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The global credit crisis was a major event that shook the business world in 2007 and 2008. With the crisis in the back of our minds, it is essential for corporate managers to understand how to value investments accurately, choose the best funding mix for their operations, manage the risk of their short- and long-term capital, and satisfy the expectations of their investors.
1. What is Corporate Finance?
When starting a firm, one needs to make investments in assets such as inventory, machinery, and labor. Eventually, when selling the products you produce, the firm generates cash. In other words, the objective of a firm is to create value for the owner. This is the basis of value creation, which is explained in a simple balance sheet model of the firm (figure 1.1, p. 2).
The Balance Sheet Model of the Firm
The model depicts the assets of the firm on the left side, which can be divided in two categories:
Non-current assets: long-term assets that will last a long time (buildings). Some are tangible (machinery), others are intangible (patents)
Current assets: short-term assets, which will leave the firm shortly (inventory)
The forms of financing are depicted on the right side of the balance sheet, which can be divided in two categories:
Non-current liabilities: long-term debt that does not have to be repaid within one year
Current liabilities: short-term debt and other obligations that must be repaid within one year
Referring to the balance sheet of the firm, we can see why finance can be thought of as the study of the following terms:
Capital budgeting: describes the process of making and managing expenditures on long-lived assets
Capital structure: represents the proportions of the firm’s financing from current and long-term debt and equity
Net working capital: current assets minus the current liabilities
Capital Structure
Creditors, bondholders or debt holders are people or institutions that lend money to firms. The holders of equity shares are called shareholders. The value of the firm (V) is written as:
V = B + S
B: Market value of debt
S: Market value of equity
V: Value of the firm
The Financial Manager
The financial manager is responsible for the finance activity within a firm. The most important task is to create value from the firm’s capital budgeting, financing, and net working capital activities. Simply put, the firm must create more cash flow than it uses. To put this process into perspective, the cash flow from the firm to the financial markets is followed and traced back (figure 1.3, p. 6).
Identification of cash flows: since it is difficult to observe cash flows directly. Much of the information we obtain is in the form of accounting statements, and much of the work of financial analysis is to extract cash flow information from accounting statements.
Timing of cash flows: the value of an investment made by a firm depends on the timing of cash flows. One of the most important principles of finance is that individuals prefer to receive cash flows earlier rather than later.
Risk of cash flows: the amount and timing of cash flows are not usually known with certainty. Most investors have an aversion to risk.
The Goal of Financial Management
A few possible financial goals to consider:
Beat the competition
Minimize costs
Maximize profits
Although there are numerous other goals one could think of, these are the ones that come to mind most often. All the goals are different, but we can roughly categorize them in two classes:
Profitability: the goals listed in this category involve sales, market shares and cot control. All are related to earning or increasing profits.
Bankruptcy avoidance: the goals listed in this category involve stability and safety. They relate to the controlling of risks.
However, we can also look at the goal of the financial manager from a shareholder’s point of view. In this context, the financial manager should act in the shareholders’ best interest by making decisions that increase the value of the company’s shares. The corresponding goal of the financial manager would therefore be:
The goal of financial management is to maximize the share price of the company.
More precise, the goal is to maximize the current share value. From this perspective, we can define corporate finance as the study of the relationship between business decisions and the value of the shares in the business.
Financial Markets
Firms require cash in order to invest in projects. They must choose whether to borrow money or sell fractions of ownership of their firm. When borrowing money, the firm agrees to pay back the borrowed amount with interest. There are several options to choose from:
The firm can go to a bank for a loan
The firm can issue debt securities. These are contractual obligations to repay corporate borrowing.
If the firm chooses to give up leadership, it sells parts of the firm for a set amount of money. There are several ways to do this:
Through private negotiation
Through a public sale, this is undertaken through the marketing and sale of equity securities. Equity securities are shares (known as ordinary shares or common stock) that represent non-contractual claims on the residual cash flow of the firm. Issues of debt and equity that are publicly sold by the firm are then traded in the financial markets.
The financial markets consist of the money markets and the capital markets:
Money markets are the markets for debt securities that will pay off in the short term (within a year). It also applies to a group of loosely connected markets.
Capital markets are the markets for long-term debts (longer than a year) and for equity shares.
The money market consists of a dealer market and an agency market. A dealer market refers to firms that make continuous quotations of prices for which they stand ready to buy and sell money market instruments for their own inventory and at their own risk. The difference between the dealer’s buying and selling price is known as the bid-ask spread.
On the other hand, in an agency market, a stockbroker is acting as an agent for a customer in buying or selling shares. The stockbrokers (or agents) do not acquire the securities for themselves (figure 1.4, p. 10).
The Primary Market: New Issues
A market used when governments and public corporations want to sell securities. Corporations engage in two types of primary market sales of debt and equity: public offerings and private placements.
Secondary Markets
This transaction within this market involves one owner or creditor selling to another. Means for transferring ownership of corporate securities are provided by this market. There are two kinds of secondary markets:
Dealer markets: when trading equities and long-term debt, these markets are called over-the-counter (OTC) markets. Most of the buying and selling is done by a dealer.
Auction markets: differs from dealer markets in two ways. First, an auction market or exchange has a physical location (e.g. Wall Street New York). Second, the main purpose of an auction market is to match those who wish to sell with those who with to buy. Dealers play a limited role.
Listing
Company shares that are being traded on an organized exchange are said to be listed on that exchange. There are a few criteria which have to be met in order to be listed. The company must have at least 25 per cent of its shares listed on the exchange, and the value of these shares must be at least 5 million. Apart from that, the listing firm must have at least three years of financial accounts filed with the regulator. And finally, all of the company’s financial statements must follow recognized international financial reporting standards, also known as IFRS.
Summary and Conclusions
This chapter introduced some of the basic ideas in corporate finance.
There are three main areas of concern:
Capital budgeting: What long-term investments should the firm take?
Capital structure: Where will the firm get the long-term financing to pay for its investments? Also, what mixture of debt and equity should it use to fund operations?
Working capital management: How should he firm manage its everyday financial activities?
The goal of financial management in a for-profit business is to make decisions that increase the value of the shares or, more generally, increase the market value of the equity.
2.1 The Corporate Firm
A firm is a way of organizing the economic activity of many individuals. Raising cash is one of the many problems a firm has to deal with.
The Sole Proprietorship
A sole proprietorship is a business owned by one person, which is the most common form of business structure in the world. As the owner of a sole proprietorship, one can hire as many people as needed and borrow whatever money is required. There are a few important factors considering a sole proprietorship:
A sole proprietorship is the cheapest business form.
A sole proprietorship pays no corporate income taxes. All profits are taxed as individual income.
No distinction is made between personal and business assets. If a sole proprietorship owes has debt which it cannot pay, the owner’s own possessions must be used to repay the debts.
The life of the sole proprietorship is limited by the life of the sole proprietor.
Because the only money invested in the firm is the proprietor’s, the equity money that can be raised by the sole proprietor is limited to the proprietor’s personal wealth.
The Partnership
A partnership is formed with two or more people. There are two categories:
General partnerships: all partners agree to provide some fraction of the work and cash and to share the profits and losses. Also, each partner is liable for all of the debts.
Limited partnerships: these permit the liability of some of the partners to be limited to the amount of cash each has contributed to the partnership. Limited partnership usually requires at least one partner to be a general partner and the limited partners do not participate in managing the business.
There are a few important factors considering a partnership:
Partnerships are inexpensive and easy to form. Complicated arrangements require written documents. Business licenses and filing fees may also be necessary.
General partners have unlimited liability for all debts. Limited partners are limited to the contribution each has made to the partnership.
The general partnership is terminated when a general partner dies or withdraws (not the case for a limited partner).
Equity contributions are limited to a partner’s ability and desire to contribute to the partnership. Therefore it is difficult to raise large amounts of cash.
Income from a partnership is taxed as personal income to the partners.
Management control lies with the general partners.
The Corporation
The corporation is by far the most important form of business enterprise. A corporation can have a name and enjoy many of the legal powers of natural persons. When starting a corporation, one needs to prepare articles of incorporation and a memorandum of association. These must include:
Name of the corporation
Intended life of the corporation (may be for ever)
Business purpose
Number of shares that the corporation is authorized to issue
Nature of the rights granted to shareholders
Number of members of the initial board of directors
A corporation will normally start off as a private limited corporation, in which the shares of the firm are not permitted to be traded or advertised in the public arena. In small corporations, there may be a large overlap among the shareholders, the directors and the top management. On the other side, in larger corporations the shareholders, directors and top management are likely to be distinct groups. The corporation will then comprise four sets of distinct interests: the shareholders (the owners), the directors, the corporation officers (top management), and the firm’s stakeholders (e.g. lenders, employees, local community).
The separation of ownership from management gives the corporation several advantages over proprietorships and partnerships:
Because ownership is represented by shares and equity, it can be readily transferred to new owners.
The corporation has unlimited life. Death or withdrawal of an owner does not affect the corporation’s legal existence.
The shareholders’ liability is limited to the amount invested in the ownership shares.
One great disadvantage to corporations is that there is an effect of double taxation when compared with taxation on proprietorships and partnerships. Many countries tax corporate income in addition to the personal income tax that shareholders pay.
Bank-based versus Market-based Financial Systems
In a bank-based financial system, banks play a major role in facilitating the flow of money between investors with surplus cash and organizations that require funding. Corporations in countries with a well –developed financial market, will find it easier to raise money by issuing debt and equity to the public than through bank borrowing. In market-based systems, financial markets take on the role of the main financial intermediary. Corporations in countries with bank-based systems have very strong banks, which actively monitor corporations and are often involved in long-term strategic decisions.
2.2 The Agency Problem and Control of the Corporation
Financial managers (should) act in the best interests of the shareholders.
