AF 4 Pages TOTAL
Article Analysis SPRING 2017.pdf
UNIVERSITY OF MASSACHUSETTS BOSTON
SCHOOL OF MANAGEMENT
AF445 Prof. Konan
Markets and Financial Institutions
Writing Assignment: Article Analysis
Identify two interesting articles about an issue related to money and capital markets, financial markets,
financial instruments, international markets, and economic policy. Then for each article, write a 3-4-
page analysis. For the choice of topics and selection of your articles, your class notes and readings
should spark some ideas. Watching the news may provide ideas as well. Ultimately, you will have to
read newspapers (The Boston Globe, The New York Times, etc.), magazines (The Economist, Money,
Newsweek, Times, etc.), journals (The Wall Street Journal), and/or economic and financial news over
the internet in order to identify the articles for your analysis.
Due date:
May 12, 2017 (Friday)
Structure of analysis
Your analysis should contain the following:
1. How is your selected article related to money and capital markets, financial markets, financial instruments, international markets, and economic policy?
2. What issue or question is your selected article addressing? 3. Why should this issue or question be of interest? 4. Summarize the article. Make sure to state the methods and findings of the article. 5. Make your own assessment of the issue or question. Use principles developed in the course or
textbook to support your arguments whenever it is possible.
6. Provide a brief summary of your findings and conclusion. 7. Provide the references. 8. Provide tables/appendix (if necessary) 9. Provide figures/appendix (if necessary)
Style and organization--Some basic rules
1. Title page with name. 2. Paper typed, double-spaced, with margin wide enough. 3. Pages numbered. 4. References. 5. Numbers, titles and brief explanations of figures and tables. 6. Footnotes (if applicable). 7. No typos. 8. Watch for grammatical mistakes and incorrect sentence structures.
How long should your paper be?
Limit each analysis to 3-4 double-spaced typed pages (excluding any tables, figures, bibliography, and
title page). Note that a short paper which incorporates a lot of information is much more impressive than
a long paper which says very little.
How will your paper be graded?
Your paper will be graded on how completely and competently your question is answered within the
above steps and structure. It should be well written (style and organization) and on time.
ClassNotes1.doc
UNIVERSITY OF MASSACHUSETTS BOSTON
SCHOOL OF MANAGEMENT
AF 445
MANAGING FINANCIAL INSTITUTIONS
MARKETS AND FINANCIAL INSTITUTIONS
MONEY AND CAPITAL MARKETS
Class Notes
I. INTRODUCTION AND OVERVIEW OF THE FINANCIAL SYSTEM
1. Why study financial markets, instruments, and institutions?
This course is about the study of financial markets, institutions, and instruments. Let us briefly see why it is important to study financial markets, instruments, and institutions.
· Financial markets are markets in which funds are transferred from people who have an excess of available funds to people who have a shortage.
· Financial markets are important in channeling funds from people who do not have a productive use for them to those who do, resulting in greater efficiency.
· Activities in financial markets have direct effects on individuals' wealth, the behavior of businesses, and the efficiency of our economy.
· Financial instruments (also called securities), such as bonds and stocks, are claims on the issuer's future income or assets (any financial claim or piece of property that is subject to ownership). They are important to economic activity because they enable individuals, corporations and governments to borrow to finance their activities.
· Three financial markets deserve special attention: the debt markets (bond market), where interest rates are determined; the equity markets (stock market), which has a major effect on people's wealth and on firm's investment decisions; and the foreign exchange market, because fluctuations in the foreign exchange rate have major consequences for the American economy (will not be covered in this course). Another important financial market is the derivatives market.
· Financial institutions are what make financial markets work. Without them, financial markets would not be able to move funds from people who save to people who have productive investment opportunities. They thus also have important effects on the performance of the aggregate economy as a whole.
· The most important financial institution in the financial system is the central bank, the government agency responsible for the conduct of monetary policy, which in the Unites States is the Federal Reserve System (the Fed). Monetary policy involves the management of interest rates and the quantity of money, also referred to as the money supply (defined as anything that is generally accepted in payment for goods and services or in the repayment of debt).
· Because monetary policy affects the interest rates, inflation, and business cycles, all of which have an important impact on financial assets and institutions, we need to understand how monetary policy is conducted by central banks in the United States and abroad.
· Banks and other financial institutions channel funds from people who might not put them to productive use to people who can do so and thus play a crucial role in improving the efficiency of the economy.
