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MN20211: Corporate Finance 2009/10: Revision: Investment Appraisal, Portfolio, CAPM (AB). 2. Investment flexibility, Decision trees, Real Options (RF). 3. Funding (AB) 4. Capital Structure and Value of the Firm (RF). 5. Optimal Capital Structure - Agency Costs, Signalling (RF).

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Presentation Transcript
slide1

MN20211: Corporate Finance 2009/10:

  • Revision: Investment Appraisal, Portfolio, CAPM (AB).
  • 2. Investment flexibility, Decision trees, Real Options (RF).
  • 3. Funding (AB)
  • 4. Capital Structure and Value of the Firm (RF).
  • 5. Optimal Capital Structure - Agency Costs, Signalling (RF).
  • 6. Dividend policy/repurchases (RF)
  • 7. Mergers and Acquisitions (AB).
  • 8. Venture Capital and Private Equity (RF).
  • 9. Intro to Behavioural Finance (RF).
  • 10. Revision.
rf s lectures
RF’s Lectures
  • Week 3: Investment flexibility/Real Options
  • Week 5: Capital Structure/Dividends
  • Week 6: Capital Structure/Dividends
  • Week 9: Venture Capital and Private Equity
  • Week 10: Introduction to BF/BCF.
  • Week 11 Revision
lecture 3
Lecture 3
  • Investment Appraisal (Capital Budgeting) – Which New Projects to invest in?
  • Capital Structure (Financing Decision)- How to Finance the new projects – Debt or equity?
  • Payout Policy – Dividends, Share Repurchases, Re-investment.
  • => Objective: Maximisation of Shareholder Wealth.
first topic investment appraisal
First Topic: Investment Appraisal
  • Brief revision of static NPV.
  • => Flexibility
  • => Decision trees
  • => sensitivity analysis
  • => Real Options
investment appraisal
Investment Appraisal.
  • Objective: Take projects that increase shareholder wealth (Value-adding projects).
  • Investment Appraisal Techniques: NPV, IRR, Payback, ARR, Real Options….
  • Which one is the Best rule for shareholder wealth maximisation?
slide6

Connections in Corporate Finance.

Investment Appraisal: Net Present Value with discount rate (cost of capital) given. Positive NPV increases value of the firm.

Cost of Capital (discount rate): How do companies derive the cost of capital? – CAPM/APT.

Capital Structure and effect on Firm Value and WACC.

slide7
Debate over Correct Method
  • - Accounting Rate of Return.
  • - Payback.
  • - NPV.
  • - IRR.
  • - POSITIVE NPV Increases Shareholder Wealth.
  • 2. Correct Method - NPV!
  • -Time Value of Money
  • - Discounts all future cashflows
slide8

Net Present Value

Perpetuities.

IRR =>

Take Project if NPV > 0, or if IRR > r.

slide9

Example.

Consider the following new project:

-initial capital investment of £15m.

-it will generate sales for 5 years.

- Variable Costs equal 70% of sales value.

- fixed cost of project £200k PA.

- A feasibility study, cost £5000, has already been carried out.

Discount Rate equals 12%.

Should we take the project?

slide10

DO WE INVEST IN THIS NEW PROJECT?

NPV > 0.

COST OF CAPITAL (12%) < IRR (19.75%).

slide11

Note that if the NPV is positive, then the IRR exceeds the Cost of Capital.

NPV £m

3.3m

Discount Rate %

0

12 %

19.7%

slide13

COMPARINGNPVANDIRR - 1

NPV

531

519

10%

22.8%

25.4%

Discount Rate

PROJ D

PROJ C

Select Project with higher NPV: Project C.

slide14

COMPARINGNPVANDIRR -2

NPV

Discount Rate

Impossible to find IRR!!! NPV exists!

slide15
COMPARINGNPVANDIRR –3 Size Effect
  • Discount Rate: 10%
  • Project A : Date 0 Investment -£1000.
  • Date 1 Cashflow £1500.
  • NPV = £364.
  • IRR = 50%
  • Project B:- Date 0 Investment -£10
  • Date 1 Cashflow £18.
  • NPV = £6.36
  • IRR = 80%.
  • Which Project do we take?
slide16

Mutually Exclusive Versus Independent Projects.

Mutually Exclusive project: firm can only take one (take project with highest positive NPV).

Independent project: firm can take as many as it likes (take all positive NPV projects).

Consider slide 10: Which project(s) would you take, and what would be the value-added, if projects are a) mutually exclusive, and b) independent?

lecture 3 investment flexibility real options
Lecture 3: Investment Flexibility/ Real options.
  • Reminder of Corporation’s Objective : Take projects that increase shareholder wealth (Value-adding projects).
  • Investment Appraisal Techniques: NPV, IRR, Payback, ARR
  • Decision trees
  • Monte Carlo.
  • Real Options
slide18

Lecture 3: Investment Flexibility, Decision Trees, and Real Options

  • Decision Trees and Sensitivity Analysis.
  • Example: From Ross, Westerfield and Jaffe: “Corporate Finance”.
  • New Project: Test and Development Phase: Investment $100m.
  • 0.75 chance of success.
  • If successful, Company can invest in full scale production, Investment $1500m.
  • Production will occur over next 5 years with the following cashflows.
slide19

Production Stage: Base Case

Date 1 NPV = -1500 +

= 1517

slide20

Decision Tree.

Date 1: -1500

Date 0: -$100

NPV = 1517

Invest

P=0.75

Success

Do not Invest

NPV = 0

Test

Do not Invest

Failure

P=0.25

Do Not Test

Invest

NPV = -3611

Solve backwards: If the tests are successful, SEC should invest, since 1517 > 0.

If tests are unsuccessful, SEC should not invest, since 0 > -3611.

slide21

Now move back to Stage 1.

Invest $100m now to get 75% chance of $1517m one year later?

Expected Payoff = 0.75 *1517 +0.25 *0 = 1138.

NPV of testing at date 0 = -100 +

= $890

Therefore, the firm should test the project.

Sensitivity Analysis (What-if analysis or Bop analysis)

Examines sensitivity of NPV to changes in underlying assumptions (on revenue, costs and cashflows).

slide22

Sensitivity Analysis.

- NPV Calculation for all 3 possibilities of a single variable + expected forecast for all other variables.

Limitation in just changing one variable at a time.

Scenario Analysis- Change several variables together.

Break - even analysis examines variability in forecasts.

It determines the number of sales required to break even.

slide23

Real Options.

A digression: Financial Options

A call option gives the holder the right (but not the obligation) to buy shares at some time in the future at an exercise price agreed now.

A put option gives the holder the right (but not the obligation) to sell shares at some time in the future at an exercise price agreed now.

European Option – Exercised only at maturity date.

American Option – Can be exercised at any time up to maturity.