Agency Relationships
The relationship between shareholders and management is called an agency relationship. Basically, it means that someone (the principal) hires another (the agent) to represent his or her interests. A conflict between the principal and the agent is called an agency problem.
Management Goals
The term agency cost refers to the costs of the conflict of interest between shareholders and management. These costs can be indirect or direct:
Indirect agency cost is a lost opportunity
Direct agency costs come in two forms. The first type is a corporate expenditure that benefits management but costs the shareholders. The second type of direct agency cost is an expense that arises from the need to monitor management actions.
Do Managers act in the Shareholders’ Interests?
Whether managers will act in the best interests of shareholders depends on two factors:
How closely are management goals aligned with shareholder goals?
Can managers be replaced if they do not pursue shareholder goals?
When managers do act in the best interest of the shareholders, they can achieve many advantages. For example, managers who perform better will tend to get promoted. Managers who are successful in pursuing shareholders goals will be in greater demand in the labor market and thus command higher salaries.
An important mechanism by which unhappy shareholders can replace existing management is called a proxy fight.
Stakeholders
Apart from shareholders, there are other parties that have a financial interest in the firm, such as the employees, customers, suppliers and the government. These groups together are called stakeholders. Apart from the shareholders and creditors, the stakeholders also have a potential claim on the cash flows of the firm.
2.3 The Governance Structure of Corporations
The Sole Proprietorship
All business activities are concentrated in one individual, the owner/manager. Business decisions, long-term strategy, short-term cash management, and financing decisions are all made by the owner/manager. All functions, sometimes with the exception of a few, are being conducted by the owner. They are executed informally on a day-to-day basis. In these types of organizations there is no real need for formal governance structures.
Partnerships
Partnerships are similar to a sole proprietorship in many ways. However, all the partners are personally liable for all of their firm’s debts. Every partnership will have some form of partnership agreement that governs the financial affairs of the firm.
Corporations
A corporation is a separate legal entity; therefore the informality that is common among sole proprietorships and partnerships is substituted by the formal corporate governance structure. A formal structure is necessary because the owners of the firm are less likely to be involved in management.
2.4 The 2004 OECD Principles of Corporate Governance
The 2004 OECD Principles of Corporate Governance set the basis by which individual countries can set their own corporate governance codes. The principles are centered on six major areas, and concern all aspects of corporate governance.
1. Ensuring the Basis for an Effective Corporate Governance Framework
The corporate governance framework should promote transparent and efficient markets, be consistent with the rule of law and clearly articulate the division of responsibilities among different supervisory, regulatory and enforcement authorities.
2. The Rights of Shareholders and Key Ownership Functions
The corporate governance framework should protect and facilitate the exercise of shareholders’ rights.
3. The Equitable Treatment of Shareholders
The corporate governance framework should ensure the equitable treatment of all shareholders, including minority and foreign shareholders. All shareholders should have the opportunity to obtain effective redress for violation of their rights. This principle also holds that company insiders should be forbidden from trading when they have private specific and precise information that could be used to benefit themselves personally at the expense of other shareholders. This is known as insider dealing, and is illegal in most countries.
4. The Role of Stakeholders in Corporate Governance
The corporate governance framework should recognize the rights of stakeholders established by law or through mutual agreements and encourage active co-operation between corporations and stakeholders in creating wealth, jobs, and the sustainability of financially sound enterprises.
5. Disclosure and Transparency
The corporate governance framework should ensure that timely and accurate disclosure is made on all material matters regarding the corporation, including the financial situation, performance, ownership, and governance of the company.
6. The Responsibilities of the Board
The corporate governance framework should ensure the strategic guidance of the company, the effective monitoring of management by the board, and the board’s accountability to the company and the shareholders.
Bringing it All Together
The basis of all good corporate finance decisions is a sound framework of corporate governance. A company with a weak corporate governance may make decisions that do not maximize share values. For example, a firm may choose to invest in projects that maximize managers’ own wealth and not that of the shareholders.
Summary and Conclusions
Corporate governance is concerned with the way in which a firm is managed. The financial manager must make the best financial decisions in the interests of the company’s shareholders. Unfortunately, this is not always the case.
Part Two: Value and Capital Budgeting
Key Notations
ACP: Average collection period
b: Ploughback (or retention) ratio
CF: Cash flow
EBIT: Earnings before interest and taxes
EBITD: Earnings before interest, taxes, and depreciation
EFN: External financing needed
EPS: Earnings per share
P/E: Price-earnings ratio
ROA: Return on assets
ROE: Return on equity
SIC: Standard Industrial Classification
TIE: Times interest earned ratio
3.1 The Statement of Financial Position
The statement of financial position (or balance sheet) is an accountant snapshot of a firm’s accounting value on a particular date. The assets are on the left, while the liabilities and shareholders’ equity are on the right. The accounting definition that underlies the statement of financial position and describes the relationship is:
Assets = Liabilities + Shareholders’ equity
Liquidity
Liquidity refers to the ease and rapidity with which assets can be converted into cash. Liquidity includes:
Current assets are the most liquid, including cash and assets that will be turned into cash within a year.
Non-current assets: the least liquid kind of assets. Tangible non-current assets include property, plant, and equipment, intangible assets have no physical existence but can be very valuable (trademark, patents).
Trade receivables: amounts that are not yet collected from customers for goods or services sold to them.
Inventories: are composed of raw materials to be used in production, work in process, and finished goods.
Debt versus Equity
Liabilities are obligations of the firm that require a payout of cash within a stipulated period. Shareholders’ equity is a claim against the firm’s assets that is residual and not fixed. It is the residual difference between assets and liabilities:
Assets – Liabilities = Shareholders’ equity
Value versus Cost
The accounting value of the firm’s assets is frequently referred to as the book value of the assets. Since 2005, all EU countries have been required to use International Financial Reporting Standards (IFRS). However, the US uses what is known as Generally Accepted Accounting Principles (GAAP). The main difference is that under GAAP the audited financial statements of firms value assets such as property, plant, and equipment at cost. This book accounts IFRS as the main accounting system.
3.2 The Income Statement
The income statement measures performance over a specific period. The accounting definition of income is:
Revenue – Expenses = Income
Non-Cash Items
There are several non-cash items which are expenses against revenues but do not affect cash flow:
Depreciation: reflects the accountant’s estimate of the cost of equipment used up in the production process.
Deferred taxes: result from differences between accounting income and true taxable income.
Time and Costs
It is useful to think of time as two distinct parts:
Short run: the period in which certain equipment, resources and commitments of the firm are fixed
Long run: all costs are variable
3.3 Taxes
Taxes can be one of the largest cash outflows of a firm. The size of the tax bill is determined by the tax code, an often amended set of rules.
Corporate Tax Rates
Table 3.3 (p. 47) gives an overview of corporate tax rates around the world.
Average versus Marginal Tax Rates
The average tax rate is the tax bill divided by your taxable income. In other words, the percentage of the income that goes to pay taxes. The marginal tax rate is the tax you would pay (in per cent) if you earned one more unit of currency.
3.4 Net Working Capital
Net working capital is the current assets minus current liabilities. In addition to investing in fixed assets, a firm can invest in net working capital. This is called the change in net working capital.
3.5 Cash Flow
One of the most important items that can be extracted from financial statements, is the actual cash flow of the firm. Cash flow is not the same as net working capital. Just as we established that the value of the firm’s assets is always equal to the combined value of the liabilities and the value of the equity, the cash flows received from the firm’s assets (operating activities), CF (A), must equal the cash flows to the firm’s creditors, CF (B), and equity investors, CF (S):
CF(A) = CF(B) + CF(S)
In order to determine the cash flows of a firm, we need to:
Determine the operating cash flow, or net cash provided by operating activities
Determine changes in cash flow from investing activities, or investing activities
Some important observations that can be drawn from out discussion of cash flow:
Several types of cash flow are relevant to understanding the financial situation of the firm. Operating cash flow measures the cash generated from operations, not including investments. The total cash flow of the firm includes adjustments for capital spending and new financing.
Profit is not cash flow.
3.6 Financial Statement Analysis
Standardizing Statements
One thing we might do with a company’s financial statements is compare it to those of other, similar companies. However there are always differences between firms in size. In order to make comparisons, we have to standardize the financial statements. The resulting financial statements are called common-size statements. In this form, financial statements are relatively easy to read and compare.
Common-Size Income Statements
A useful way of standardizing the income statement is to express each item as a percentage of total revenues.
3.7 Ratio Analysis
Another way to compare companies is to calculate and compare financial ratios. These ratios are ways of comparing and investigating the relationship between different pieces of financial information.
Short-Term Solvency or Liquidity Measures
Short-term solvency ratios are intended to provide information about a firm’s liquidity (also called liquidity measures). These ratios focus on current assets and current liabilities.
One of best-known and most widely used ratios is the current ratio. To a creditor, the higher the current ratio, the better. To the firm, a high current ratio indicates liquidity, but it also may indicate an inefficient use of cash and other short-term assets. It is defined as:
Current ratio = Current assets/Current liabilities
Quick (or Acid-Test) Ratio is a ratio regarding the inventory of a firm. It is defined as:
Quick ratio = (Current assets – Inventory)/Current liabilities
Cash ratio, a ration that might be very interesting for short-term creditors. It is defined as:
Cash ratio = Cash and cash equivalents/Current liabilities
Long-Term Solvency Measures
Long-term solvency ratios are intended to address the firm’s long-run ability to meet its obligations, or more generally, its financial leverage. These ratios are called financial leverage ratios or just leverage ratios.