· Understanding how financial institutions are managed is important because there will be many times in your life, as an individual, an employee, or the owner of a business, when you will interact with them.
2 Roles and Functions of the Financial System
a. What is a financial system?
Financial system refers to the collection of markets, institutions, laws, regulations, and techniques through which bonds, stocks, and other securities are traded, interest rates are determined, and financial services are produced and delivered around the world.
The financial system is one of the most important inventions of modern society. Its primary task is to move scarce loanable funds from those who save to those who borrow to buy goods and services and to make investments in new plant and equipment and facilities so that the global economy can grow and increase the standard of living enjoyed by its citizens. Without the global financial system and the loanable funds it supplies, each of us would lead a much less enjoyable existence.
The financial system determines both the cost of credit and how much credit will be available to pay for the thousands of different goods and services we purchase daily. Equally important, what happens in this system has a powerful impact on the health of the global economy. When credit becomes more costly and less available, total spending for goods and services falls. As a result, unemployment rises and the economy's growth slows down as businesses cut back their production and lay off workers. In truth, the global financial system is an integral part of the global economic system.
b. The Global economy and the financial system
i. Flows within the global economic system
To better understand the role played by the financial system in our daily lives, we begin by examining its position within the global economy.
The basic function of the economic system is to allocate scarce resources (land, labor, management skills, and capital) to produce goods and services needed by society.
Any economic system must combine inputs (resources) to produce output (goods and services). The global economy generates a flow of production in return for a flow of payments.
(See The global economic system.)
We may depict the flow of payments and production within the global economic system as a circular flow between producing units (businesses and governments) and consuming units (principally households/individuals).
(See Circular Flow of Income, Payments, and Production in the Global Economic System.)
The Circular flow of production and income is interdependent and never ending.
ii. The roles of markets in the global economic system
The use of markets--In most economies around the world, markets are used to carry out complex task of allocating scarce resources and producing goods and services.
What is a market?--A market is an institution set up by society to allocate resources that are scarced relative to the demand for them. Markets are the channel through which buyers and sellers meet to exchange goods, services, and productive resources (factors of production).
The marketplace determines what goods and services will be produced and in what quantities. This is accomplished through changes in the prices of goods and services offered in the market. Markets also distribute income.
Types of markets--There are essentially three types of markets at work within the global economic system: Factor markets; product markets; financial markets.
(1) Factor markets are where factors of production are exchanged. Consuming units sell their labor and other resources to those producing units offering the highest prices. The factor markets allocate factors and distribute income (wages, rental payments, and so on) to the owners of productive resources.
(2) Product markets are where goods and services are exchanged. Consuming units use most of their income from factor markets to purchase goods and services in the product markets.
(3) Financial markets are an institutional mechanism created by society to channel savings and other financial services to those individuals and individuals willing to pay for them.
(See Three Types of Markets in the global economic system.)
iii. Channel for savings and investments: The financial markets and the financial system
Not all factor income is consumed. A substantial proportion of after-tax income received by households (more than $300 billion in 2008) is earmarked for personal saving. In addition, business firms save billions of dollars each year to build up their reserves for future contingencies and for long-term investments. For example, $300 billion of $600 billion in after-tax profit was set aside for possible future needs as business savings (or retained earnings).
It is here that the financial market performs a vital role within the global economic system. The financial markets channel savings to those individuals and institutions needing more funds for spending than are provided by their current incomes. The financial markets are the heart of the global financial system, attracting and allocating savings and settling interest rates and the prices of financial assets (stocks, bonds, etc…)
Nature of savings--The definition of savings differs depending on what type of unit in the economy is doing the saving. We distinguish four (4) types of savings:
(1) Personal saving (from household sector)--what is left from current income after consumption expenditures and tax payments are made.
(2) Business saving (from business sector) include current earnings retained inside firms after payments of taxes, stockholder dividends, and other cash expenses. Also called retained earnings.
(3) Government saving arises when there is a surplus of current revenues over current expenditures in a government's budget.
(4) Foreign saving arises when imports exceed exports.
Total saving = personal saving + business saving + government saving + foreign saving
Nature of investment--Most of the funds set aside as savings flow through the global financial markets to support investment by business firms, governments, and households.
Investment is defined as purchases/expenditures on capital goods or on inventories of goods or raw material that are used to produce other goods and services, causing future production and income to rise. We distinguish three types (3) of investment:
(1) Investment in plant and equipment (fixed non residential investment)--purchases/expenditures by business firms on capital goods (fixed assets, such as equipment and buildings).