For simplicity, we focus on European Options.

example
Example:
  • Today, you buy a call option on Marks and Spencer’s shares. The call option gives you the right (but not the obligation) to buy MS shares at exercise date (say 31/12/10) at an exercise price given now (say £10).
  • At 31/12/10: MS share price becomes £12. Buy at £10: immediately sell at £12: profit £2.
  • Or: MS shares become £8 at 31/12/10: rip option up!
slide25

Factors Affecting Price of European Option (=c).

  • -Underlying Stock Price S.
  • -Exercise Price X.
  • Variance of of the returns of the underlying asset ,
  • Time to maturity, T.

The riskier the underlying returns, the greater the probability that the stock price will exceed the exercise price.

The longer to maturity, the greater the probability that the stock price will exceed the exercise price.

slide26

Options: Payoff Profiles.

Buying a Call Option.

Selling a put option.

Selling a Call Option.

Buying a Put Option.

slide27

Pricing Call Options – Binomial Approach.

Cu = 3

uS=24.00

q

q

c

S=20

1- q

1- q

dS=13.40

Cd=0

  • S = £20. q=0.5. u=1.2. d=.67. X = £21.
  • 1 + rf = 1.1.
  • Risk free hedge Portfolio: Buy One Share of Stock and write m call options.
  • uS - mCu = dS – mCd => 24 – 3m = 13.40.
  • M = 3.53.

By holding one share of stock, and selling 3.53 call options, your payoffs are the same in both states of nature (13.40): Risk free.

slide28

Since hedge portfolio is riskless:

1.1 ( 20 – 3.53C) = 13.40.

Therefore, C = 2.21.

This is the current price per call option. The total present value of investment = £12 .19, and the rate of return on investment is

13.40 / 12.19 = 1.1.

alternative option pricing method
Alternative option-pricing method
  • Black-Scholes
  • Continuous Distribution of share returns (not binomial)
  • Continuous time (rather than discrete time).
real options
Real Options
  • Just as financial options give the investor the right (but not obligation) to future share investment (flexibility)
  • Researchers recognised that investing in projects can be considered as ‘options’ (flexibility).
  • “Real Options”: Option to delay, option to expand, option to abandon.
  • Real options: dynamic approach (in contrast to static NPV).
real options1
Real Options
  • Based on the insights, methods and valuation of financial options which give you the right to invest in shares at a later date
  • RO: development of NPV to recognise corporation’s flexibility in investing in PROJECTS.
real options2
Real Options.
  • Real Options recognise flexibility in investment appraisal decision.
  • Standard NPV: static; “now or never”.
  • Real Option Approach: “Now or Later”.
  • -Option to delay, option to expand, option to abandon.
  • Analogy with financial options.
types of real option
Types of Real Option
  • Option to Delay (Timing Option).
  • Option to Expand (eg R and D).
  • Option to Abandon.
option to delay call option
Option to Delay (= call option)

Value-creation

Project value

Investment in waiting:

(sunk)

option to expand call option
Option to expand (= call option)

Value creation

Project value

Investment in initial project: eg R and D (sunk)

option to abandon put option
Option to Abandon ( = put option)

Project goes badly: abandon for liquidation value.

Project value

valuation of real options
Valuation of Real Options
  • Binomial Pricing Model
  • Black-Scholes formula
value of a real option
Value of a Real Option
  • A Project’s Value-added = Standard NPV plus the Real Option Value.
  • For given cashflows, standard NPV decreases with risk (why?).
  • But Real Option Value increases with risk.
  • R and D very risky: => Real Option element may be high.
slide39

Simplified Examples

  • Option to Expand (page 241 of RWJ)

If Successful

Expand

Build First Ice

Hotel

Do not Expand

If unsuccessful

slide40

Option to Expand (Continued)

  • NPV of single ice hotel
  • NPV = - 12,000,000 + 2,000,000/0.20 =-2m
  • Reject?
  • Optimistic forecast: NPV = - 12M + 3M/0.2
  • = 3M.
  • Pessimistic: NPV = -12M + 1M/0.2 = - 7m
  • Still reject?
option to expand continued
Option to expand (continued)
  • Given success, the E will expand to 10 hotels
  • =>
  • NPV = 50% x 10 x 3m + 50% x (-7m) = 11.5 m.
  • Therefore, invest.
option to abandon
Option to abandon.
  • NPV(opt) = - 12m + 6m/0.2 = 18m.
  • NPV (pess) = -12m – 2m/0.2 = -22m.
  • => NPV = - 2m. Reject?
  • But abandon if failure =>
  • NPV = 50% x 18m + 50% x -12m/1.20
  • = 2.17m
  • Accept.
slide43

Option to delay and Competition (Smit and Ankum).

  • -Smit and Ankum present a binomial real option model:
  • Option to delay increases value (wait to observe market demand)
  • But delay invites product market competition: reduces value (lost monopoly advantage).
  • cost: Lost cash flows
  • Trade-off: when to exercise real option (ie when to delay and when to invest in project).
  • Protecting Economic Rent: Innovation, barriers to entry, product differentiation, patents.
  • Firm needs too identify extent of competitive advantage.
monte carlo methods
Monte Carlo methods
  • BBQ grills example in RWJ.
  • Application to Qinetiq (article by Tony Bishop).
slide48

Lecture 5 and 6: Capital Structure and Dividends.

Positive NPV project immediately increases current equity value (share price immediately goes up!)

Pre-project announcement

New capital (all equity)

New project:

Value of Debt

Original equity holders

New equity

New Firm Value

slide49

Example:

=500+500=1000.

20

60 -20 = 40.

Value of Debt

= 500.

Original Equity

= 500+40 = 540

New Equity

= 20

=1000+60=1060.

Total Firm Value

slide51

Value of the Firm and Capital Structure

Value of the Firm = Value of Debt + Value of Equity = discounted value of future cashflows available to the providers of capital.

(where values refer to market values).

Capital Structure is the amount of debt and equity: It is the way a firm finances its investments.

Unlevered firm = all-equity.

Levered firm = Debt plus equity.

Miller-Modigliani said that it does not matter how you split the cake between debt and equity, the value of the firm is unchanged (Irrelevance Theorem).

slide52

Value of the Firm = discounted value of future cashflows available to the providers of capital.

-Assume Incomes are perpetuities.

Miller- Modigliani Theorem:

Irrelevance Theorem: Without Tax, Firm Value is independent of the Capital Structure.

Note that

slide53

K

Without Taxes

K

With Taxes

D/E

D/E

V

V

D/E

D/E

examples
Examples
  • Firm X
  • Henderson Case study
slide55

MM main assumptions:

  • - Symmetric information.
  • Managers unselfish- maximise shareholders wealth.
  • Risk Free Debt.
  • MM assumed that investment and financing decisions were separate. Firm first chooses its investment projects (NPV rule), then decides on its capital structure.
  • Pie Model of the Firm:

D

E

E

slide56

MM irrelevance theorem- firm can use any mix of debt and equity – this is unsatisfactory as a policy tool.

