Capital Structure & Cost of Capital

1. Capital Structure & Cost of Capital

2. Introduction • Capital budgeting affects the firm’s well-being • Discount rate is based on the risk of the cash flows • Errors in capital budgeting can be serious • Need to compensate investors for financing • Project Expect Return • Project Cash Flows

3. WACC • Weighted Average Cost of Capital • Also called the hurdle rate • D = Market Value of Debt • E = Market Value of Equity • P = Market Value of Preferred Stock • V = D + E + P

4. Costs of Financing • Cost of Preferred Stock • Based on preset dividend rate (r = D/P) • Cost of Debt • YTM is good estimate • Cost of Common Stock • Derived from current market data – Beta • Cost has 2 factors • Business or Asset Risk • Financing or Leverage Risk (Leverage increases common stock risk)

5. Cost of Equity Example • Market risk premium = 9% • Current risk-free rate = 6% • Company beta = 1.5 • Last dividend = $2, dividend growth = 6%/year • Stock price = $15.65 • What is our cost of equity?

6. Equity Information 50 million shares $80 per share Beta = 1.15 Market risk prem. = 9% Risk-free rate = 5% Debt Information $1 billion Coupon rate = 10% YTM = 8% 20 years to maturity Tax rate = 40% Example – WACC • Cost of equity? • RE = • Cost of debt? • RD=

7. Example – WACC • Capital structure weights? • E = 50 million shares ($80/share) = $4 billion • D = $1 billion face • V = 4 + 1 = $5 billion • wE = E/V = • wD = D/V = • What is the WACC? • WACC =

8. Capital Restructuring • Capital restructuring • Adjusting leverage without changing the firm’s assets • Increase leverage • Issue debt and repurchase outstanding shares • Decrease leverage • Issue new shares and retire outstanding debt • Choose capital structure to max stockholder wealth • Maximizing firm value • Minimizing the WACC

9. Ex: Effect of Leverage

10. EBIT $650,000 • D = $0 • Interest = 0, Net Income = $650,000 • EPS = $650,000/500,000 = $1.30 • D = $2.5 mil (D/E = 1) • Interest = • Net Income = • EPS = /250,000 =

11. EBIT $300,000 • D = $0 • Interest = 0, Net Income = $300,000 • EPS = $300,000/500,000 = $0.60 • D = $2.5 mil (D/E = 1) • Interest = $2,500,000 * 10% = $250,000 • Net Income = • EPS = /250,000 =

12. Break-Even EBIT • EBIT where EPS is the same under both the current and proposed capital structures • If EBIT > break-even point then leverage is beneficial to our stockholders • If EBIT < break-even point then leverage is detrimental to our stockholders

13. Ex: Break-Even EBIT

14. Cost of Equity Varies • If the level of debt increases, the riskiness of the firm increases. • Increases the cost of debt. • However, the riskiness of the firm’s equity also increases, resulting in a higher re.

15. Impact of Leverage • $200,000 in assets, all equity, 10,000 shares

16. Impact of Leverage • $200,000 in assets, half equity, 5,000 shares

17. M&M – Perfect Market • Miller and Modigliani (1958) • Fathers of capital structure theory • Proposition I • Firm value is NOT affected by the capital structure • Since cash flows don’t change, value doesn’t change • Proposition II • Firm WACC is NOT affected by capital structure

18. M&M – Perfect Market • Assumes no taxes or bankruptcy costs • WACC = (E/V)RE + (D/V)RD • No taxes • RE = RA + (RA – RD)(D/E) • RA: “cost” of the firm’s business risk • (RA – RD)(D/E): “cost” of the firm’s financial risk

19. Risks • Business risk: • Uncertainty in future EBIT • Depends on business factors such as competition, industry trends, etc. • Level of systematic risk in cash flows • Financial risk: • Extra risk to stockholders resulting from leverage • Depends on the amount of leverage • NOT the same as default risk

20. M&M – Perfect Market

21. Ex: Perfect Market • RA = 16%, RD = 10%; % debt = 45% • Cost of equity? • RE = 16 + (16 - 10)(.45/.55) = 20.91% • If the cost of equity is 25%, what is D/E? • 25 = 16 + (16 - 10)(D/E) • D/E = • Then, what is the % equity in the firm? • E/V =

22. Capital Structure Example • Balance Sheet Assets (A) 100 Debt Value (D) 40 Equity Value (E) 60 Assets 100 Firm Value (V) 100 • rdebt=8% & requity=15% WACC = rassets =(D/V)* rdebt + (E/V)* requity WACC =

23. Capital Structure Example • New capital structure Assets (A) 100 Debt Value (D) 30 Equity Value (E) 70 Assets 100 Firm Value (V) 100 • Has the risk of the project changed? • Is the go-ahead decision different?