The Total Debt Ratio takes into account all debts of all maturities to all creditors. It is defined as:
Total debt ratio = (Total assets – Total equity)/Total assets
We can define two useful variations on the total debt ratio: the debt-equity and the equity multiplier:
Debt- equity ratio = Total debt / Total equity
Equity multiplier = Total assets / Total equity
Time Interest Earned is another common measure of long-term solvency. It measures how well a company has its interest obligations covered. It is defined as:
Times interest earned ratio = EBIT/Interest
A problem with the TIE ratio is that it is based on EBIT, which is not really a measure of cash available to pay interest. The reason if that depreciation, a non-cash expense, has been deducted out. Therefore we can define the interest (which is definitely a cash outflow) with the cash coverage ratio. It is defined as:
Cash coverage ratio = EBIT+Depreciation/Interest
Asset Management or Turnover Measures
Asset management or utilization ratios are intended to describe how efficiently, or intensively, a firm uses its assets to generate sales.
Inventory Turnover and Day’s Sales in Inventory
Inventory turnover = Cost of goods sold/Inventory
Days’ sales in inventory = 365 days/Inventory turnover
Receivable Turnover and Days’ Sales in Receivables give us an indication of how fast we can sell products.
Receivable turnover = Sales/Trade receivables
Days’ sales in receivables = 365/Receivables turnover
Total Asset Turnover provides a ‘big pictures’ ratio. It is defined as:
Total asset turnover = Sales/Total assets
Profitability Measures
These measures are intended to measure how efficiently the firm uses its assets, and how efficiently the firm manages its operations. The focus is the net income.
Profit Margin is defined as:
Profit margin = Net income/Sales
Return on Assets (ROA) is a measure of profit per asset value. It can be defined as:
Return on assets = Net income/Total assets
Return on Equity (ROE) is a measure of how the shareholders fared during the year. Since benefiting the shareholders is out goal, ROE is, in an accounting sense, the true bottom-line measure of performance. It is usually defined as:
Return on equity = Net income/Total equity
Market Value Measures
The final group of measures is based on information about the share price (not necessarily contained in the financial statements).
Earnings Per Share (EPS) is defined as:
EPS = Net income/Shares outstanding
Price-Earnings Ratio (PE ratio) is defined as:
PE ratio = Price per share/Earnings per share
Market-to-Book Ratio is defined as:
Market-to-book ratio = Market value per share/Book value per share
3.8 The Du Pont Identity
The difference between ROA and ROE reflects the use of debt financing or financial leverage.
A Closer Look at ROE
We could multiply ROE by Assets/Assets without changing anything:
Return on equity = Net income/Total equity
= (Net income/Total equity) x (Assets/Assets)
= (Net income/Assets) x (Assets/Total equity)
Now that we have expressed the ROE as the product of two other ratios, ROA and the equity multiplier:
ROE = ROA x Equity multiplier = ROA x (1 + Debt-equity ratio)
The difference between ROE and ROA can be substantial, particularly for certain businesses. We can further decompose ROE by multiplying the top and bottom by total sales:
ROE = (Net Income/Sales) x (Sales/Assets) x (Assets/Total Equity)
If we rearrange this a bit, ROE is:
ROE = (Net Income/Sales) x (Sales/Assets) x (Assets/Total Equity)
= Profit margin x total asset turnover x equity multiplier
We have now partitioned ROA into its two component parts: profit margin and total asset turnover. The last expression of the preceding equation is called the Du Pont identity, which is defined as:
ROE = Profit margin x total asset turnover x Equity multiplier
The Du Pont identity tells us that TOE is affected by three things:
Operating efficiency (as measured by profit margin)
Asset use efficiency (as measured by total asset turnover)
Financial leverage (as measure by the equity multiplier)
3.9 Using Financial Statement Information
Choosing a Benchmark
Time Trend Analysis: One standard we could use is history. Did the company make changes that could allow it to use its current assets more efficiently for example.
Peer Group Analysis: indentify firms that are similar in the sense that they compete in the same markets, have similar assets and operate in similar ways. Also called a peer group. One way of indentifying peers is based on Standard Industrial Classification (SIC) codes. These are alphabetical categories subdivided by four-digit codes that are used for statistical reporting purposes.
Problems with Financial Statement Analysis
Many firms are conglomerates, owning more less unrelated lines of business. The kind of peer group analysis we have been describing is going to work best when the firms are strictly in the same line of business, the industry is competitive, and there is only one way of operating. Another problem that is becoming increasingly common is that major competitors and natural peer group members in an industry may be scattered around the globe.
3.10 Long-Term Financial Planning
Another important use of financial statements is long-term planning.
The Percentage of Sales Approach
Our goal when using the percentages of sales approach, is to develop a quick and practical way of generating predicted financial accounts.
The Income Statement, is calculated with the dividend payout ratio:
Dividend payout ratio = Cash dividends / Net income
The Statement of Financial Position, is calculated with the amount external financing needed (EFN)
EFN = ((Assets/Sales) x ∆Sales) – ((Spontaneous liabilities/Sales) x ∆Sales)
- [(PM x Projected sales) x (1-d)]
3.11 External Financing and Growth
Financial Policy and Growth
There is a link between growth and external financing.
The Internal Growth Rate is the maximum growth rate that can be achieved with no external financing of any kind. It is defined as:
Internal growth rate = (ROA x b)/(1-ROAx b)
The Sustainable Growth Rate is the maximum growth rate a firm can achieve with no external equity financing while it maintains a constant debt-equity ratio. It is defined as:
Sustainable growth rate = (ROE x b)/(1-ROE x b)
Summary and Conclusions
This chapter focuses on working with information contained in financial statements. Specifically, we studied standardized financial statements, ratio analysis, and long-term financial planning.
Differences in firm size make it difficult to compare financial statements, and we discussed how to form common-size statements to make comparisons easier and more meaningful
Evaluating ratios of accounting numbers is another way of comparing financial statement information. We defined a number of the most commonly used ratios, and we discussed Du Pont identity.
We showed how pro forma financial statements can be generated and used to plan for future financing needs.
Key notations:
APR: Annual percentage rate
Co: Cash to be invested at date 0
Ct: Cash flow at date T
EAR: Effective annual rate
EAY: Effective annual yield
FV: Future value
g: Rate of growth
NPV: Net present value
PV: Present value
r: Rate of return, or discount rate
r²: interest on interest
T: Number of periods
TCC: Total charge for credit
4.1 Valuation: The One-Period Case
The future value (FV) or compound value is the value of a sum after investing over one or more periods. An alternative method employs the concept of present value (PV). The formula for PV can be written as follows:
Present value of investment (PV) = C1/(1+r)
Where C1 is the cash flow at date 1, and r is the rate of return. Also referred to as the discount rate.
Frequently, businesspeople want to determine the exact cost or benefit of a decision. The formula for the net present value (NPV) can be written as follows:
Net present value of investment (NPV) = -Cost + PV
4.2 Valuation: The Multi-Period Case
The previous section presented the calculation of future value and present value for one period only. We shall now perform the calculations for the multi-period case.
Future Value and Compounding
The process of leaving the money in the financial market and lending it for another year is called compounding. The lender gets back an amount r², which is the interest in the second year on the interest that was earned in the first year. The term 2 x r represents simple interest over the two years, and the term r² is referred to as the interest on interest.
When cash is invested at compound interest, each interest payment is reinvested. With simple interest, the interest is not reinvested. In addition, the longer the loan lasts, the more important interest on interest becomes. The general formula for an investment over many periods can be written as follows:
Future value of an investment :
FV = Co x (1+r)^T
Where Co is the cash to be invested at date o, r is the interest rate per period, and T is the number of periods over which the cash is invested.
Present Value and Discounting
The process of calculating the present value of a future cash flow is called discounting. It is the opposite of compounding. The present value factor is the factor used to calculate the present value of a future cash flow. In the multi-period case, the formula for PV can be written as follows:
Present value of investment, PV = CT/(1-r)^T
Here, CT is the cash flow at date T and r is the appropriate discount rate.
The Algebraic Formula
To derive an algebraic formula for the net present value of a cash flow, recall that the PV of receiving a cash flow one year from now is:
PV = C1/(1+r)
And the PV of receiving a cash flow two years from now is:
PV = C2/(1+r)²
We can write the NPV of a T-period as:
NPV = - Co + C1/(1+r) + C2/(1+R²) + …..+ Cr/(1+r)^T
The initial flow, -Co is assumed to be negative because it represents an investment.
4.3 Compounding Periods
So far, we have assumed that compounding and discounting occur yearly. Sometimes, compounding may occur more frequently than just once a year. More generally, compounding an investment m times a year provides end-of-year wealth of
Co (1+(r / m))^m
Where Co is the initial investment and r is the stated annual interest rate. The stated annual interest rate is the annual interest rate without consideration of compounding.
Compounding over Many Years
For an investment over one or more (T) years, the formula becomes:
FV = Co (1+(r / m))^mT
The Annual Percentage Rate
The EU has introduced a directive in 2004 that harmonized the way in which interest rates in any credit agreement for under €50,000 are presented. This harmonized interest rate is called the annual percentage rate (APR); it expresses the total cost of borrowing or investing as a percentage interest rate.
PV = Co + C1/(1+APR) + C2/(1+APR)² +…….+ CT/(1+APR)^T
Continuous Compounding
The limiting case would be to compound every infinitesimal instant, which is commonly called continuous compounding. With continuous compounding, the value at the end of T years is expressed as:
Co x e^rT
Where Co is the initial investment, r is the stated annual interest rate, and T is the number of years over which the investment runs. The number e is a constant.
4.4 Simplifications
Although the concepts introduced earlier allow us to answer a lot os problems concerning the time value of money, the human effort involved can be excessive. Therefore we seek for simplifications. We provide simplifying formulae for four classes of cash flow stream:
Perpetuity
Growing perpetuity
Annuity
Growing annuity
Perpetuity
Perpetuity is a constant stream of cash flows without end. Simply applying the PV formula gives us:
PV = C/(1+r) + C/(1+r)² + C/(1+r)³ + …
The dots indicate the infinite string of terms that continues the formula. Series like this one are called geometric series.