(2) Investment in inventories--expenditures by business firms on inventories (consisting of raw materials and goods offered for sale).
(3) Investment in housing (fixed residential investment)--households invest when they buy new home or purchase furniture, automobiles, and other durable assets. Only purchases of new homes enter into the category of housing investment.
Note: Government spending to build and maintain public facilities (such as buildings, monuments, and highways) is another form of investment.
Modern economies require enormous amount of investment to produce the goods and services demanded by consumers. Investment increases the productivity of labor and leads to a higher standard of living. Investment is the key to growth.
Investment often requires huge amounts of funds, far beyond the resources available to a single firm, individual, and/or government. By selling financial claims (such as stocks and bonds) in the financial markets, large amounts of funds can be raised quickly from the pool of savings accumulated by households, businesses, governments, and the foreign sector. The business firm, individual, or government then hopes to repay its loans from the financial marketplace by drawing on future income.
Indeed, the financial markets operating within the financial system make possible the exchange of current income for future income and the transformation of savings into investment so that production, employment, and income can grow.
Those who supply funds to the financial markets receive only promises in return for the loan of their money. These promises are packaged in the form of attractive financial claims and financial services, such as stocks, bonds, deposits, and insurance policies.
Financial claims promise the supplier of funds a future flow of income in the form of dividends, interest, or other returns. But there is no guarantee that the expected income will ever materialize. However, suppliers of funds to the financial system expect not only to recover their original funds but also to earn additional income as a reward for waiting and assuming risk.
(See The Global Financial system).
The role of the financial markets in channeling savings into investment is absolutely essential to the health and vitality of the economy.
c. Functions performed by the global financial system and the financial markets
The global financial system has seven basic functions:
(1) Saving function--The global system of financial markets and institutions provides a conduit for the public's savings. It provides a potentially profitable, low-risk outlet for the public's savings, which flow through the financial markets into investment, so that more goods and services can be produced, increasing the world's standard of living.
(2) Wealth function--Providing a means to store purchasing power/wealth in financial assets until needed for future consumption.
Wealth is defined as accumulated assets held by an economic unit as a result of saving.
t
W
=å
i
it
A
(1)W=wealth
A=value of assets
Net wealth:
t
W
ˆ
=å
i
it
A
-å
j
jt
L
(2)L=liabilities or debt
Both wealth and net wealth are built up over time by a combination of savings plus income earned on previously accumulated wealth. In symbols,
t
W
D
=1
*
-
+
t
t
t
W
r
S
(3)
t
W
D
=change in wealthWealth is held in the form of stocks, bonds, deposits, and other financial assets (financial wealth). Wealth holdings represent stored purchasing power that will result in future periods to finance purchases of goods and services and to increase society's standard of living. Income emerges from the wealth function of the global financial system. That is, income (Y) is created by the rate of return (r) that current wealth holdings (W) generate for their owners. Or,
t
Y
=t
t
r
W
*
(4)In turn, that wealth-created income leads to both increased consumption spending (C) and to new saving (S):
t
Y
=t
C
+t
S
(5)resulting in a higher standard of living for those who hold wealth in income-generating forms. Equation (3) reminds us that any new savings that emerge from expansion of existing wealth may result in even greater holdings of wealth in the future.
(3) Liquidity function--Providing a means of raising funds by converting financial assets (stocks, bonds, deposits) into cash balances. For wealth stored in financial instruments, the global financial marketplace provides a means of converting those instruments into cash with little risk of loss. Thus, the world's financial markets provide liquidity (immediately spendable cash) for savers who hold financial instruments but are in need f money.
(4) Credit function--Providing a supply of credit to support both consumption and investment spending in the global economy.
Credit is defined as a loan of funds in return for a promise of future payment.
Consumers need credit to purchase homes, buy groceries, etc… Businesses draw on their lines of credit to stock their shelves, construct new buildings, meet payrolls….Governments borrow to construct buildings and cover daily cash expenses.
The volume of credit extended by the money and capital markets is huge and growing. In 1998, the net credit funds raised in the U.S. financial markets amounted to well over $2 trillion.
(5) Payments function--Providing a mechanism for making payments to purchase goods and services from around the world. Certain financial assets serve as a medium of exchange in making payments. Checking accounts, credit cards issued by banks, electronic means of payments are in widespread use and growing rapidly.