Searching for the Optimal Capital Structure.

-Tax benefits of debt.

-Asymmetric information- Signalling.

-Agency Costs (selfish managers).

-Debt Capacity and Risky Debt.

Optimal Capital Structure maximises firm value.

slide58

Section 4: Optimal Capital Structure, Agency Costs, and Signalling.

Agency costs - manager’s self interested actions. Signalling - related to managerial type.

Debt and Equity can affect Firm Value because:

- Debt increases managers’ share of equity.

-Debt has threat of bankruptcy if manager shirks.

- Debt can reduce free cashflow.

But- Debt - excessive risk taking.

slide59

AGENCY COST MODELS.

Jensen and Meckling (1976).

- self-interested manager - monetary rewards V private benefits.

- issues debt and equity.

Issuing equity => lower share of firm’s profits for manager => he takes more perks => firm value

Issuing debt => he owns more equity => he takes less perks => firm value

slide60

Jensen and Meckling (1976)

V

Slope = -1

V*

A

V1

B1

B

If manager owns all of the equity, equilibrium point A.

slide61

Jensen and Meckling (1976)

V

Slope = -1

V*

A

B

V1

Slope = -1/2

B1

B

If manager owns all of the equity, equilibrium point A.

If manager owns half of the equity, he will got to point B if he can.

slide62

Jensen and Meckling (1976)

V

Slope = -1

V*

A

B

V1

Slope = -1/2

V2

C

B1

B2

B

If manager owns all of the equity, equilibrium point A.

If manager owns half of the equity, he will got to point B if he can.

Final equilibrium, point C: value V2, and private benefits B1.

slide63

Jensen and Meckling - Numerical Example.

Manager issues 100% Debt.

Chooses Project B.

Manager issues some Debt and Equity.

Chooses Project A.

Optimal Solution: Issue Debt?

slide64

Issuing debt increases the manager’s fractional ownership => Firm value rises.

-But:

Debt and risk-shifting.

slide65

OPTIMAL CAPITAL STRUCTURE.

Trade-off: Increasing equity => excess perks.

Increasing debt => potential risk shifting.

Optimal Capital Structure => max firm value.

V

V*

D/E

D/E*

slide66

Other Agency Cost Reasons for Optimal Capital structure.

Debt - bankruptcy threat - manager increases effort level. (eg Hart, Dewatripont and Tirole).

Debt reduces free cashflow problem (eg Jensen 1986).

slide67

Agency Cost Models – continued.

Effort Level, Debt and bankruptcy (simple example).

Debtholders are hard- if not paid, firm becomes bankrupt, manager loses job- manager does not like this.

Equity holders are soft.

What is Optimal Capital Structure (Value Maximising)?

slide68

Firm needs to raise 200, using debt and equity.

Manager only cares about keeping his job. He has a fixed income, not affected by firm value.

a) If debt < 100, low effort. V = 100. Manager keeps job.

b) If debt > 100: low effort, V < D => bankruptcy. Manager loses job.

So, high effort level => V = 500 > D. No bankruptcy => Manager keeps job.

High level of debt => high firm value.

However: trade-off: may be costs of having high debt levels.

slide69

Free Cashflow Problem (Jensen 1986).

-Managers have (negative NPV) pet projects.

-Empire Building.

=> Firm Value reducing.

Free Cashflow- Cashflow in excess of that required to fund all NPV projects.

Jensen- benefit of debt in reducing free cashflow.

slide70

Jensen’s evidence from the oil industry.

After 1973, oil industry generated large free cashflows.

Management wasted money on unnecessary R and D.

also started diversification programs outside the industry.

Evidence- McConnell and Muscerella (1986) – increases in R and D caused decreases in stock price.

Retrenchment- cancellation or delay of ongoing projects.

Empire building Management resists retrenchment.

Takeovers or threat => increase in debt => reduction in free cashflow => increased share price.

slide71

Jensen predicts:

young firms with lots of good (positive NPV) investment opportunities should have low debt, high free cashflow.

Old stagnant firms with only negative NPV projects should have high debt levels, low free cashflow.

Stultz (1990)- optimal level of debt => enough free cashflow for good projects, but not too much free cashflow for bad projects.

slide72

Income Rights and Control Rights.

Some researchers (Hart (1982) and (2001), Dewatripont and Tirole (1985)) recognised that securities allocate income rights and control rights.

Debtholders have a fixed first claim on the firm’s income, and have liquidation rights.

Equityholders are residual claimants, and have voting rights.

Class discussion paper: Hart (2001)- What is the optimal allocation of control and income rights between a single investor and a manager?

How effective are control rights when there are different types of investors?

Why do we observe different types of outside investors- what is the optimal contract?

slide73

Conflict

Benefits of Debt

Costs of Debt

Breaking MM

Tax Relief

Fin’l Distress/ Debt Capacity

Agency Models

JM (1976)

Managerial Perks

Increase Mgr’s Ownership

Risk Shifting

Jensen (1986)

Empire Building

Reduce Freecash

Unspecified.

Stultz

Empire Building

Reduce Freecash

Underinvestment.

Dewatripont and Tirole, Hart.

Low Effort level

Bankruptcy threat =>increased effort

DT- Inefficient liquidations.

slide74

Signalling Models of Capital Structure

Assymetric info: Akerlof’s (1970) Lemons Market.

Akerlof showed that, under assymetric info, only bad things may be traded.

His model- two car dealers: one good, one bad.

Market does not know which is which: 50/50 probability.

Good car (peach) is worth £2000. Bad car (lemon) is worth £1000.

Buyers only prepared to pay average price £1500.

But: Good seller not prepared to sell. Only bad car remains.

Price falls to £1000.

Myers-Majuf (1984) – “securities may be lemons too.”

slide75

Asymmetric information and Signalling Models.

- managers have inside info, capital structure has signalling properties.

Ross (1977)

-manager’s compensation at the end of the period is

D* = debt level where bad firm goes bankrupt.

Result: Good firm D > D*, Bad Firm D < D*.

Debt level D signals to investors whether the firm is good or bad.

slide76

Myers-Majluf (1984).

-managers know the true future cashflow.

They act in the interest of initial shareholders.

Expected Value 190 305

New investors 0 100

Old Investors 190 205

slide77

Consider old shareholders wealth:

Good News + Do nothing = 250.

Good News + Issue Equity =

Bad News and do nothing = 130.

Bad News and Issue equity =

slide78

Old Shareholders’ payoffsEquilibrium

Issuing equity signals that the bad state will occur.

The market knows this - firm value falls.

Pecking Order Theory for Capital Structure => firms prefer to raise funds in this order:

Retained Earnings/ Debt/ Equity.

slide79

Evidence on Capital structure and firm value.

Debt Issued - Value Increases.