PV = C/(1+r)+ C/(1+r)²+ C(1+r)³ + …= C/r
Growing Perpetuity
If a cash flow is expected to rise 10 per cent each year, and one assumes that this rise will continue indefinitely, the cash flow stream is termed a growing perpetuity. The present value of the cash flows can be represented as:
PV = C/(1+r )+ C_x (1+g)/(1+r)²+ C x (1+g)² /(1+r)³ + …+ C x (1+g)^N/ (1+r)^N + …
Where C is the cash flow to be received one period hence, g is the rate of growth per period, expressed as a percentage, and r is the appropriate discount rate. It can be reduced to the following simplification:
PV = C/(r-g)
Annuity
An annuity is a level stream of regular payments that lasts for a fixed number of periods. Annuities are among the most common kinds of financial instruments. The present value of an annuity can be calculated with the following function:
PV = C/(1+r) + C/(1+r)² + C/(1+r)³ + ….+ C/(1+r)^T
This can be simplified to the following:
PV = C [(1-(1 / (1+r)^T)) / r ]
We can also provide a formula for the future value of an annuity:
FV = C [((1 / (1+r)^T)) /(1- r) ] = C [((1 / (1+r)^T) – 1) / r ]
Growing Annuity
The growing annuity is a finite number of growing cash flows. The formula is the following:
PV = C [(1 / r-g) – (1 / r-g) x (1+g / 1+r)^T]
Summary and Conclusions
This chapter introduced two basic concepts, future value and present value. There are a few practical considerations in the application of all the formulas:
The numerator in each of the formulae, C, is the cash flow to be received one full period hence
Cash flows are generally irregular in practice. To avoid unwieldy problems, assumptions to create more regular cash flows are made both in this textbook and in the real world.
A number of present value problems involve annuities beginning a pew periods hence.
Annuities and perpetuities may habe periods of every two or every n years, rather than once a year.
We frequently encounter problems where the present value of one annuity must be equated with the present value of another annuity.
Key Notations:
AAR: Average accounting return
IRR: Internet rate of return
NPV: Net present value
PI: Profitability index
R: Discount rate
6.1 Why Use Net Present Value?
This chapter focuses on capital budgeting, the decision-making process for accepting or rejecting projects. The basic investment rule can be generalized as:
Accept a project if the NPV is greater than zero
Reject a project if NPV is less than zero
This is also called the NPV rule. The value of a firm is merely the sum of the values of the different projects, divisions, or other entities within the firm. This property, called value additivity, implies that the contribution of any project to a firm’s value is simply the NPV of the project.
Conceptually, the discount rate on a risky project is the return that one can expect to earn on a financial asset of comparable risk. This discount rate is often referred to as an opportunity cost, because corporate investment in the project takes away the shareholder’s opportunity to invest the dividend in a financial asset.
NPV is a sensible approach, but how can we tell whether alternative methods are as good as NPV? The key to NPV is its three attributes:
NPV uses cash flows. Cash flows from a project can be used for other corporate purposes. By contrast, earnings are an artificial construct.
NPV uses all the cash flows of the project. Other approaches ignore cash flows beyond a particular date.
NPV discounts the cash flows properly. Other approaches may ignore the time value of money when handling cash flows.
6.2 The Payback Period Method
Defining the Rule
One of the most popular alternatives to NPV is payback. The payback period rule for making investment decisions is simple. A particular cut-off date, say two years is selected. All investment projects that have payback periods of two years or less are accepted, and all of those that pay off in more than two years are rejected.
Problems with the Payback Method
There are at least three problems with payback:
Problem 1: Timing of Cash Flows within the Payback Period. Sometimes the payback method is inferior to NPV because, the NPV method discounts the cash flows properly.
Problem 2: Payments after the Payback Period. The NPV does not have this flaw, because the NPV uses all the cash flows of the project.
Problem 3: Arbitrary Standard for Payback Period.
Managerial Perspective
The payback method is often used by large, sophisticated companies when making relatively small decisions. The payback method also has some desirable features for managerial control. Under the NPV method a long time may pass before one decides whether a decision was correct. With the payback method we know in two years whether the manager’s assessment of the cash flows was correct.
It is surprising that as the decisions grow in importance, which is to say when firms look at bigger projects, NPV becomes the order of the day. When questions of controlling and evaluating the manager become less important than making the right decision, payback is used less frequently. For big-ticket decisions, the payback method is seldom used.
6.3 The Discounted Payback period Method
Some decision-makers use a variant called the discounted payback period method. First, we discount the cash flows. Then we ask how long it takes for the discounted cash flows to equal the initial investment. The discounted payback period of the original investment is simply the payback period for these discounted cash flows.
6.4 The Average Accounting Return Method
Defining the Rule
Another approach to financial decision-making is the average accounting system. This is the average project earnings after taxes and depreciation, divided by the average book value of the investment during its life. It is used frequently.
To continue the average accounting return (AAR) on a project, we divide the average net income by the average amount invested. This can be done in three steps:
Step 1: Determining Average Net Income. The net income in any year is the net cash flow minus depreciation and taxes. Depreciation is not a cash outflow, it is a charge reflecting the fact that the investment in the store becomes less valuable every year.
Step 2: Determining Average Investment. Because of depreciation, he investment in the store becomes less valuable every year.
Step 3: Determining AAR.
Analyzing the Average Accounting Return Method
The most important flaw with AAR is that it does not work with the right raw materials. It uses net income and book value of the investment, both of which come from the accounting figures. These accounting numbers are somewhat arbitrary. For example, certain cash outflows (such as the cost of a building), are depreciated under specific accounting rules. Other flows, such as maintenance, are expensed, the decision to depreciate of expense an item involves judgment. Thus the basic inputs of the AAR method – income and average investment – are affected by the accountant’s judgment. While the NPV method uses cash flows. Accounting judgments do not affect cash flows.
6.5 The Internal Rate of Return
One of the most important alternatives to the NPV method is the internal rate of return, universally known as the IRR. This method provides a single number summarizing the merits of a project. That number does not depend on the interest rate prevailing in the capital market. In general, the IRR is the rate that causes the NPV of the project to be zero. The implication of this exercise is very simple. The general investment rule is thus:
Accept the project if the IRR is greater than the discount rate. Reject the project is the IRR is less than the discount rate.
We refer to this as the basic IRR rule. Sometimes, the IRR rule coincides exactly with the NPV rule. However, several problems with the IRR approach occur in more complicated situations.
6.6 Problems with the IRR Approach
Definition of Independent and Mutually Exclusive Projects
An independent project is one whose acceptance or rejection is independent of the acceptance or rejection of other projects.
The other extreme is mutually exclusive investments. What does it mean for two projects, A and B to be mutually exclusive? You can accept A or you can accept B, or you can reject both, but you cannot accept both of them,
Two General Problems affecting both Independent and Mutually Exclusive Projects
Problem 1: Investing or Financing? The following rule applies:
Accept the project when the IRR is less than the discount rate. Reject the project when the IRR is greater than the discount rate.
Problem 2: Multiple Rates of Return.
6.7 The Profitability Index
The profitability index is the ratio of the present value of the future expected cash flows after initial investment divided by the amount of the initial investment. This can be presented as:
Profitability index (PI) = PV of cash flows subsequent to initial investmen/Initial investment
Calculation of Profitability Index
Application of the profitability index:
Independent projects:
Accept an independent project if PI > 1
Reject it if PI < 1
Mutually exclusive projects: when the cash flow is greater than 1.0, we should choose the bigger project.
Capital rationing: consider a case where a firm does not have enough capital to fund all positive NPV projects. This is the case of capital rationing.
Key Notations:
A(tr): Present value of annuity of 1 unit per period for T periods at interest rate per period of R
CCCTB: Common Consolidated Corporate Tax Vase
EAC: Equivalent annual cost
EBIT: Earnings before interest and taxes
NPV: Net present value
OCF: Operating cash flow
PV: Present value
T(c): Corporate tax rate
7.1 Incremental Cash Flows
Cash Flows – not Accounting Income
There is a big difference between corporate finance courses and financial accounting courses. Techniques in corporate finance generally use cash flows, whereas financial accounting generally stresses income or earnings numbers.
Corporate finance always discounts cash flows, not earnings, when performing a capital budgeting calculation. In addition, it is not enough to use cash flows. In calculating the NPV of a project, only cash flows that are incremental to the project should be used. These cash flows are the changes in the firm’s cash flows that occur as a direct consequence of accepting the project. In short, we are interested in the difference between the cash flows of the firm with the project and the cash flows of the firm without the project.
Sunk Costs
A sunk cost is a cost that has already occurred. They happened in the past, so therefore they cannot be changed by the decision to accept or reject the project. Sunk costs are not incremental cash outflows.
Opportunity Costs
A firm may have an asset that is considered being sold, leased, or employed elsewhere in the business. If the asset is used in a new project, potential revenues from alternative uses are lost. These lost revenues can meaningfully be viewed as costs. They are called opportunity costs. By taking the project, the firm forgoes other opportunities for using the assets.
Side Effects
A side effect is classified as either erosion or synergy. Erosion occurs when a new product reduces the sales, and hence the cash flows, of existing products. Synergy occurs when a new project increases the cash flows of existing projects.
Allocated Costs
Frequently a particular expenditure benefits a number of projects. Accountants allocate this cost across the different projects when determining income. However, for capital budgeting purposes, this allocated cost should be viewed as a cash outflow of a project only if it is an incremental cost of the project.
7.3 Inflation and Capital Budgeting
Inflation is an important fact of economic life, and it must be considered in capital budgeting.
Interest Rates and Inflation
For an example of a specific nominal interest rate and a specific inflation rate, see figure 7.2, page 186.