(6) Risk function--Providing a means to protect businesses, consumers, and governments against risks to people, property, and income by producing and selling risk-protection services. The financial markets around the world offer businesses, consumers, and governments protection against life, health, property, and income risks. This is accomplished, first of all, by the sale of insurance policies.
(7) Policy function--Providing a channel for government policy to achieve society's goals of full-employment, low inflation, and sustainable economic growth. The financial markets have been the principal channel through which government has carried out its policies of attempting to stabilize the economy and avoid inflation. By manipulating interest rates and the availability of credit, governments can affect the borrowing and spending plans of the public, which, in turn, influence the growth of jobs, production, and prices.
The most important function of the financial system of money and capital markets is to facilitate the transformation of savings into real (non-financial) investment so economies can grow and create new jobs and living standard can increase.
d. Types of financial markets within the global financial system
Charged with many different functions, the global financial system fulfills its various roles mainly through markets where financial claims and financial services are traded. These markets may be viewed as channels through which moves a vast flow of loanable funds that is continually being drawn upon by demanders of funds and continually being replenished by suppliers of funds.
i. Money and capital markets
One of the most important divisions in the financial system is between the money market and the capital market.
The money market--designed for the making of short-term loans. It is the institution through which individuals and individuals and institutions with temporary surpluses of funds meet the needs of borrowers who have temporary funds shortages.
By convention, a security or loan maturing within one year or less is considered to be a money market instrument. The money market is a financial market in which only short-term debt instruments (maturity of less than one year) are traded.
One of the principal functions of the money market is to finance the working capital needs of corporations and provide governments with short-term funds in lieu of tax collections. The money market also supplies funds for speculative buying of securities and commodities.
Principal money market instruments : U.S. Treasury bills, bank and thrift large certificates of deposits ($100,000+), small time and savings deposits at banks and thrifts, securities issued by federal and federally sponsored agencies, federal funds, repurchase agreements, Eurodollar deposits, commercial paper, bankers' acceptances.
The capital market--designed to finance long-term investments by businesses, governments, and households. The capital market is the institution that provides a channel for borrowing and lending of long-term funds (over one year). The capital market is a financial market in which long-term debt (original maturity of one year or greater) and equity instruments are traded. Financial instruments in the capital market have original maturities of more than one year and range in size from small loans to multimillion dollar credits.
The trading of funds in the capital market makes possible the construction of factories, highways, schools and homes.
Principal capital market instruments : Mortgages, common stocks, U.S. Treasury bonds and notes, corporate and foreign bonds, state and local government bonds and notes, consumer loans (non-residential)
Short-term securities have smaller fluctuations in prices than long-term securities, making them safer investments. As a result, corporations and banks actively use this market to earn interest on surplus funds that they expect to have only temporarily.
Capital market securities, such as stocks and long-term bonds, are often held by financial intermediaries such as insurance companies and pension funds, which have little uncertainty about the amount of funds they will have available in the future.
ii. Debt and equity markets
A distinction between markets in the global financial system focuses on debt markets versus equity markets. A firm can obtain funds in a financial market in two ways: issue a debt instrument (bonds, mortgage) or issue equities (common stock).
Debt markets--where debt instruments are traded. A debt instrument is a contractual agreement by the borrower to pay the holder of the instrument fixed dollar amounts at regular intervals (interest and principal payments) until a specified date (the maturity date), when the final payment is made. The maturity of a debt instrument is the time (term) to that instrument's expiration date. Short-term (T< one year); intermediate term (one year<T<ten years); long-term (T>10 years).
Equity markets--where equity instruments are traded. Equity instruments are claims to share in the net income and assets of a business.
iii. Open and negotiated markets
Another distinction between markets in the global financial system that is often useful focuses on open markets versus negotiated markets.
Open markets--Institutional mechanisms created by society to make loans and trade securities in which any individual and institution can participate. For example, some corporate bonds are sold in the open market to the highest bidder and are bought and sold any number of times before mature and are paid off. In the market for corporate stocks, there are the major stock exchanges, which represent the open market.
Negotiated markets--Institutional mechanisms set up by society to make loans and trade securities in which the terms of trade are set by direct bargaining between a lender and a borrower. In the negotiated market for corporate bonds, securities generally are sold to one or a few buyers under private contract. Also, an individual who goes to the local bank to secure a loan for a new car enters the negotiated market for auto loans.
iv. Primary and secondary markets
The global financial markets may also be divided into primary markets and secondary markets.
Primary markets--are for the trading of new securities never issued before. A primary market is a financial market in which new issues of a security (stocks, bonds, etc…) are sold to initial buyers by the corporation or government agency borrowing the funds.