Equity Issued- Value falls.

However, difficult to analyse, as these capital structure changes may be accompanied by new investment.

More promising - Exchange offers or swaps.

Class discussion paper: Masulis (1980)- Highly significant Announcement effects:

+7.6% for leverage increasing exchange offers.

-5.4% for leverage decreasing exchange offers.

slide80

Practical Methods employed by Companies (See Damodaran; Campbell and Harvey).

  • Trade off models: PV of debt and equity.
  • Pecking order.
  • Benchmarking.
  • Life Cycle.

Increasing Debt?

time

trade off versus pecking order
Trade-off Versus Pecking Order.
  • Empirical Tests.
  • Multiple Regression analysis (firm size/growth opportunities/tangibility of assets/profitability…..
  • => Relationship between profitability and leverage (debt): positive => trade-off.
  • Or negative => Pecking order:
  • Why?
  • China: Reverse Pecking order
capital structure and product market competition
Capital Structure and Product Market Competition.
  • Research has recognised that firms’ financial decisions and product market decisions not made in isolation.
  • How does competition in the product market affect firms’ debt/equity decisions?
  • Limited liability models: Debt softens competition: higher comp => higher debt.
  • Predation models: higher competition leads to lower debt. (Why?)
capital structure and takeovers
Capital Structure and Takeovers
  • Garvey and Hanka:
  • Waves of takeovers in US in 1980’s/1990’s.
  • Increase in hostile takeovers => increase in debt as a defensive mechanism.
  • Decrease in hostile takeovers => decrease in debt as a defensive mechanism.
garvey and hanka contiuned
Garvey and Hanka (contiuned)

V

Trade-off: Tax shields/effort levels/FCF/ efficiency/signalling Vs financial distress

D/E

D/E*

lecture 6 dividend policy
Lecture 6: Dividend Policy
  • Miller-Modigliani Irrelevance.
  • Gordon Growth (trade-off).
  • Signalling Models.
  • Agency Models.
  • Lintner Smoothing.
  • Dividends versus share repurchases.
  • Empirical examples
early approach
Early Approach.
  • Three Schools of Thought-
  • Dividends are irrelevant (MM).
  • Dividends => increase in stock prices (signalling/agency problems).
  • Dividends => decrease in Stock Prices (negative signal: non +ve NPV projects left?).
  • 2 major hypotheses: Free-cash flow versus signalling
important terminology
Important terminology
  • Cum Div: Share price just before dividend is paid.
  • Ex div: share price after dividend is paid < Cum div.

P

CD

CD

CD

ED

ED

ED

Time

example1
Example
  • A firm is expecting to provide dividends every year-end forever of £10. The cost of equity is 10%.
  • We are at year-end, and div is about to be paid. Current market value of equity = 10/0.1 + 10 = £110
  • Div is paid. Now, current market value is
  • V = 10/0.1 = £100.
  • So on…
slide90

P

CD = 110

CD

CD

ED = 100

ED

ED

Time

common stock valuation model
Common Stock Valuation Model
  • You are considering buying a share at price Po, and expect to hold it one year before selling it ex-dividend at price P1: cost of equity = r.

What would the buyer be prepared to pay to you?

slide92

Therefore:

Continuing this process, and re-substituting in (try it!), we obtain:

Price today is discounted value of all future dividends to infinity (fundamental value = market value).

dividend irrelevance miller modigliani
Dividend Irrelevance (Miller-Modigliani)
  • MM consider conditions under which dividends are irrelevant.
  • Investors care about both dividends and capital gains.
  • Perfect capital markets:-
  • No distorting taxes
  • No transactions costs.
  • No agency costs or assymetric info.
dividend irrelevance mm continued
Dividend Irrelevance (MM): continued
  • Intuition: Investors care about total return (dividends plus capital gains).
  • Homemade leverage argument
  • Source and application of funds argument => MM assumed an optimal investment schedule over time (ie firm invests in all +ve NPV projects each year).
deriving mm s dividend irrelevance
Deriving MM’s dividend irrelevance
  • Total market value of our all-equity firm is

Sources = Uses

re arranging
Re-arranging:

Substitute into first equation:

At t =0,

successive substitutions
Successive substitutions
  • Current value of all-equity firm is present value of operating cashflows less re-investment for all the years (residual cashflow available to shareholders) Dividends do not appear!
  • Assn: firms make optimal investments each period (firm invests in all +ve NPV projects).
  • Firms ‘balance’ divs and equity each period: divs higher than residual cashflow => issue shares.
  • Divs lower than free cashflow: repurchase shares.
irrelevance of mm irrelevance deangelo and deangelo
Irrelevance of MM irrelevance (Deangelo and Deangelo)
  • MM irrelevance based on the idea that all cash will be paid as dividend in the end (at time T).
  • Deangelo argues that even under PCM, MM irrelevance can break down if firm never pays dividend!
irrelevance of mm irrelevance continued
Irrelevance of MM irrelevance (continued)
  • Consider an all-equity firm that is expected to produce residual cashflows of £10 per year for 5 years.
  • Cost of equity 10%.
  • First scenario: firm pays no dividends for the first 4 years. Pays all of the cashflows as dividends in year 5.
  • Now it is expected to pay none of the cashflows in any year: Vo = 0 !
breaking mm s irrelevance
“Breaking” MM’s Irrelevance
  • MM dividend irrelevance theorem based on:
  • PCM
  • No taxes
  • No transaction costs
  • No agency or asymmetric information problems.
gordon growth model
Gordon Growth Model.
  • MM assumed firms made optimal investments out of current cashflows each year
  • Pay any divs it likes/ balanced with new equity/repurchases.
  • What if information problems etc prevent firms easliy going back to capital markets:
  • Now, real trade-off between investment and dividends?
slide102

Gordon Growth Model.

Where does growth come from?- retaining cashflow to re-invest.

Constant fraction, K, of earnings retained for reinvestment.

Rest paid out as dividend.

Average rate of return on equity = r.

Growth rate in cashflows (and dividends) is g = Kr.

slide103

Example of Gordon Growth Model.

How do we use this past data for valuation?

slide105

Finite Supernormal Growth.

  • Rate of return on Investment > market required return for T years.
  • After that, Rate of Return on Investment = Market required return.

If T = 0, V = Value of assets in place (re-investment at zero NPV).

Same if r =

slide106

Examples of Finite Supernormal Growth.

T = 10 years. K = 0.1.

  • Rate of return, r = 12% for 10 years,then 10% thereafter.