24. After Refinancing • Before • WACC = .4 (8%) + .6 (15%) = 12.2% • After • Imagine cost of debt dropped to 7.3% • WACC = .3 (7.3%) + .7 (requity) = 12.2% • requity =

25. Example • Debt/equity mix doesn’t affect the project’s inherent risk • Required return on the package of debt and equity is unaffected • However reducing debt level changes the required returns • Reduced debtholder risk (rdebt fell) • Reduced equityholder risk (requity fell) • How is it, then, that reducing firm risk did not reduce the required rate of return? • Project risk is the same. • Weights changed.

26. Corporate Taxes • Interest is tax deductible • Effectively, govt subsidizes part of interest payment • Adding debt can reduce firm taxes • Reduced taxes increases the firm cash flows

27. Ex: Taxes Bondholders 0 500 Equityholders 3300 2970 Total Cash Flows 3300 3470

28. Interest Tax Shield • Annual interest tax shield • Tax rate times interest payment • $6250 * .08 = $500 in interest expense • Annual tax shield = .34(500) = 170 • PV of annual interest tax shield • Assume perpetual debt • PV = • PV = D(RD)(TC) / RD = DTC =

29. Taxes – Firm Value • Firm value increases by value of tax shield • VL = VU + PV (interest tax shield) • If perpetuity, VU = EBIT(1-.t) / rA • Value of equity = Value of the firm – Value of debt • Ex: Unlevered cost of capital (rA)= 12%; t = 35%; EBIT = 25 mil; D = $75 mil; rD = 9%; • VU = • VL = • E =

30. Taxes - WACC • WACC decreases as D/E increases • WACC = (E/V)RE + (D/V)(RD)(1-TC) • RE = RA + (RA – RD)(D/E)(1-TC) • rA= 12%; t = 35%; D = $75 mil; rD = 9%; VU = $135.42 mil; VL = $161.67 mil; E = $86.67 mil • RE = • WACC=

31. Example: Proposition II - Taxes • Firm restructures its capital so D/E = 1 • rA= 12%; t = 35%; rD = 9% • New cost of equity? • RE = • New WACC? • WACC =

34. Taxes + Bankruptcy • Probability of bankruptcy increases with debt • Increases the expected bankruptcy costs • Eventually, the additional value of the interest tax shield will be offset by the increase in expected bankruptcy cost • At this point, the value of the firm will start to decrease and the WACC will start to increase

37. Cost of Debt Varies Amount D/V D/E Bond borrowed ratio ratio rating rd $ 0 0 0 -- -- 250 0.125 0.1429 AA 8.0% 500 0.250 0.3333 A 9.0% 750 0.375 0.6000 BBB 11.5% 1,000 0.500 1.0000 BB 14.0%

38. Times Interest Earned TIE = EBIT / Interest EBIT = $400,000 t=40% 80,000 shares outstanding, with price of $25

39. EPS & TIE: D = $250,000, rd = 8%

40. EPS & TIED = $500,000, rd = 9%

41. Bankruptcy Costs • Direct costs • Legal and administrative costs • Additional losses for bondholder • Indirect bankruptcy or financial distress costs • Preoccupies management • Reduces sales • Lose valuable employees

42. Options of Distress • The right to go bankrupt • Valuable • Protects creditors from further loss of assets • Creditors will renegotiate – why? • Avoid bankruptcy costs • Voluntary debt restructuring

43. Tradeoff Theory • Tradeoff between the tax benefits and the costs of distress. • Tradeoff determines optimal capital structure • VL = VU + tC*D - PV (cost of distress) • With higher profits, what should happen to debt?

44. In Practice • Tax benefit matters only if there’s a large tax liability • Risk and costs of financial distress vary • Capital structure does differ by industries • Increased risk of financial distress • Increased cost of financial distress • Lowest levels of debt • Pharma, Computers • Highest levels of debt • Steel, Department stores, Utilities

45. WACC Review • Capital budgeting affects the firm’s well-being • Discount rate is based on the risk of the cash flows • Errors in capital budgeting can be serious • Need to compensate investors for financing • Project Expect Return > Cost of Capital • Project Cash Flows > Return to Investors

46. General Electric • 6 Divisions • Commercial Finance – loans, leases, insurance • Healthcare – medical technology, drug discovery • Industrial – appliances, lighting, equipment services • Infrastructure – aviation, water, oil & gas technology • Money – consumer finance (credit cards, auto loans) • NBC Universal – entertainment and news

47. Project WACC • Using a general industry or company cost of capital will lead to bad decisions.

48. Using Firm WACC • Only for projects that mirror the overall firm risk • Only be used if the new financing has the same proportion of debt, preferred, and equity • Otherwise, use the project cost of capital

49. Pure Play • Find several publicly traded companies exclusively in project’s business • Use pure play betas to proxy for project’s beta • May be difficult to find such companies • Note if the pure play is levered • Betas are non-stationary over time • Cross-sectional variation of betas, even within the same industry

50. Leverage & Beta • Equity risk = business risk (operating leverage) + financial risk (financial leverage) • L = U(1+(1-t)D/E) • L = E= Equity beta = Levered beta • U = A = Asset beta = Unlevered beta • t = Company’s marginal tax rate