Its primary function is raising financial capital to support new investments in buildings, equipment, and inventories. You engage in a primary market transaction when you purchase shares of stock just issued by a company or borrow money through a new mortgage to purchase a home.
Secondary markets--deal in securities previously issued. A secondary market is a financial market in which securities that have been previously issued (and are thus secondhand) can be resold.
Its chief function is to provide liquidity to security investors--that is, to provide an avenue for converting financial instruments into ready cash. If you sell shares of stock or bonds you have been holding for some time to a friend or call a broker to place an order for shares currently being traded on the American, London, or Tokyo stock exchanges, you are participating in a secondary transaction.
The volume of trading in the secondary market is larger than trading in the primary market. However, the secondary market does not support new investment.
v. Exchanges and over-the counter markets
Markets can be organized in two ways: exchanges markets and over-the counter markets.
Exchanges markets--where buyers and sellers of securities (or their agents or brokers) meet in one central location to conduct trades. The New York and American stock exchanges for stocks and Chicago Board of Trade for commodities (wheat, corn, silver, and other raw materials) are examples of organized exchanges.
Over-the-counter markets (OTC)--where dealers at different locations have an inventory of securities and stand ready to buy and sell securities "over-the-counter" to anyone who comes to them and is willing to accept their prices. Because over-the-counter dealers are in computer contact and know the prices set by one another, the OTC market is very competitive and not very different from a market with an organized exchange.
vi. Spots, futures, forwards, and option markets
We may also distinguish between spot markets, futures or forward markets, and option markets (all known as derivative markets).
Spot markets--A spot market is one in which securities or financial services are traded for immediate delivery (usually within one or two business days). For example, if you pick up the telephone and instruct your broker to purchase Telecom Corporation shares at today's price, you expect to acquire to acquire ownership of Telecom shares in a matter of minutes.
Futures or forward markets--A futures or forward market is designed to trade contracts calling for the future delivery of financial instruments. For example you may call your broker and ask to purchase a contract from another investor calling for delivery to you of $1 million in government bonds six months from today. The purpose of such a contract would be to reduce risk by agreeing on a price today rather than waiting six months, when government bond prices might have risen. They offer opportunities to reduce risk.
Options markets--Options markets also offer investors in the money and capital markets an opportunity to reduce risk. These markets make possible the trading of options on selected stocks and bonds, which are agreements (contracts) that give an investor (holder of option) the right, but not the obligation, to either buy designated securities from (call option) or sell designated securities to (put option) the writer of the option at a guaranteed price at any time during the life of the contract (American option).
vii. Swap markets
Swap markets also offer investors in the money and capital markets an opportunity to reduce risk. A swap is a financial contract that obligates one party to exchange (swap) a set of payments it owns for a set of payments owned by another party. There are two basic kinds of swaps: (1) currency swaps involve the exchange of a set of payments in one currency for a set of payments in another currency; (2) interest-rate swaps involve the exchange of a set of interest payments for another set of interest payments, all denominated in the same currency.
viii. The foreign exchange markets
The market in which exchange rates are determined. The exchange rate is the price of one currency in terms of another.
e. Factors Tying All Financial Markets Together
Each corner of the global financial system represents a market segment with its own special characteristics. Each segment is insulated from the others to some degree by investor preferences and by rules and regulations. Yet when interest rates and security prices change in one corner of the financial system, all of the financial markets likely will be affected eventually. This implies that, even though the global financial system is split-up into many different markets, there must be forces at work to tie all financial markets together.
i. Credit, The Common Commodity
One unifying factor is the fact that the basic commodity being traded in most financial markets is credit . Borrowers can switch from one market to another, seeking the most favorable credit terms wherever they can be found. The shifting of borrowers between markets helps to weld the parts of the global financial system together and to bring credit costs in different markets into balance with one another.
ii. Speculation and Arbitrage
Another unifying element is profit seeking by demanders and suppliers of funds. Speculators in securities are continually on the lookout for opportunities to profit from their forecasts of future market developments. The speculator in the financial marketplace gambles that security prices or interest rates will move in a direction that will result in quick gains due to his or her ability to outguess the market's collective
judgment. Many speculators are risk seekers, willing to gamble their funds even when probability of success is low. Speculators perform an important function in the financial markets by leveling out the prices of securities, buying those they believe are underpriced and selling securities thought to be overpiced.
