3.5M per plane • $3.5M275 = $962M profit versus $960M in actual development costs known in 1970 • This more realistic breakeven level announced subsequent to the guarantees being granted. • NPV breakeven approximately 400 planes • Total free world market demand for wide-body aircraft approximately 325 planes • Optimistic estimate: total demand 775 and 40% of that is 310 • Lockheed share price • $64 Jan 1967 drops to $11 Jan 1971 • ($64-$11)(11.3 Million shares)=-$599 Million • Compare to -$584 Million NPV