The formula between real and nominal interest rates can be written as follows:
1+ Nominal interest rate = (1+Real interest rate) x (1+Inflation rate)
Rearranging term, we have:
Real interest rate = (1+Nominal interest rate) / (1+Inflation rate) -1
The following formula is an indication:
Real interest rate = Nominal interest rate – Inflation rate
Cash Flow and Inflation
There are two types of interest rate, nominal rates and real rates. Like interest rates, cash flows can be expressed in either nominal or real terms. A nominal cash flow refers to the actual money in cash to be received. A real cash flow refers to the cash flow’s purchasing power.
Discounting: Nominal or Real?
Financial practitioners correctly stress the need to maintain consistency between cash flows and discount rates:
Nominal cash flows must be discounted at the nominal rate
Real cash flows must be discounted at the real rate
As long as one is consistent, either approach is correct.
7.4 Alternative Definitions of Operating Cash Flows
We have the following estimates:
Sales = € 2000
Costs = € 800
Depreciation = € 700
For these estimates, the earnings before interest and taxes (EBIT) is
EBIT = Sales – costs – depreciation
€ 2000 – 800 – 700 = € 500
The tax bill is:
Taxes = EBIT x t(c)
= € 500 x 0,28
= € 140
Where t(c), the corporate tax rate is 28 per cent.
Putting it together, the project operating cash flow (OCF) is:
OCF = EBIT + deprecation – taxes
= €500 + 700 – 140 = € 1060
The Bottom-Up Approach
Project net income = EBIT – Taxes
= € 500 – 140 = € 360
If we add the depreciation to both sides, we get:
OCF = Net income + Depreciation
= € 360 + 700 = € 1060
This is the bottom-up approach. We start with the accountant’s bottom line (net income) and add back any non-cash deductions such as depreciation.
The Top-Down Approach
OCF = Sales – costs – taxes
= € 2000 – 800 – 140 = € 1060
This is the top-down approach, the second variation on the basis OCF definition. Here we start at the top of the income statement with sales, and work out way down to net cash flow by subtracting costs, taxes and other expenses. We leave out any strictly non-cash items such as depreciation.
The Tax Shield Approach
OCF = (sales-costs) x (1-t(c)) + depreciation x t(c)
This approach has two components, the first part is what the project’s cash flow would be if there were no depreciation expense. The second part of OCF in this approach is the depreciation deduction multiplied by the tax rate. This is called the depreciation tax shield.
Key Notations
A(TR): Present value of annuity of 1 unit per period for T periods at interest rate per period of R
NPV: Net present value
OCF: Operating cash flow
t(c): Corporate tax rate
8.1 Sensitivity Analysis, Scenario Analysis, and Break-even Analysis
One main point of the NPV analysis is a superior capital budgeting technique. Because the NPV approach uses cash flows rather than profits, uses all the cash flows, and discounts the cash flows properly, it is hard to find any theoretical fault with it.
Sensitivity Analysis and Scenario Analysis
The sensitivity analysis examines how sensitive a particular NPV calculation is to changes in underlying assumptions.
Managers frequently perform scenario analysis, a variant of sensitivity analysis. This approach examines a number of different likely scenarios, where each scenario involves a confluence of factors.
Break-Even Analysis
The break-even approach determines the sales needed to break even. We calculate the break-even point in terms of both accounting profit and present value.
8.3 Real Options
The NPV analysis, as well as all the other approaches ignore the adjustments that firm can make after a project is accepted. These adjustments are called real options.
The Option to Expand
The Option to Abandon
Timing Option
Part Three: Risk
Key Notations:
Div(t): Dividend at time t
N: Number of assets
N: Number of observations
P(t): Price of an equity at time t
R(t): return on investment at time t
r(t): Observed return at time t
Ṝ: Mean return
SD: Standard deviation
T: Number of years
Var: Variance
9.1 Returns
Monetary Returns
The return you get on investment in shares, like that in bonds or any other investment, comes in two forms. first, over the year most companies pay dividends to shareholders. if the company is profitable, it will generally distribute some of its profits to the shareholders. therefore, as the owner of shares, you will receive some cash, called a dividend. This cash is the income component of your return. In addition to the dividends, the other part of your return is the capital gain, or is it is negative, the capital loss.
The total monetary return on your investment is the sum of the dividend income and the capital gain or loss on the investment:
Total monetary return = Dividend income + Capital gain (or loss)
Percentage Returns
How much return do we get for each unit of currency invested? The percentage income return (dividend yield) is calculated as follow:
Dividend yield = Div (t+1) / P(t)
The capital gain (or loss) is the change in the price of shares divided by the initial price.
Capital gain = (P(t+1) – P(t)) / P(t)
Combining this, the total return would be:
R(t+1) = (Div(t+1)/P(t)) + (P(t+1) – P(t))/P(t))
9.2 Holding Period Returns
If R(t) is the return in year t (expressed in decimals), the value you would have at the end of year t is the product of 1 plus the return in each of the years:
(1+R1)x(1+R2)x…x(1+R(t))x…x(1+R(T))
The result is called the holding period return.
9.3 Return Statistics
To calculate the average or mean of a distribution, we add up all the values and divide by the total (T) number.
9.4 Average Stock Returns and Risk-Free Returns
Governments borrow money by issuing bonds, which the investing public holds. As we discussed in an earlier chapter, these bonds come in many forms, and the ones we shall look at here are called Treasure bills, or T-bills. Once a week the government sells some bills at an auction. A typical bill is a pure discount bond that will mature in a year or less. Because governments can raise taxes to pay for the debt they incur, this debt is free of the risk of default. Thus they are called risk-free return over a short time (one year of less).
The difference between risky returns and risk-free returns is often called the excess return on the risky asset.
9.5 Risk Statistics
A distribution whose returns are all within a few percentage points of each other is tight, and the returns are less uncertain. The measures of risk we shall discuss are variance and standard deviation.
Variance
The variance and its square root, the standard deviation, are the most common measure of variability or dispersion.
Normal Distribution and Its Implications for Standard Deviation
The normal distribution looks like a bell-shaped curve. This distribution is symmetrical and the standard deviation is the usual way to represent the spread of a normal distribution.
Other Measures of Risk
Asymmetric measures of risk use only the downside variation in returns from some target return, which could be the mean historical return or some benchmark return set by the investor. The semi-variance has the advantage that only those deviations that are below the target or benchmark return are considered in the risk measure (for the formula, see page 246).
Another measure of risk that incorporates asymmetry in investment returns is that of skewness. Skewness refers to the extent to which a distribution is skewed to the left or upside observations are equally likely.
9.6 More on Average Returns
Arithmetic versus Geometric Averages
The geometric average return answers the question ‘what was your average compound return per year over a particular period?’. The arithmetic average return answers the question ‘what was your return in an average year over a particular period?’
Calculating Geometric Average Returns
The geometric average return over T years is calculated as:
Geometric average return = [(1+R1)x(1+R2)x…x(1+R(T))]^(1/T) – 1
Key Notations
C: Cash flows
CAPM: Capital asset pricing model
CCAPM: Consumption capital asset pricing model
CML: Capital market line
Cov: Covariance
Cov(average): average covariance
Div(t): Dividend at time t
HCAPM: Human capital CAPM
M/B: Market-to-book ratio
N: Number of assets; number of years
n: Number of observations
P/E: Price-earnings ratio
P(t): Price of an equity at time t
R: Return on investment
Ṝ: Expected or mean return
R(F): Risk-free rate
Ṝ(F): Return on financial assets
R(i): Return on an individual equity
R(M): Return on the market
Ṝ(M): Expected return on the market
Ṝ(NF): Return on non-financial assets
R(p): Expected return
R(t): Return on investment at time t
r(t): Observed return at time t
SD; Standard deviation
SML: Security market line
T: Number of years
Var: Variation
Var(average): Average variance
X: Percentage of a portfolio in a particular security
β: Beta
β(c): Consumption beta
β(F): Financial beta
β(NF): Non-fictional beta
p: Correlation
σ: Standard deviation
σ²: Variance
10.1 Individual Securities
The following characteristics of individual securities shall be discussed:
Expected return: the return that an individual expects a security to earn over the next period. Although only a expectation.
Variance and standard deviation: the variance is the measure of the squared deviations of a security’s return from its expected return. Standard deviation is the square root of the variance.
Covariance and correlation: returns on individual securities are related to one another. Covariance is a statistic measurement of the interrelationship between two securities.
10.2 The Return and Risk for Portfolios
The investor would like a portfolio with a high expected return and a low standard deviation of return. Therefore we must consider:
The relationship between the expected return on individual securities and the expected return on a portfolio made up of these securities.
The relationship between the standard deviations of individual securities, the correlations between these securities, and the standard deviation of a portfolio made up of these securities.
The Expected Return on a Portfolio
The formula for expected return on a portfolio is calculated as:
The expected return on a portfolio is simply a weighted average of the expected returns on the individual securities.
Variance and Standard Deviation of a Portfolio
The variance of the portfolio (for formula, see page 263) leads to the following result:
As long as p<1, the standard deviation of a portfolio of two securities is less than the weighted average of the standard deviations of the individual securities.
10.3 The Efficient Set for Two Assets
10.4 The Efficient Set for many Securities
Variance and Standard Deviation in a Portfolio of Many Assets
The variance of the return on a portfolio with many securities is more dependent on the covariances between the individual securities than on the variances of the individual securities.
10.5 Diversification: An Example
Total risk, which is var (average), is the risk we bear by holding onto one security only. Portfolio risk is the risk we still bear after achieving full diversification, which is cov(average). Portfolio risk is often called systematic or market risk as well. Diversifiable, unique, or unsystematic risk is the risk that can be diversified away in a large portfolio which must be (var(average)-cov(average)) by definition.
Risk and the Sensible Investor
Our typical investor is risk-averse. Risk-averse behavior can be defined in many ways.
10.6 Riskless Borrowing and Lending
The Optimal Portfolio
The previous section concerned a portfolio formed between one riskless asset and one risky asset. In reality, an investor is likely to combine an investment in the riskless asset with a portfolio of risky assets.