B. Rate of return, r = 5% for 10 years,then 10% thereafter.

dividend smoothing v optimal re investment fairchild 2003
Dividend Smoothing V optimal re-investment (Fairchild 2003)
  • Method:-
  • GG Model: derive optimal retention/payout ratio
  • => deterministic time path for dividends, Net income, firm values.
  • => Stochastic time path for net income: how can we smooth dividends (see Lintner smoothing later….)
deterministic dividend policy
Deterministic Dividend Policy.
  • Recall
  • Solving
  • We obtain optimal retention ratio
analysis of
Analysis of
  • If
  • If with
  • Constant r over time => Constant K* over time.
deterministic case continued
Deterministic Case (Continued).
  • Recursive solution:
  • => signalling equilibria.
  • Shorter horizon => higher dividends.

When r is constant over time, K* is constant. Net Income, Dividends, and firm value evolve deterministically.

stochastic dividend policy
Stochastic dividend policy.
  • Future returns on equity normally and independently distributed, mean r.
  • Each period, K* is as given previously.
  • Dividends volatile.
  • But signalling concerns: smooth dividends.
  • => “buffer” from retained earnings.
agency problems
Agency problems
  • Conflicts between shareholders and debtholders: risk-shifting: high versus low dividends => high divs => credit rating of debt
  • Conflicts between managers and shareholders: Jensen’s FCF, Easterbrook.
slide113

Are Dividends Irrelevant?

- Evidence: higher dividends => higher value.

- Dividend irrelevance : freely available capital for reinvestment. - If too much dividend, firm issued new shares.

- If capital not freely available, dividend policy may matter.

C. Dividend Signalling - Miller and Rock (1985).

NCF + NS = I + DIV: Source = Uses.

DIV - NS = NCF - I.

Right hand side = retained earnings. Left hand side - higher dividends can be covered by new shares.

slide114

Div - NS - E (Div - NS) = NCF - I - E (NCF - I)

= NCF - E ( NCF).

Unexpected dividend increase - favourable signal of NCF.

E(Div - NS) = E(NCF - I) = 300.

Date 1 Realisation: Firm B: Div - NS - E (Div - NS) = 500 = NCF - E ( NCF).

Firm A : Div - NS - E (Div - NS) = -500 = NCF - E ( NCF).

dividend signalling models
Dividend Signalling Models.
  • Bhattacharya (1979)
  • John and Williams (1985)
  • Miller and Rock (1985)
  • Ofer and Thakor (1987)
  • Fuller and Thakor (2002).
  • Fairchild (2009/10).
  • Divs credible costly signals: Taxes or borrowing costs.
competing hypotheses
Competing Hypotheses.
  • Dividend Signalling hypothesis Versus Free Cashflow hypothesis.
  • Fuller and Thakor (2002; 2008): Consider asymmetric info model of 3 firms (good, medium, bad) that have negative NPV project available
  • Divs used as a) a positive signal of income, and b) a commitment not to take –ve NPV project (Jensen’s FCF argument).
  • Both signals in the same direction (both +ve)
signalling fcf and dividends fuller and thakor 2002
Signalling, FCF, and Dividends.Fuller and Thakor (2002)
  • Signalling Versus FCF hypotheses.
  • Both say high dividends => high firm value
  • FT derive a non-monotonic relationship between firm quality and dividends.

Divs

Firm Quality

fairchild 2009 2010
Fairchild (2009, 2010)
  • Signalling Versus FCF hypotheses.
  • But, in contrast to Fuller and Thakor, I consider +ve NPV project.
  • Real conflict between high divs to signal current income, and low divs to take new project.
  • Communication to market/reputation.
cohen and yagil
Cohen and Yagil
  • New agency cost: firms refusing to cut dividends to invest in +ve NPV projects.
  • Wooldridge and Ghosh
  • 6 roundtable discussions of CF.
agency models
Agency Models.
  • Jensen’s Free Cash Flow (1986).
  • Stultz’s Free Cash Flow Model (1990).
  • Easterbrook.
  • Fairchild (2009/10): Signalling + moral hazard.
behavioural explanation for dividends
Behavioural Explanation for dividends
  • Self-control.
  • Investors more disciplined with dividend income than capital gains.
  • Mental accounting.
  • Case study from Shefrin.
  • Boyesen case study.
slide122

D. Lintner Model.

Managers do not like big changes in dividend (signalling).

They smooth them - slow adjustment towards target payout rate.

K is the adjustment rate. T is the target payout rate.

slide123

Using Dividend Data to analyse Lintner Model.

In Excel, run the following regression;

The parameters give us the following information,

a = 0, K = 1 – b, T = c/ (1 – b).

dividends and earnings
Dividends and earnings.
  • Relationship between dividends, past, current and future earnings.
  • Regression analysis/categorical analysis.
dividends v share repurchases
Dividends V Share Repurchases.
  • Both are payout methods.
  • If both provide similar signals, mkt reaction should be same.
  • => mgrs should be indifferent between dividends and repurchases.
dividend share repurchase irrelevance
Dividend/share repurchase irrelevance
  • Misconception (among practitioners) that share repurchasing can ‘create’ value by spreading earnings over fewer shares (Kennon).
  • Impossible in perfect world:
  • Fairchild (JAF).
dividend share repurchase irrelevance continued
Dividend/share repurchase irrelevance (continued)
  • Fairchild: JAF (2006):
  • => popular practitioner’s website argues share repurchases can create value for non-tendering shareholders.
  • Basic argument: existing cashflows/assets spread over fewer shares => P !!!
  • Financial Alchemy !!!
the example
The Example:….
  • Kennon (2005): Eggshell Candies Inc
  • Mkt value of equity = $5,000,000.
  • 100, 000 shares outstanding
  • => Price per share = $50.
  • Profit this year = £1,000,000.
  • Mgt upset: same amount of candy sold this year as last: growth rate 0% !!!
eggshell example continued
Eggshell example (continued)
  • Executives want to do something to make shareholders money after the disappointing operating performance:
  • => One suggests a share buyback.
  • The others immediately agree !
  • Company will use this year’s £1,000,000 profit to but stock in itself.
eggshell example continued1
Eggshell example (continued)
  • $1m dollars used to buy 20,000 shares (at $50 per share). Shares destroyed.
  • => 80,000 shares remain.
  • Kennon argues that, instead of each share being 0.001% (1/100,000) of the firm, it is now .00125% of the company (1/80)
  • You wake up to find that P from $50 to $62.50. Magic!
kennon quote
Kennon quote
  • “When a company reduces the amount of shares outstanding, each of your shares becomes more valuable and represents a greater % of equity in the company … It is possible that someday there may be only 5 shares of the company, each worth one million dollars.”
  • Fallacy! CF: no such thing as a free lunch!
mm irrelevance applied to eggshell example
MM Irrelevance applied to Eggshell example

At beginning of date 0:

At end of date 0, with N0 just achieved, but still in the business (not yet paid out as dividends or repurchases:

eggshell figures
Eggshell figures

Cost of equity will not change: only way to increase value per share is to improve company’s operating performance, or invest in new positive NPV project. Repurchasing shares is a zero NPV proposition (in a PCM).