Still another unifying force in the financial markets comes from investors who watch for profitable opportunities to arbitrage funds-transferring funds from one market to another whenever the prices of securities in different markets appear to be out of line with yield between the two each other. Arbitrageurs help to maintain consistent prices between markets. aiding other security buyers in finding the best prices with minimal effort.
iii. Perfect and Efficient Markets
There is some research evidence today suggesting that all financial markets are closely tied to one another due to their near perfection and efficiency.
What is a perfect market? It is one in which the cost of carrying out transactions is zero or nearly so and all market participants are price takers (rather than being able to dictate prices to the market). In such a market, there are no significant government restrictions on trading and the movement of funds; rather, competition among buyers and sellers sets the terms of trade. No financial market today is completely perfect, but several seem to come close to being so..
Some financial markets may also have another very desirable characteristic: The prices of financial instruments may accurately reflect their inherent value and fully reflect all available information. Moreover, a new information supplied to the market may quickly be impounded in a new set of prices. A market in which prices fully reflect the latest available information is an efficient market. In an efficient market, no information that might affect security prices or interest rates is wasted. Thus, no buyer or seller can expect to reap excess profits from collecting information that is readily available in the marketplace and then trading on the basis of that information. Numerous studies of the financial markets spanning decades suggest that they approach fairly financial closely the ideal of a perfect and an efficient marketplace.
iv. Financial Markets in the Real World: Imperfection and Asymmetry
Unfortunately, as nearly perfect and efficient as many financial markets are, there is still a great deal that is imperfect in our financial system. Not all financial service markets are fully competitive, and collusion to fix prices and interest rates does occur.
We now realize that not all the information needed by purchasers of financial services is readily or cheaply available all over the world. Increasingly, we are coming to an awareness of the importance of asymmetric information in our global financial system-that is, different participants in the financial markets often operate with different sets of information, some possessing special or inside information that others do not possess. The result is that some market players may be able to earn excess profits by taking advantage of the special information they possess.
3. Financial assets, money, and financial transactions in the global financial system
a. The Creation of Financial Assets
What is a financial asset? It is a claim against the income or wealth of a business firm, household, or unit of government, represented usually by a certificate, receipt, computer record file, or other legal document, and usually created by or related to the lending of money. Familiar examples include stocks, bonds, insurance policies, futures contracts, and deposits held in a bank or credit union.
b. Characteristics of Financial Assets
Different Kinds of Financial Assets:
(1) Money--A financial asset that serves as a medium of exchange and standard of value for purchases of goods and services.
(2) Equities--Shares of common or preferred stock, with each share representing a certificate of ownership in a business corporation.
(3) Debt securities--Financial claims against the assets of a business firm, individual, or a unit of government, represented by bonds or other contracts evidencing a loan of money.
(4) Derivatives--Financial instruments, such as swaps, futures, and options, whose value depends upon an underlying financial instrument such as stock or bond.
The Creation Process for Financial Assets
Financial assets arise in the process of borrowing and lending money, or are related to such processes, e.g., derivatives. Any time funds are borrowed (or stock is issued) a financial asset is created which represents a claim against the future earnings or wealth of the borrowing unit. Since borrowing always gives rise to both a financial asset and a liability of equal amount, it follows that the volume of financial assets created and outstanding must also equal the volume of liabilities created or outstanding.
Assets represent accumulated uses of funds made by an economic unit; liabilities and net worth represent the accumulated sources of funds that an economic unit has drawn upon to acquire the assets it now holds. A balance sheet must always balance.
Total assets = Total liabilities + Net worth.
Internal Financing versus External Financing
Internal financing = Use of saving by an economic unit, rather than debt, to support the acquisition of real or financial assets.
External financing = Use of debt or equities to support the acquisition of real or financial assets.
c. Financial Assets and the Global Financial System
Equality of Financial Assets and Liabilities
Volume of financial assets created for lenders = volume of liabilities issued by borrowers
Example: A bank's loan of $4000 = a borrower's IOU of $4000
Other Basic Identities in the Financial System: Borrowing and Lending, Saving and Investment
Total uses of funds = Total sources of funds
Total assets = Total liabilities + Net worth
Real assets + financial assets = Total liabilities + Net worth
For the economy and the financial system as a whole,
Total financial assets = Total liabilities
Total real assets = Net worth (accumulated savings)
Role of the Financial System in Channeling Savings into Investment Spending to Accelerate Economic Growth
The financial system provides the essential channel necessary for the creation and exchange of financial assets between savers and borrowers so that real assets can be acquired. Without that channel for savings, the total volume of investment in the economy surely would be reduced. All investment by individual economic units would have to depend on the ability of those same units to save (i.e., engage in internal financing). Many promising investment opportunities would have to be forgone or postponed due to insufficient savings. Society's scarce resources would be allocated less efficiently than is possible with a system of financial markets. Growth in society's income, employment, and standard of living would be seriously impaired without a vibrant financial system at work.