10.7 Market Equilibrium
Definition of the Market Equilibrium Portfolio
Financial economists often imagine a world where all investors possess the same estimates of expected returns, variances and covariances. This assumption is called homogeneous expectations.
In a world with homogenous expectations, all investors would hold the portfolio of risky assets represented by point A.
Common sense tells us that it is a market-value-weighted portfolio of all existing securities, the market portfolio.
Definitions of Risk when Investors Hold the Market Portfolio
Researchers have shown that the best measure of the risk of a security in a large portfolio is the beta of the security.
Beta measures the responsiveness of a security to movements in the market portfolio.
The Formula for Beta
The definition of Beta is:
β(i)= (Cov ((R(i), R(M))) / σ² (R(M))
Where Cov ((R(i), R(M)) is the covariance between the return on asset i and the return on the market portfolio, and σ² (R(M)) is the variance of the market.
10.9 The Capital Asset Pricing Model
Expected Return on Market
The expected return on the market can be represented as:
Ṝ(M) = R(F) + Risk premium
The expected return on the market is the sum of the risk-free rate plus some compensation for the risk inherent in the market portfolio. This is all an expected return on the market, not the actual return.
Expected Return on an Individual Security
The relationship between expected return and beta can be represented as:
Capital asset pricing model:
Ṝ(M) = R(F) + β x (Ṝ(M) – R(F))
This is called the capital asset pricing model (CAPM), it implies that the expected return on a security is linearly related to its beta. Three additional points concerning the CAPM should be mentioned:
Linearity: the intuition behind an upwardly sloping curve is clear. The relationship between return and beta corresponds to a straight line.
Portfolios as well as securities: CAPM considers individual securities as well as portfolios.
A potential confusion: CAMP is often confused for SML.
Key notations
B: Market value of a firm’s debt
CAPM: Capital Asset Pricing Model
COGS: Cost Of Goods Sold
Cov: Covariance
EBIT: Earnings Before Interest and Taxes
EVA: Economic Value Added
IRR: Internal Rate of Return
NPV: Net Present Value
RB: Cost of debt; a firm’s borrowing rate
RF: Risk-free rate of return
RM: Expected return on market portfolio
RS: Cost of equity
RWACC: Weighted average cost of capital
ROA: Return On Assets
S: Market value of a firm’s equity
SGA: Sales, General and Administration costs
SML: Security Market Line
tc: Corporate tax rate
Var: Variance
β: Beta
12.1 The Cost of Equity Capital
Whenever a firm has extra cash, it can take one of two actions: pay out the cash immediately as a dividend or invest extra cash in a project, paying out the future cash flows of the project as a dividend.
The project should be undertaken only if its expected return is greater than that of a financial asset of comparable risk.
RULE: The discount rate of a project should be the expected return on a financial asset of comparable risk.
Under CAPM, the expected return on equity can be written as:
RS = RF + β * (RM – RF)
12.2 Estimation of Beta
In the real world, beta must be estimated. Beta of an equity is the standardised covariance of a security’s return with the return on the market portfolio.
Beta of security i = Cov (Ri, RM)/Var (RM) = σi,M/σ2M
Using an Industry Beta
It is frequently argued that people can better estimate a firm’s beta by involving the whole industry (Table 12.3/323 shows the betas of some prominent firms in the UK oil and gas industry). If one believes that the operations of a firm are similar to the operations of the rest of the industry, the industry beta should be used, simply to reduce the estimation error.
Determinants of Beta
Beta is determined by the characteristics of the firm:
Cyclicality of Revenues: the revenues of some firms are cyclical; these firms do well in the expansion phase of the business cycle but so poorly in the contraction phase;
Operating Leverage: the difference between variable and fixed costs. It refers to the firm’s fixed costs of production;
Financial Leverage: the extent to which a firm relies on debt. Because a levered firm must make interest payments regardless of the firm’s sales, financial leverage refers to a firm’s fixed costs of finance.
12.4 Extensions of the Basic Model
The Firm versus the Project
If a project’s beta differs from that of the firm, the project should be discounted at the rate proportionate with its own beta. Unless all projects in the corporation are of the same risk, choosing the same discount rate (hurdle rate or cost of capital) is incorrect.
The Cost of Capital with Debt
If a firm uses both debt and equity to finance its investments, the cost of capital is a weighted average of each:
(S/(S+B))Rs + (B/(S+B))RB,
Where S/(S+B) is the proportion of total value represented by the equity and
B/(S+B) is the proportion of total value represented by debt
The after-tax cost of debt is:
Cost of debt (after corporate tax) = RB × (1 – tC), where tC is the corporation’s tax rate
Assembling the two, we get the average cost of capital (after tax) for the firm:
Average cost of capital = Rs + RB × (1 – tC) = RWACC (weighted average cost of capital)
12.6 Reducing the Cost of Capital
A firm can actually lower its cost of capital through liquidity enhancement.
What is Liquidity?
Liquidity is the cost of buying and selling equities. Equities that are expensive to trade are considered less liquid than those that trade cheaply. There are generally three costs involved: brokerage fees, the bid-ask spread, and the market impact costs.
Liquidity, Expected Returns, and the Cost of Capital
The cost of trading non-liquid shares reduces the total return that an investor receives. Investors demand a high expected return as compensation when investing in high-risk (e. g. high-beta) equities. Because the expected return to the investor is the cost of capital to the firm, the cost of capital is positively related to beta (fig. 12.8/334).
Liquidity and Adverse Selection
A counterparty will lose money on a trade if the trader has information that the counterparty does not have (the counterparty has been picked off, or has been subject to adverse selection).
Therefore, informed traders in an equity raise the required return on equity, increasing the cost of capital.
What can corporations do? The corporation has an incentive to lower trading costs because a lower cost of capital should result.
Amihud and Mendelson identify two general strategies for corporations.
Firms should try to bring in more uninformed investors;
Corporations can disclose more information (narrowing the gap between informed and uninformed investors, thereby lowering the cost of capital).
12.7 How Do Corporations Estimate Cost of Capital in Practice?
The most commonly used method is CAPM and beta. Historical returns on share prices are also commonly used, and in the Netherlands a significant number of companies use a cost of capital estimate that is set by investors (table 12.3/337 shows the responses of several executives in the US, UK, Netherlands, Germany and France).
The Economic Value Added approach is calculated using the following formula:
(ROA – Weighted Average Cost of Capital) × Total Capital
Key notations
AR: Abnormal Return
CAR: Cumulative Abnormal Return
EMH: Efficient Market Hypothesis
IPO: Initial Public Offering
NPV: Net Present Value
Pt: Price of an equity at time t
SEO: Seasoned Equity Offering
SML: Security Market Line
13.1 Can Financing Decisions Create Value?
Typical financing decisions include how much debt and equity to sell, what types of debt and equity to sell, and when to sell them.
There are basically three ways to create valuable financing opportunities:
Investors lack an understanding of risk and valuation of complex securities
Reduce costs or increase subsidies. A firm packaging securities to minimize taxes can increase firm value.
Create a new security. New, complex securities cannot easily be duplicated by combinations of existing securities.
13.2 A Description of Efficient Capital Markets
An efficient capital market is one in which share prices fully reflect available information. It processes the information available to investors, and incorporates it into the prices of securities.
Market efficiency has two general implications:
In any given time period, an equity’s abnormal return depends of information or news received by the market in that period;
An investor who uses the same information as the market cannot expect to earn abnormal returns. In other words, systems for playing the market are doomed to fail.
Foundations of Market Efficiency
The conditions that cause market efficiency, as argued by Andrei Shleifer, are:
Rationality. When new information is released in the marketplace, all investors will adjust their estimates of share prices in a rational way.
Independent deviations from rationality. Market efficiency does not require rational individuals – only countervailing irrationalities.
Arbitrage. If the arbitrage of professionals dominates the speculation of amateurs, markets would still be efficient.
13.3 The Different Types of Efficiency
In actuality, certain information may affect share prices more quickly than other information.
To handle differential response rates, researchers separate information into different types:
The Weak Form. The market uses the history of prices, and is, therefore, efficient to these past prices. This implies that security selection based on patterns of past share price movements is no better than random selection;
The Semi-Strong Form. The market uses all publicly available information in setting prices;
The Strong Form. The market uses all of the information that anybody knows about equities, including inside information.
Much evidence from different financial markets supports weak form and semi-strong form efficiency, but not strong form.
13.4 The Evidence
The evidence on the efficient market hypothesis is extensive, with studies covering the broad categories of weak, semi-strong and strong form efficiency:
1. The weak form. Serial correlation involves only one security (it is the correlation between the current return on a security and the return on the same security over a later period.
A positive coefficient of serial correlation indicates a tendency towards continuation (a higher-than-average return today is likely to be followed by a higher-than-average return in the future). A negative coefficient of serial correlation indicates a tendency towards reversal. Serial correlation coefficients for share price returns near zero would be considered with weak form efficiency.
2. The semi-strong form.
Event studies. The abnormal return (AR) on a given security for a particular day can be calculated by subtracting the market’s return on the same day (Rm) from the actual return (R) on the equity for that day:
AR = R - Rm
2. The Record of Mutual Funds. If the market is efficient on the semi-strong form, then no matter what publicly available information mutual fund managers rely on to pick equities, their average returns should be the same as those of the average investor in the market as a whole.
3. The strong form. If an individual has information that no one else has, it is likely that he/she can profit from it. One group of studies that investigated insider trading by examining cumulative abnormal returns from UK director trading. Given that it seems one can make abnormal profits from private information, strong form efficiency does not seem to be substantiated by evidence.
13.5 The Behavioural Challenge to Market Efficiency
Rationality
The behavioural view is that not all investors are irrational. Rather, it is that some, perhaps many, investors are.
Independent deviations from rationality
A market dominated by representativeness (to believe that the sample observed is more representative of the population than it really is) leads to bubbles.