Eggshell has to use the $1,000,000 profit to but the shares.

eggshell irrelevance continued
Eggshell irrelevance (continued)
  • Assume company has a new one-year zero NPV project available at the end of date 0.
  • 1. Use the profit to Invest in the project.
  • 2. Use the profit to pay dividends, or:
  • 3. Use the profit to repurchase shares.
eggshell continued
Eggshell (continued)

1.

2.

Ex div

Each year –end: cum div = $50, ex div = $40

3.

long term effects of repurchase
Long-term effects of repurchase
  • See tables in paper:
  • Share value pre-repurchase = $5,000,000 each year.
  • Share value-post repurchase each year = $4,000,000
  • Since number of shares reducing, P .by 25%, but this equals cost of equity.
  • And is same as investing in zero NPV project.
conclusion of analysis
Conclusion of analysis
  • In PCM, share repurchasing cannot increase share price (above a zero NPV investment) by merely spreading cashflows over smaller number of shares.
  • Further, if passing up positive NPV to repurchase, not optimal!
  • Asymmetric info: repurchases => positive signals.
  • Agency problems: FCF.
  • Market timing.
  • Capital structure motives.
dividend share repurchase irrelevance1
Dividend/share repurchase irrelevance
  • See Fairchild (JAF 2005)
  • Kennon’s website
evidence
Evidence.
  • Mgrs think divs reveal more info than repurchases (see Graham and Harvey “Payout policy”.
  • Mgrs smooth dividends/repurchases are volatile.
  • Dividends paid out of permanent cashflow/repurchases out of temporary cashflow.
motives for repurchases wansley et al fm 1989
Motives for repurchases (Wansley et al, FM: 1989).
  • Dividend substitution hypothesis.
  • Tax motives.
  • Capital structure motives.
  • Free cash flow hypothesis.
  • Signalling/price support.
  • Timing.
  • Catering.
repurchase signalling
Repurchase signalling.
  • Price Support hypothesis: Repurchases signal undervaluation (as in dividends).
  • But do repurchases provide the same signals as dividends?
repurchase signalling chowdhury and nanda model rfs 1994
Repurchase signalling: (Chowdhury and Nanda Model: RFS 1994)
  • Free-cash flow => distribution as commitment.
  • Dividends have tax disadvantage.
  • Repurchases lead to large price increase.
  • So, firms use repurchases only when sufficient undervaluation.
open market stock repurchase signalling mcnally 1999
Open market Stock Repurchase Signalling:McNally, 1999
  • Signalling Model of OM repurchases.
  • Effect on insiders’ utility.
  • If do not repurchase, RA insiders exposed to more risk.
  • => Repurchase signals:
  • a) Higher earnings and higher risk,
  • b) Higher equity stake => higher earnings.
repurchase signalling isagawa fr 2000
Repurchase Signalling :Isagawa FR 2000
  • Asymmetric information over mgr’s private benefits.
  • Repurchase announcement reveals this info when project is –ve NPV.
  • Repurchase announcement is a credible signal, even though not a commitment.
costless versus costly signalling bhattacharya and dittmar 2003
Costless Versus Costly Signalling:Bhattacharya and Dittmar 2003
  • Repurchase announcement is not commitment.
  • Costly signal: Actual repurchase: separation of good and bad firm.
  • Costless (cheap-talk): Announcement without repurchasing. Draws analysts’ attention.
  • Only good firm will want this
repurchase timing
Repurchase timing
  • Evidence: repurchase timing (buying shares cheaply.
  • But market must be inefficient, or investors irrational.
  • Isagawa.
  • Fairchild and Zhang.
repurchases and irrational investors isagawa 2002
Repurchases and irrational investors.Isagawa 2002
  • Timing (wealth-transfer) model.
  • Unable to time market in efficient market with rational investors.
  • Assumes irrational investors => market does not fully react.
  • Incentive to time market.
  • Predicts long-run abnormal returns post-announcement.
repurchase catering
Repurchase Catering.
  • Baker and Wurgler: dividend catering
  • Fairchild and Zhang: dividend/repurchase catering, or re-investment in positive NPV project.
competing frictions model from lease et al
Competing Frictions Model:From Lease et al:

Agency Costs

Taxes

Low

Payout

High Payout

Low Payout

High Payout

Asymmetric Information

High

Payout

Low Payout

dividend cuts bad news
Dividend Cuts bad news?
  • Fairchild’s 2009/10 article.
  • Wooldridge and Ghosh:=>
  • ITT/ Gould
  • Right way and wrong way to cut dividends.
  • Other cases from Fairchild’s article.
  • Signalling/FCF hypothesis.
  • FCF: agency cost: cutting div to take –ve NPV project.
  • New agency cost: Project foregone to pay high dividends.
  • Communication/reputation important!!
lecture 9 venture capital private equity
Lecture 9: Venture Capital/private equity
  • Venture capitalists typically supply start-up finance for new entrepreneurs.
  • VC’s objective; help to develop the venture over 5 – 7 years, take the firm to IPO, and make large capital gains on their investment.
  • In contrast, private equity firms invest in later stage public companies to take them private….
private equity
Private Equity.
  • PE firms generally buy poorly performing publically listed firms.
  • Take them private
  • Improve them (turn them around).
  • Hope to float them again for large gains
  • Our main focus in this course is venture capital, But will look briefly at PE later.
  • “Theory of private equity turnarounds” plus PE leverage article, plus economics of PE articles.
venture capitalists
Venture capitalists
  • Venture capitalists provide finance to start-up entrepreneurs
  • New, innovative, risky, no track-record…
  • Hence, these Es have difficulty obtaining finance from banks or stock market
  • VCs more than just investors
  • Provide ‘value-adding’ services/effort
  • Double-sided moral hazard
venture capital process
Venture capital process
  • Investment appraisal stage: seeking out good entrepreneurs/business plans: VC overconfidence?
  • Financial contracting stage: negotiate over cashflow rights and control rights.
  • Performance stage: both E and VC exert value-adding effort: double-sided moral hazard.
  • Ex post hold-up/renegotiation stage? Double sided moral hazard
  • => exit: IPO/trade sale => capital gains (IRR)
vc process continued
VC process (continued)
  • VCs invest for 5-7 years.
  • VCs invest in a portfolio of companies: anticipate that some will be highly successful, some will not
  • => attention model of Gifford.
c venture capital financing
C. Venture Capital Financing
  • Active Value-adding Investors.
  • Double-sided Moral Hazard problem.
  • Asymmetric Information.
  • Negotiations over Cashflows and Control Rights.
  • Staged Financing
  • Remarkable variation in contracts.
features of vc financing
Features of VC financing.
  • Bargain with mgrs over financial contract (cash flow rights and control rights)
  • VC’s active investors: provide value-added services.
  • Reputation (VCs are repeat players).
  • Double-sided moral hazard.
  • Double-sided adverse selection.
kaplan and stromberg
Kaplan and Stromberg
  • Empirical analysis, related to financial contract theories.
financial contracts
Financial Contracts.
  • Debt and equity.
  • Extensive use of Convertibles.
  • Staged Financing.
  • Control rights (eg board control/voting rights).
  • Exit strategies well-defined.
fairchild 2004
Fairchild (2004)
  • Analyses effects of bargaining power, reputation, exit strategies and value-adding on financial contract and performance.
  • 1 mgr and 2 types of VC.
  • Success Probability depends on effort:

=> VC’s value-adding.

where

fairchild s 2004 timeline
Fairchild’s (2004) Timeline
  • Date 0: Bidding Game: VC’s bid to supply finance.
  • Date 1: Bargaining game: VC/E bargain over financial contract (equity stakes).
  • Date 2: Investment/effort level stage.
  • Date 3: Renegotiation stage: hold-up problems
  • Date 4: Payoffs occur.
bargaining stage
Bargaining stage
  • Ex ante Project Value
  • Payoffs:
optimal equity proposals
Optimal equity proposals.
  • Found by substituting optimal efforts into payoffs and maximising.
  • Depends on relative bargaining power, VC’s value-adding ability, and reputation effect.
  • Eg; E may take all of the equity.
  • VC may take half of the equity.
slide165

Payoffs

E

VC

0.5

Equity Stake

e s choice of vc or angel financing
E’s choice of VC or angel-financing
  • Explain Angels.
  • Complementary efforts
  • Ex post hold-up/stealing threat
  • Fairchild’s model
to come
To come
  • Legal effects: (Fairchild and Yiyuan)
  • => Allen and Song
  • => Botazzi et al
  • Negative reciprocity/retaliation.
ex post hold up threat
Ex post hold-up threat
  • VC power increases with time.
  • Exit threat (moral hazard).
  • Weakens entrepreneur incentives.
  • Contractual commitment not to exit early.
  • => put options.
other papers
Other Papers
  • Casamatta: Joint effort: VC supplies investment and value-adding effort.
  • Repullo and Suarez: Joint efforts: staged financing.
  • Bascha: Joint efforts: use of convertibles: increased managerial incentives.
control rights
Control Rights.
  • Gebhardt.
  • Lecture slides to follow
asymmetric information
Asymmetric Information
  • Houben.
  • PCP paper.
  • Tykvova (lock-in at IPO to signal quality).
e s choice of financier
E’s choice of financier
  • VC or bank finance (Ueda, Bettignies and Brander).
  • VC or Angel (Chemmanur and Chen, Fairchild).
fairness norms and self interest in vc e contracting a behavioral game theoretic approach
Fairness Norms and Self-interest in VC/E Contracting: A Behavioral Game-theoretic Approach
  • Existing VC/E Financial Contracting Models assume narrow self-interest.
  • Double-sided Agency problems (both E and VC exert Value-adding Effort) (Casamatta JF 2003, Repullo and Suarez 2004, Fairchild JFR 2004).
  • Procedural Justice Theory: Fairness and Trust important.
  • No existing behavioral Game theoretic models of VC/E contracting.
my model
My Model:
  • VC/E Financial Contracting, combining double-sided Moral Hazard (VC and E shirking incentives) and fairness norms.
  • 2 stages: VC and E negotiate financial contract.
  • Then both exert value-adding efforts.
how to model fairness fairness norms
How to model fairness? Fairness Norms.
  • Fair VCs and Es in society.
  • self-interested VCs and Es in society.
  • Matching process: one E emerges with a business plan. Approaches one VC at random for finance.
  • Players cannot observe each other’s type.
timeline
Timeline
  • Date 0: VC makes ultimatum offer of equity stake to E;
  • Date 1: VC and E exert value-adding effort in running the business
  • Date 2 Success Probability
  • => income R.
  • Failure probability
  • =>income zero
slide178
Expected Value of Project
  • Represents VCs relative ability (to E).
fairness norms
Fairness Norms
  • Fair VC makes fair (payoff equalising) equity offer
  • Self-interested VC makes self-interested ultimatum offer
  • E observes equity offer. Fair E compares equity offer to social norm. Self-interested E does not, then exerts effort.
expected payoffs
Expected Payoffs

If VC is fair, by definition,

solve by backward induction
Solve by backward induction:
  • If VC is fair;
  • Since
  • for both E types.
  • =>
  • =>
vc is fair continued
VC is fair; continued.
  • Given

Optimal Effort Levels:

Fair VC’s equity proposal (equity norm):

vc is self interested
VC is self-interested:
  • From Equation (1), fair E’s optimal effort;
self interested vc s optimal equity proposal
Self-interested VC’s optimal Equity proposal
  • Substitute players’ optimal efforts into V= PR, and then into (1) and (2). Then, optimal equity proposal maximises VC’s indirect payoff =>
examples1
Examples;
  • VC has no value-adding ability (dumb money) =>
  • =>
  • r =0 =>
  • r => 1 ,
example 2
Example 2
  • VC has equal ability to E;

=>

  • r =0 =>
  • r => 1 ,
  • We show that

as r => 1

future research
Future Research.
  • Dynamic Fairness Game:ex post opportunism (Utset 2002).
  • Complementary Efforts.
  • Trust Games.
  • Experiments.
  • Control Rights.
private equity1
Private Equity
  • JCF paper: slides to follow…
  • PE and leverage: slides to follow….
lecture 10 introduction to behavioural corporate finance
Lecture 10:Introduction toBehavioural Corporate Finance.
  • Standard Finance - agents are rational and self-interested.
  • Behavioural finance: agents irrational (Psychological Biases).
  • Irrational Investors – Overvaluing assets- internet bubble? Market Sentiment?
  • Irrational Managers- effects on investment appraisal?
  • Effects on capital structure?
  • Herding.
development of behavioral finance i
Development of Behavioral Finance I.
  • Standard Research in Finance: Assumption: Agents are rational self-interested utility maximisers.
  • 1955: Herbert Simon: Bounded Rationality: Humans are not computer-like infinite information processors. Heuristics.
  • Economics experiments: Humans are not totally self-interested.
development of behavioral finance ii
Development of Behavioral Finance II.
  • Anomalies: Efficient Capital Markets.
  • Excessive volatility.
  • Excessive trading.
  • Over and under-reaction to news.
  • 1980’s: Werner DeBondt: coined the term Behavioral Finance.
  • Prospect Theory: Kahnemann and Tversky 1980s.
development iii
Development III
  • BF takes findings from psychology.
  • Incorporates human biases into finance.
  • Which psychological biases? Potentially infinite.
  • Bounded rationality/bounded selfishness/bounded willpower.
  • Bounded rationality/emotions/social factors.
potential biases
Potential biases.
  • Overconfidence/optimism
  • Regret.
  • Prospect Theory/loss aversion.
  • Representativeness.
  • Anchoring.
  • Gambler’s fallacy.
  • Availability bias.
  • Salience….. Etc, etc.
focus in literature
Focus in Literature
  • Overconfidence/optimism
  • Prospect Theory/loss aversion.
  • Regret.
prospect theory
Prospect Theory.

