Download presentation

1
**Capital Structure: Basic Concepts**

Chapter 15

2
**The Capital Structure Question and The Pie Theory**

Definition: Capital Structure is the mix of financial securities used to finance the firm. The value of a firm is defined to be the sum of the value of the firm’s debt and the firm’s equity. V = B + S If the goal of the management of the firm is to make the firm as valuable as possible, then the firm should pick the debt-equity ratio that makes the pie as big as possible. Previous chapters discuss the capital budgeting decisions. Chapter 15&16 focus on the right hand side of the balance sheet model – capital structure. S B Value of the Firm

3
**The Capital-Structure Question**

There are really two important questions: Why should the stockholders care about maximizing firm value? Perhaps they should be interested in strategies that maximize shareholder value. 2. What is the ratio of debt-to-equity that maximizes the shareholder’s value? As it turns out, changes in capital structure benefit the stockholders if and only if the value of the firm increases. Note: When we talk about a change in capital structure, we usually hold other things constant. Thus, an increase in debt financing implies that equity will be repurchased (and vice versa) so that overall assets remain unchanged.

4
**Financial Leverage and Return to Shareholders (EPS)**

Example (No Tax): There are two identical firms (A and B) on the market. V=$100,000 for both firms. Firm A is an all equity firm, and it has 10,000 shares outstanding with $10/share. Firm B has a capital structure of 50% of debt and 50% of equity. Firm B has 5,000 shares outstanding with $10/share. The interest rate for the debt is 10% / year. Assuming the next year’s EBIT could be $8,000 if the economy is in recession or $12,000 if the economy is in boom. Calculate the EPS for both firms under two states of economy. Calculate the breakeven point of the EPS and EBIT. Assuming the principal will not be due the next year.

5
**Is There An Optimal Capital Structure?**

Modigliani and Miller – No Tax Case M&M began looking at capital structure in a very simplified world so that we would know what does or does not matter. Assume no taxes No transaction costs Including no bankruptcy costs Investors can borrow/lend at the same rate (the same as the firm). No information asymmetries A fixed investment policy by the firm

6
M&M No Tax: Result A change in capital structure does not matter to the overall value of the firm. Debt $300, 30%, Equity, $400, 40%, Debt $600, 60%, Equity, $1000, 100% Equity, $1000, 100% Equity, $700, 70%, Total Firm Value = S+B Does not change (the pie is the same size in each case, just the slices are different).

7
**The M&M Propositions I & II (No Taxes)**

Proposition I Firm value is not affected by leverage VL = VU Proposition II Leverage increases the risk and return to stockholders rs = r0 + (B / S) (r0 - rB) rB is the interest rate (cost of debt) rs is the cost of equity for the levered firm r0 is the cost of capital for the all-equity firm B is the value of debt S is the value of levered equity Proof for proposition I (see BOB notes) and 2 (See stangeland notes) Cost of equity has two parts: 1. rU and “business” risk the risk inherent in the firm’s operations (beta of assets) 2. B/S and “financial” risk extra risk from using debt financing Note: Proof of Propositions is required

8
**The Value of a Levered Firm Under MM Proposition I with No Corporate Taxes**

Value of the firm (VL ) VU VL = VU Debt-equity ratio (B/S)

9
The Cost of Equity, the Cost of Debt, and the Weighted Average Cost of Capital: MM Proposition II with No Corporate Taxes Cost of capital rS = r0 + (r0 – rB) x (B/S) I will provide a proof on why a horizontal line add a increasing line will end up with a horizontal line Do an example in BOB, he use a previous example to show the Rwacc is the same WACC = r0 rB Debt-equity ratio (B/S)

10
**M&M with Corporate Taxes**

When corporate taxes are introduced, then debt financing causes a positive benefit to the value of the firm. The reason for this is that debt interest payments reduce taxable income and thus reduce taxes. Thus with debt, there is more after-tax cash flow available to security holders (equity and debt) than there is without debt. Thus the value of the equity and debt securities combined is greater. Use BOB notes (after take into account of EPS)

11
**In general, a company’s tax shields = Debt Interest TC**

= B rB TC If the savings are in perpetuity This represents the increase in the value in the levered firm over the unlevered firm.

12
**M&M Proposition I (with Corporate Taxes)**

Firm value increases with leverage VL = VU + TC B TC B is the present value of the taxes saved because of the interest payment. These interest tax shields increase the total value of the firm. BOB Example

13
**The Value of a Levered Firm Under MM Proposition I with Corporate Taxes**

Value of the firm (VL ) VL = VU + TC B Present value of tax shield on debt VU VU Total Debt (B)

14
**M&M Proposition II (with Corp. Taxes)**

Proposition II (with Corporate Taxes) This proposition is similar to Prop. II in the no tax case, however, now the risk and return of equity does not rise as quickly as the debt/equity ratio is increased because low-risk tax cash flows are saved. Some of the increase in equity risk and return is offset by interest tax shield rS = r0 + (B/S)×(1-TC)×(r0 - rB) rB is the interest rate (cost of debt) rs is the cost of equity for the levered firm r0 is the cost of capital for the all-equity firm B is the value of debt S is the value of levered equity BOB Example

15
**The Effect of Financial Leverage on the Cost of Debt and Equity Capital**

Cost of capital: r (%) r0 rB Debt-to-equity ratio (B/S)

Similar presentations

© 2021 SlidePlayer.com Inc.

All rights reserved.

To make this website work, we log user data and share it with processors. To use this website, you must agree to our Privacy Policy, including cookie policy.

Ads by Google