d. Lending and Borrowing in the Financial System
Different Economic Units Active in the Financial System:
(1) Deficit -Budget units (net borrowers of funds)
(2) Surplus -Budget units (net lenders of funds)
(3) Balanced Budget units.
The financial system must conform to the following identity:
Current income receipts - Expenditures out of current income =
Change in holdings of financial assets - Change in debt and equity outstanding
R - E =
FA
D
-D
D
Deficit-budget unit (net borrower of funds) E > R; and so
D
D
>FA
D
Surplus-budget unit (net lender of funds) R > E; and so
FA
D
>D
D
Balanced-budget unit R = E; and, therefore
D
D
=FA
D
(neither net lender nor net borrower)
Major Contribution of the Financial System--Makes possible continual shifting of units and sectors between net borrowers and net Lenders of funds
e. Money as a Financial Asset
i. What is money?
The most important financial asset in the economy is money---0ne of the oldest and most useful inventions in the history of the world. Money is anything that is readily accepted to buy goods and services and to payoff debts. Metallic coins served as money for many centuries until paper notes (currency) first appeared in China during the Tang Dynasty over a thousand years ago (618-907 A.D.) and in Sweden in 1661. The Federal Government of the United States did not issue paper money until 1861 in the form of notes known as "green- backs" because of the green ink showing on the back of each note. Many other assets besides currency and coin have served as money in earlier periods, including beads, seashells, salt, cigarettes, and even playing cards.
All financial assets are valued in terms of money, and flows of funds between lenders and borrowers occur through the medium of money. Money itself is a true financial asset, because all forms of money in use today are claims against some institution, public or private. For example, one of the largest components of the money supply today is the checking account, which is the debt of a bank. Another important component of the money supply is currency and coin-the pocket money held by the public. The bulk of currency in use today in the United States, for example, consists of Federal Reserve notes, representing debt obligations of the 12 Federal Reserve banks. In fact, if the Federal Reserve ever closed its doors (a highly unlikely event!), Federal Reserve notes held by the public would be a first claim against the assets of the Federal Reserve banks.
Other forms of money gaining in popularity include credit and debit cards to allow instant borrowing or the withdrawal of funds from a bank deposit; stored-value ("smart") cards that are encoded via computer with a fixed amount of money available for spending; and digital cash available through the Internet computer network from a variety of financial service providers. Some concepts of what money is today include savings accounts at banks, credit unions, and money market funds-all forms of debt, giving rise to financial assets.
ii. Functions of Money
Money performs four important functions:
1. Medium of Exchange--An attribute of money that permits it to be used as a means of payments
2. Standard of Value--unit of account: An attribute of money that permits it to be used as a measure of the value of goods, services, and financial assets
3. Store of Value--A way to transport purchasing power from one period to the next
4. Standard of deferred payment--An attribute of money that permits it to be used as a means of valuing future receipts in loan contracts
iii. Money, barter, and the double coincidence of wants
Barter = The direct exchange of one good for another without the use of money
Barter requires the "double coincidence" of wants"--Two individuals coincidentally would have to be willing and able to make a trade.
Money eliminates this requirement.
iv. Alternative Definitions of Money (M1, M2, M3, and L)
Money performs several important functions in the financial system, serving as a medium of exchange, a store of value (purchasing power), a standard for valuing goods and services (unit of account), and a source of liquidity (spending power). These different functions of money in the financial system have given rise to a variety of different definitions of the actual money supply available to the public, with each definition reflecting a different role or function that money performs for those who hold it. For example, in the United States the principal definitions of money in use today are:
MI = The sum of all U.S. currency and coin held by the public (outside the cash in the vaults of the U.S. Treasury, the Federal Reserve banks, and depository institutions), travelers checks issued by nonbank financial institutions, and checking accounts (demand deposits), NOW accounts, and Automatic Transfer Services at all commercial (banks, credit unions, and thrift institutions (except for interbank, U.S. government, and foreign bank deposits and Federal Reserve float).