U

Risk-averse in gains

W

Eg: Disposition Effect:

Sell winners too quickly.

Hold losers too long.

Risk-seeking in losses

overconfidence
Overconfidence.
  • Too much trading in capital markets.
  • OC leads to losses?
  • But : Kyle => OC traders out survive and outperform well-calibrated traders.
behavioral corporate finance
Behavioral Corporate Finance.
  • Much behavioral research in Financial Markets.
  • Not so much in Behavioral CF.
  • Relatively new: Behavioral CF and Investment Appraisal/Capital Budgeting/Dividend decisions.
slide202

Forms of Irrationality.

  • Bounded Rationality (eg Mattson and Weibull 2002, Stein 1996).
  • - Limited information: Information processing has a cost of effort.
  • - Investors => internet bubble.
  • b) Behavioural effects of emotions:
  • -Prospect Theory (Kahneman and Tversky 1997).
  • Regret Theory.
  • Irrational Commitment to Bad Projects.
  • Overconfidence.
  • C) Catering – investors like types of firms (eg high dividend).
slide203

Bounded rationality (Mattson and Weibull 2002).

  • Manager cannot guarantee good outcome with probability of 1.
  • Fully rational => can solve a maximisation problem.
  • Bounded rationality => implementation mistakes.
  • Cost of reducing mistakes.
  • Optimal for manager to make some mistakes!
  • CEO, does not carefully prepare meetings, motivate and monitor staff => sub-optimal actions by firm.
slide204

Regret theory and prospect theory (Harbaugh 2002).

  • -Risky decision involving skill and chance.
  • manager’s reputation.
  • Prospect theory: People tend to favour low success probability projects than high success probability projects.
  • Low chance of success: failure is common but little reputational damage.
  • High chance of success: failure is rare, but more embarrassing.
  • Regret theory: Failure to take as gamble that wins is as embarrassing as taking a gamble that fails.
  • => Prospect + regret theory => attraction for low probability gambles.
slide205

Irrational Commitment to bad project.

  • Standard economic theory – sunk costs should be ignored.
  • Therefore- failing project – abandon.
  • But: mgrs tend to keep project going- in hope that it will improve.
  • Especially if manager controlled initial investment decision.
  • More likely to abandon if someone else took initial decision.
slide206

Real Options and behavioral aspects of ability to revise (Joyce 2002).

  • Real Options: Flexible project more valuable than an inflexible one.
  • However, managers with an opportunity to revise were less satisfied than those with standard fixed NPV.
slide207

Overconfidence and the Capital Structure (Heaton 2002).

  • -Optimistic manager overestimates good state probability.
  • Combines Jensen’s free cashflow with Myers-Majluf Assymetric information.
  • Jensen- free cashflow costly – mgrs take –ve NPV projects.
  • Myers-Majluf- Free cashflow good – enables mgs to take +ve NPV projects.
  • Heaton- Underinvestment-overinvestment trade-off without agency costs or asymmetric info.
slide208

Heaton (continued).

  • Mgr optimism – believes that market undervalues equity = Myers-Majluf problem of not taking +ve NPV projects => free cash flow good.
  • But : mgr optimism => mgr overvalues the firms investment opportunities => mistakenly taking –ve NPV project => free cash flow bad.
  • Prediction: shareholders prefer:
  • Cashflow retention when firm has both high optimism and good investments.
  • cash flow payouts when firm has high optimism and bad investments.
slide209

Rational capital budgeting in an irrational world. (Stein 1996).

  • -Manager rational, investors over-optimistic.
  • - share price solely determined by investors.
  • How to set hurdle rates for capital budgeting decisions?
  • adaptation of CAPM, depending on managerial aims.
  • manager may want to maximise time 0 stock price (short-term).
  • May want to maximise PV of firm’s future cash flows (long term rational view).
slide210

Effect of Managerial overconfidence, asymmetric Info, and moral hazard on Capital Structure Decisions.

  • Rational Corporate Finance.
  • -Capital Structure: moral hazard + asymmetric info.
  • -Debt reduces Moral Hazard Problems
  • -Debt signals quality.
  • Behavioral Corporate Finance.
  • managerial biases: effects on investment and financing decisions
  • Framing, regret theory, loss aversion, bounded rationality.
  • OVERCONFIDENCE/OPTIMISM.
overconfidence optimism
Overconfidence/optimism
  • Optimism: upward bias in probability of good state.
  • Overconfidence: underestimation of asset risk.
  • My model =>
  • Overconfidence: overestimation of ability.
overconfidence good or bad
Overconfidence: good or bad?
  • Hackbarth (2002): debt decision: OC good.
  • Goel and Thakor (2000): OC good: offsets mgr risk aversion.
  • Gervais et al (2002), Heaton: investment appraisal, OC bad => negative NPV projects.
  • Zacharakis: VC OC bad: wrong firms.
overconfidence and debt
Overconfidence and Debt
  • My model: OC => higher mgr’s effort (good).
  • But OC bad, leads to excessive debt (see Shefrin), higher financial distress.
  • Trade-off.
slide214

Behavioral model of overconfidence.

Both Managers issue debt:

slide216

Proposition 1.

  • If

c)

Overconfidence leads to more debt issuance.

overconfidence and moral hazard
Overconfidence and Moral Hazard
  • Firm’s project: 2 possible outcomes.
  • Good: income R. Bad: Income 0.
  • Good state Prob:
  • True:
  • Overconfidence:
  • True success prob:
effect of overconfidence and security on mgr s effort
Effect of Overconfidence and security on mgr’s effort
  • Mgr’s effort is increasing in OC.
  • Debt forces higher effort due to FD.
effect of oc on security choice
Effect of OC on Security Choice

Manager issues Equity.

Manager issues Debt.

results
Results
  • For given security: firm value increasing in OC.
  • If
  • Firm value increasing for all OC: OC good.
  • Optimal OC:
  • If
  • Medium OC is bad. High OC is good.
  • Or low good, high bad.
results continued
Results (continued).
  • If
  • 2 cases: Optimal OC:
  • Or Optimal OC:
conclusion
Conclusion.
  • Overconfidence leads to higher effort level.
  • Critical OC leads to debt: FD costs.
  • Debt leads to higher effort level.
  • Optimal OC depends on trade-off between higher effort and expected FD costs.
future research1
Future Research
  • Optimal level of OC.
  • Include Investment appraisal decision
  • Other biases: eg Refusal to abandon.
  • Regret.
  • Emotions
  • Hyperbolic discounting
  • Is OC exogenous? Learning.
emotional finance
Emotional Finance
  • Fairchild’s Concorde case study.