Behavioural finance suggests that investors exhibit conservatism because they are too slow to adjust their beliefs to the new information.
Arbitrage
Arbitrage strategies may involve too much risk to eliminate market efficiencies.
13.6 Empirical Challenges to Market Efficiency
Limits to arbitrage
Risk considerations may force arbitrageurs to take positions that are too small to move the prices back to parity.
Earnings surprises
Earnings surprise is the difference between current quarterly earnings and quarterly earnings four quarters in the past, divided by the share price.
Size
In the US, the returns on equities with small market capitalizations were greater than the return on equities with large market capitalization throughout most of the 20th century.
Value versus Growth
A number of papers have argued that equities with high book-value-to-share-price ratios and/or high earnings-to-price ratios (value stock) outperform equities with low ratios (growth stocks).
Crashes and Bubbles
Bubble theory of speculative markets: security prices sometimes move wildly above their true values.
Four implications of market efficiency for corporate finance are:
Managers cannot fool the market through creative accounting;
Firms cannot successfully time issues of debt and equity;
Managers cannot profitably speculate in foreign currencies and other instruments;
Managers can reap many benefits by paying attention to market prices.
Corporate finance is about the questions ‘What long term investments to make?’, ‘Where to get the long term financing to pay for the investment?’ and ‘How to manage everyday financial activities?’
Financial management should make decisions in the areas of
Capital budgeting
Capital structure
Working capital management
The goal of financial management is to maximize the current value per share of existing equity
Financial markets bring buyers and sellers together
Primary markets
Secondary markets
Legal classifications of businesses
Sole proprietorship ; The business is owned by one person
Partnership ; The business is owned by at least two persons > general partners, so they operate the daily business together, limited partners, these only operate part of the business, or silent partners, who just invest and do not operate daily business.
Corporations ; Here, the company is a legal entity
The agency problem
Type I agency problem = The possibility of conflict of interest between the shareholders and the management of the firm.
Reasons to think that managers have a significant incentive to act in the interests of the shareholders are because of managerial compensations, the control of the firm and shareholder rights.
Type II agency problem = The possibility of conflict of interest between controlling and minority shareholders.
Corporate governance = a term that describes the way a company does its business and how it monitors whether the right procedures and behavior are used while conducting the business. > Solution of the agency problem
Three financial statements
Balance sheet = Shows a firm’s accounting value on a particular date
Income statement = Summarizes a firm’s performance over a period of time.
Statement of cash flows
Financial ratios
Short-term solvency or liquidity measures
Current ratio = Current assets / Current liabilities
Quick ratio = (Current assets – Inventory) / Current liabilities
Cash ratio = Cash / Current liabilities
Long term solvency measures
Total debt ratio = (Total assets – Total equity) / Total assets
Times interest earned ratio = Operating profit / Interest
Cash coverage ratio = (Operating profit + Non-cash deductions) / Interest
Asset management
Inventory turnover = Cost of goods sold / Inventory
Days’ sales in inventory = 365 days / Inventory turnover
Receivables turnover = Sales / Trade receivables
Days’ sales in receivables = 365 days / Receivable turnover
Payables turnover = Credit purchases / Trade payables
Days’ purchases in payables = 365 days / Payables turnover
NWC Turnover = Sales / NWC
PPE Turnover = Sales / Property, plant and equipment
Total asset Turnover = Sales / Total assets
Profitability measures
Profit margin = Net income / Sales
Return on assets = Net income / Total assets
Return on equity = Net income / Total equity
Market value measures
Earnings per share (EPS) = Net income / Shares outstanding
P/E ratio = Prices per share / Earnings per share
PEG ratio = Price-earnings ratio / Earnings growth rate (%)
Price-sales ratio = Price per share / Sales per share
Market-to-book ratio = Market value per share / Book value per share
Du Pont Identity = ROE = Profit margin x total asset turnover x equity multiplier
Future value = What is the value of a specific amount of money in x years?
Compound interest = The interest earned on interest.
FV = PV * (1+r)n
The last part of the equation, (1+r)n is the FVIF (future value interest factor), which combines the time periods with the interest rate. You can use a table (Appendix A Table A.1)
Present value = How much should I put aside now the be able to have amount x in the future?
PV = FV * 1 / (1+r)n
The last part of the equation is the PVIF (present value interest factor), which can also be found in a table (Appendix A Table A.2)
Determining the discount rate; r = (FV / PV)1/n - 1
Finding the number of periods; n = [ln(FV / PV)] / [ln(1+r)]
It is very critical when the cash flows occur. Unless stated otherwise, you should assume that cash flows occur at the end of a period.
Annuity = any continuing payment with a fixed total annual amount.
Annuity PV = PMT * [(1-(1+r)t)/r]
The term PMT is multiplied with is called the Present Value Interest Factor for Annuities (PVIFA). This PVIFA can also be found in Appendix A Table A.3
If you transform the formula using data you have, you can find the number of payments and the correct rate
Annuity FV = PMT x [(1+r)n – 1] / r
Where PMT is the periodical cash flow. The last part of the equation is the FVIFA (future value interest of an annuity). So FVIFA = [(1+r)n – 1] / r
Annuity due = Payments are made at the beginning of the period instead of at the end of the period
FV annuity due = PMT x [(1+r)n – 1] / r x (1+r)
Perpetuity = An annuity that goes on forever
PV = PMT / r
Annuities very often have payments that grow over time at factor g.
Growing annuity PV = PMT * [1 – (1 + g / 1 + r)t / r – g]
Nominal interest rate = The interest rate expressed in terms of the interest payment made each period. Also known as the stated or quoted interest rate
Effective annual percentage rate (EAR) = The interest rate expressed as if it were compounded once per year.
EAR = [1 + (Quoted rate/m)]m – 1
Annual percentage rate (APR) = The harmonized interest rate that expresses the total cost of borrowing or investing as a percentage interest rate.
Discount loan = Pay the principal and all the interest at the maturity date
Interest-only loan = Pay interest as you go and pay the last interest plus the principal when the maturity date has come
Amortized loan = Pay both the principal and the interest as you go
Coupon = The stated interest payment made on a bond
Face value = The principal amount of a bond that is repaid at the end of the term. Also called par value.
Coupon rate = The annual coupon divided by the face value of a bond.
Maturity = The specified date on which the principal amount of a bond is paid.
Yield to maturity = The rate required in the market on a bond
Finding YTM actually comes down to ‘plug and chug’. If you know the par value of a bond is $1000 and the real price is $955,14 and the coupon rate is 8%, you know that the YTM has to be higher than 8%. Just plug in 9, 10 or 11 into the formula to get to your answer.
Bond value = C * [ (1 – 1 / (1 + r)t) / r ] + F / (1 + r)t, where C * [ (1 – 1 / (1 + r)t) / r ] is the present value of the coupons and F / (1 + r)t is the present value of the face amount.
Interest rate risk = Arises for bond owners from fluctuating interest rates. How much risk depends on how sensitive a bonds’ price is to interest rate changes. This depends on two things; time to maturity and coupon rate.
Indenture = The written agreement between corporation and the lender detailing the terms of the debt issue
Many different types of bonds. The most important ones;
Government bonds
Zero coupon bonds = A bond that makes no coupon payments and is thus initially priced at a deep discount.
Floating rate bonds = With floating rate bonds the coupon payments are adjustable.
Real rates = Interest rates or rates of return that have been adjusted for inflation.
Future value / inflation rate = real value
Nominal rates = Interest rates or rates of return that have not been adjusted for inflation
Fisher effect = The relationship between nominal returns, real returns and inflation.
R = nominal rate, r = interest rate, h = inflation rate > 1 + R = (1+r) * (1+h)
Current share price: P0 = (D1 + P1) / (1 + R). Where P1 is the price in one period. R is the required return on the investment.
Multiple periods; P0 = [D1 / (1+R)1] + [D2 / (1+R)2] + [D3 / (1+R)3] + [P3 / (1+R)3]
Pattern of future dividends
Zero growth rate
The per-share value; P0 = D / R.
Dividend growth rate
The dividend t periods in the future; Dt = D0 x (1 + g)t.
Share price at any point in time; Pt = (Dt x (1 + g)) / (R – g).
Non-constant growth
Make a time line and watch when the growth is constant and when it’s non-constant. Notice when constant growth starts and determine the price at the end of the non-constant growth. For example; P3 = D3 x (1+g) / (R-g)
Now we can calculate the total value of the equity; P0 = [D1 / (1+R)1] + [D2 / (1+R)2] + [D3 / (1+R)3] + [P3 / (1+R)3]
Two-stage growth = The dividend grows first at a rate of g1 for t years and then at a rate of g2 thereafter forever.
First stage: Pt = [D0 x (1+g1)t x (1+g2)] / (R - g2)
Second part: present value of the share price when the second stage begins at time t. P0 = (D1 / R-g1) x [1 – ((1+g1) / (1+R)t)] + (Pt / (1+R)t
Required return = The required return (R) consists of two components; the dividend yield and the capital gains yield. We can calculate the required return, R= (D1 / P0) + g%
Dividend yield = An equity’s expected cash dividend divided by its current price and g
Capital gains yield = The dividend growth rate, or the rate at which the value of an investment grows
Stock markets
Primary market = where companies sell securities to investors
Secondary market = investors trade existing shares with each other
Discounted cash flow valuation; Present value = cash inflow x [1 – (1/(1+R)t)] / R + (single lump-sum inflow / (1+R)t
NPV = the cost of the investment + the present value of future cash flows
Net present value (NPV) = investment’s market value – its cost. This is a measure of the value created or added. Firms have to search for investments with a positive net present value.
NPV rule = An investment should be accepted if the net present value is positive, and rejected if it is negative.
The payback rule = An investment is acceptable if its payback period is less than some pre-specified number of years.
The discounted payback rule = An investment is acceptable if its discounted payback is less than some pre-specified number of years.
The average accounting return (AAR) = Average net income / Average book value.
AAR rule = A project is acceptable if its AAR exceeds a target average accounting return
IRR = To find the IRR we have to set the NPV equal to zero and solve it to find the discount rate. We need to use trial and error, so try to find the discount rate where the NPV is zero by filling in some numbers.
IRR rule = An investment is acceptable if the IRR exceeds the required return. Otherwise it should be rejected.
The decisions from the IRR and the NPV are identical when The project’s cash flows are conventional and The project is independent. If these conditions aren’t met, problems arise;
Non-Conventional cash flows
Mutually exclusive investments
Profitability index = The profitability index is also called the benefit-cost ratio. It measures the value created per cash unit invested.
PI = Present value future cash flows / initial investment.
Some things to consider when you make a project analysis:
Sunk costs = These won’t be considered in an investment decision. That’s because these costs cannot be removed, the firm has to pay this no matter what.
Opportunity costs = When using something that you could also use in other ways. The specific costs are the most valuable alternative that you give up when a particular investment is undertaken.
Side effects; A project can have side, or spillover, effects. These effects can be good and bad. Erosion = when the new project has a negative effect on an existing project.
Investment in net working capital.
Financing costs. We don’t include interest paid in the analysis of a proposed investment.
Measure cash flow when it occurs, not in an accounting sense.
Always interested in after-tax cash flow.
Evaluating investments
Pro Forma Financial Statements; Summarizing much of the relevant information for a project
Project Cash Flows; Project cash flow = Project operating cash flow – Project capital spending. We ignore the financing activities because we are only interested in the cash flows from the project.
Projected Total Cash Flow and Value; NPV, IRR, payback, AAR
Depreciation
Straight-line depreciation = (initial value – residual value) / life in years
Reducing-Balance depreciation: Here the asset is depreciated with a percentage per annum.
The expected return (E) = sum of the possible return rates multiplied by their probabilities.
Variance
σ2. σ is the standard deviation; this is the square root of the variance.
The lower the variance and the standard deviation, the less risky the project.
Investors have a portfolio of different assets, for example equities and bonds. The portfolio weight = the value of the asset divided by the total portfolio’s value
Portfolio expected returns, E(Rp) = X1 x E(R1) + X2 x E(R2) + … + Xn x E(Rn).
Risk
Systematic risk = Has influence on a large number of assets, also called market risk
Unsystematic risk = Has influence on a small number of assets, also called unique
Diversification = spreading an investment across different assets. The principle of diversification says that spreading an investment will eliminate some risk
The systematic risk of an investment determines the reward for bearing risk.
The beta coefficient (β) stands for the amount of systematic risk in an asset relative to that in an average asset.
We can calculate the portfolio beta in the same way as the portfolio expected return. Multiply each asset’s beta by its portfolio weight. The sum of those results is the portfolio’s beta.
When having risky and risk-free investments in your portfolio, we have to calculate the E(Rp) and the βP this way
E(RP) = Weight RA x E(RA) + (1 – weight RA) x Rf.
βP = Weight RA x βA + (1 – Weight RA) x 0
Security market line = Shows the relationship between the beta and the expected return.
Reward-to-risk ratio Slope (%) = [E(RA) – Rf] / βA
This means that RA has a risk premium of … % per ‘unit’ of systematic risk.
Market portfolio = A portfolio that consists of all of the assets in the market. The expected return on the market portfolio is E(RM).
We could express the SML slope as: E(RM) – Rf.
Capital asset pricing model (CAPM) = Shows that expected return on a risky asset has three components: The time value of money (Rf), The market risk premium [E(RM) – Rf)] and The beta for that asset (βi)
So the expected return on asset I = E(Ri) = Rf + [E(RM) – Rf) x βi
The cost of capital = the minimum required return on an investment
Cost of equity = The required return on the investments in the firm of equity
investors
Dividend growth model: RE = D1 / (P0 + g). D1 = D0 x (1+g)
Security market line (SML) approach: RE = Rf + βE x (RM – Rf)
The cost of debt (RD) = The return lenders require on the firm’s debt. We can calculate these costs as the yield to maturity on the outstanding debt. The coupon rate is irrelevant.
The cost of preference shares: RP = D / P0
Weighted average cost of capital (WACC) = The weighted average of the cost of equity and the after-tax cost of debt
WACC = (E / V) x RE + (D / V) x RD x (1 – TC)
Firm uses preference shares; WACC = (E / V) x RE + (P / V) x RP + (D / V) x RD x (1 – TC)
Divisional and project costs of capital; When the firm’s overall cost of capital is a mixture of different costs of capital for each division
Pure play approach = using a WACC wish is unique to a project, based on companies in similar business lines
Flotation costs = Happen when a firm issues new bonds and shares. So we have to include these costs in the project analysis.
fA = (E / V) x fE + (D / V) x fD
The true cost when flotation cost is included = expansion cost / (1 – fA)
Capital structure; A firm must determine its debt-equity ratio. Discover how to maximize the value of a share of equity. When the WACC is minimized the value of the firm is maximized, then there is an optimal capital structure.
Financial leverage; This is the degree on how much a firm relies on debt. What is the effect on the pay-offs to shareholders of financial leverage?
Capital structure and the cost of equity capital
M&M Proposition 1 = This is also called the pie model. It says that the capital structure of the firm doesn’t have influence on the value of the firm. This is without taxes.
M&M Proposition 2 = Tells us that the cost of equity has three components: the required rate of return , the cost of debt and the debt-equity ratio .
Bankruptcy = When a firm’s value of debt is the same as the value of its assets, the firm is bankrupt. They won’t be able to pay the bondholders. The value of equity is zero. The higher the debt-equity ratio, the higher the probability of bankruptcy
Direct costs = legal and administrative expenses.
Indirect costs = financial distress, money spend on resources to avoid bankruptcy and customers walking away because they don’t trust the firm.
Agency costs = a result of conflicts of interest.
Optimal capital structure = The firm has to find the point where it’s value is maximum *, that point also represents the optimal amount of borrowing D*. The optimal capital structure is where the tax benefits = the cost from the probability of financial distress
Dividend = A payment made out of a firm’s earnings to its owners, in the form of either cash or stock
Dividend payment
Declaration date = Date on which the board of directors passes a resolution to pay a dividend
Ex-dividend date = The date of two business days before the date of record
Date of record = The date by which a holder must be on record to be designated to receive a dividend
Day of payment = The date on which the dividend is paid
Dividend policy = The time pattern of dividend payout. In particular, should the firm pay out a large percentage of its earnings now or a small percentage?
Stock dividend = A payment made by a firm to its owners in the form of equity, diluting the value of each share outstanding. A stock dividend is commonly expressed as a percentage
Stock split = An increase in a firm’s shares outstanding without any change in owners’ equity
Reverse split = A stock split in which a firm’s number of shares outstanding is reduced
Liquidity = Holding cash has its benefits and costs. The liquidity is necessary for transaction needs, but there are opportunity costs. Three motives are Speculative motive, Precautionary motive and Transaction motive
Float = The difference between book cash and bank cash, effect of cheques in process.
Average daily float = total float (amount x delay days) / total days (30 -> month)
Average daily float = average daily receipts x weighted average delay
Net float = total collection floats + total disbursement floats.
Target cash balance; Holding too much cash (carrying costs). Holding too little cash (adjustment costs).When the cash balance is small, the trading costs will be high and the opportunity costs low.
C* = optimal size of cash balance = target balance, where the cost curves cross.
BAT model
Miller-Orr model
Terms of sale
Credit cost curve = the sum of the carrying costs and the opportunity costs of a credit policy. Shows where the total credit cost is minimized which is the optimal amount of credit.
Collection policy = monitoring receivables, obtaining payments.
Keep track of ACP = average collection period.
Inventory management = The main goal of inventory management is to minimize the costs. There are three types of inventory: raw material, work in progress and finished goods.
Costs;
Carrying costs
Shortage cost
Techniques;
ABC approach
Economic order quantity model
Safety stocks
Reorder points
Just-in-time (JIT) inventory
Hedging = Reducing the exposure to future price or rate fluctuations. Firms create ways to hedge particular risks, this is called financial engineering.
To analyze a firm’s exposure to financial risks, risk profile can be made. This shows how the changes in prices or rates affect the value of the firm
Short-run exposure: Unforeseen events or shocks result in temporary changes in prices
Transaction exposure is a short-run financial risk, which arises from needs to buy or sell in the near future at uncertain prices or rates
Forward contract = an agreement between two parties. They agree on the sale of an asset or product in the future for a certain price
Pay-off profile = shows the hedge of financial risks
Futures contract = gains and losses are realized each day, not only on the settlement date
Financial future: goods are financial assets as equities, bonds or currencies.
Commodity future: goods can be anything other than financial assets.
Cross-hedging = use a contract from a closely related asset for hedging another asset.
Swap contract = Two parties agree to exchange specified cash flows at specified intervals in the future. So instead of just one there are multiple exchanges.
Option contract = This is a contract where the owner can buy or sell a specific asset at a specific price for a certain period of time. In this period the owner has the right, but he isn’t obligated.
Call option: buy an asset at the strike price (or exercise price).
Put option: sell an asset at a fixed price.
With a call option, the owner of the right can buy the asset. With a pull option the owner can sell the asset.
Out of money is when the share price is less than the exercise price. In the money is when the share price is higher than the exercise price.
C1=0 if S1 – E 0 Out of money
C1= S1 – E if S1 – E > 0 In the money
Protective put = buying a put on the equity. Protects against losses.
Time premium = Investors are willing to pay an extra amount if there is a possibility that the share price will rise.
Value of the option = share price – exercise price.
Black-Scholes model
Employee share options = Different from regular share options: 10-year life, cannot be sold, ‘vesting’ period.
Real options = an option that involves real assets.
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