M2 = The sum of MI plus small savings and time deposits (under $100,000 each in amount), balances held in general-purpose and broker-dealer money market fund accounts, short-term repurchase agreements (bearing overnight maturities and continuing contracts that can be canceled with 24-hours notice) issued by depository institutions, and overnight foreign U.S. dollar deposits (Eurodollar) issued to U.S. residents by foreign branches of U.S. banks worldwide.
M3 = The sum ofM2 plus large time deposits (each over $100,000 in amount) and longer-term repurchase agreements issued by all depository institutions, longer-term foreign U.S. dollar deposits (Eurodollars) held by U.S. residents at foreign branches of U .S. banks worldwide and at all banking offices in the United Kingdom and Canada, and balances in institution-only money " market funds.
L = The sum of the components ofM3 plus the nonbank public's holdings of U.S. savings bonds, short-term U.S. Treasury securities, commercial paper, and bankers' acceptances net of money market fund holdings of these assets.
Note that M1, the narrowest definition of the supply of money or money stock, focuses mainly upon immediately spendable money (such as pocket change and checking accounts) and, therefore, views money primarily as a medium of exchange.
In contrast, M2 and M3 reflect mainly money's store of value role as captured by savings accounts, money market fund shares, and short-term borrowing in the money market by depository institutions.
The L (liquidity) definition of the money stock reflects both the store of value idea and the near-money assets held by the public that can be quickly converted (liquidated) into spendable cash, such as U.S. savings bonds and other shorter-term negotiable securities. No single definition of money is necessarily "right" or "wrong." Each reflects a different dimension of money's function as an important financial asset in the economy.
f. The Evolution of Financial Transactions
i. Evolution of Global Financial System Toward More Complex Financial Transactions
ii. Direct finance, Semi-direct finance, Indirect finance, Financial intermediation
When individual savers allocate some of their savings to business by purchasing a corporate bond, they effectively make a direct loan to the business. They assist in the direct finance of the capital investment that the business desires.
Direct finance = Any financial transaction in which a borrower and a lender of funds communicate directly and mutually agree on the terms of a loan, without the aid of a third party.
Limitations: There must be a coincidence of wants between surplus-and-deficit budget units in terms of the amount and form of a loan; high information costs simply to find each other.
But the process of financing is not always direct. Early in the history of most financial systems, a new form of financial transaction called semidirect finance appears. Semi-direct finance refers to any transaction (especially borrowing and lending of money) that is assisted by a security broker or dealer. Semi-direct is an improvement over direct finance in a number of ways. It lowers the search (information) costs for participants in the financial markets.
Limitations: The ultimate lender still winds up holding the borrower's securities, and therefore, the lender must be willing to accept the risk and maturity characteristics of the borrower's IOU. There still must be a fundamental coincidence of wants and needs between surplus-and-deficit budgeted units for semi-direct transactions to take place.
The limitations of both direct and semi-direct finance stimulated the development of indirect finance carried out with the help of financial intermediaries. Indirect finance is also known as financial intermediation, in which financial institutions are carried on through a financial intermediary.
Consider what happens if a saver purchases a long-term time deposit issued by a banking firm. The bank, in turn, may use these funds, together with those of the other holders, to buy corporate bonds issued by the same business. In this instance, the saver has indirectly financed business capital investment. The bank has intermediated the financing of the investment. This process of indirect finance, which is the most common way in which funds are channeled from saving to investment, is financial intermediation. Institutions that serve as middlemen in this process are financial intermediaries. The intermediaries exist solely to take funds of savers and redistribute those funds to the ultimate borrowers.
iii. Advantages of intermediation
Asymmetric Information
Adverse selection
Moral hazard
Transaction costs and (financial) economies of scale
Asymmetric information
Why should savers wish to channel their funds through some other institution instead of lending them directly? Most economists agree that one key reason is the presence of asymmetric information in financial markets.
Asymmetric information = Possession of information by one party in a financial transaction but not by the other party.
For example, a borrower who takes out a loan usually has better information about the potential returns and risks associated with the investment projects for which the funds are earmarked than the lender does. Lack of information (Asymmetric information ) creates problems in the financial system on two fronts:
Before the transaction is entered (adverse selection) and after (moral hazard).
(1) Adverse selection
Adverse selection is the problem created by asymmetric information before the transaction occurs. It is defined as the likelihood that those who desire to issue financial instruments have in mind using the funds they receive for unworthy, high risk projects. The tendency for those who desire funds for unworthy projects to be the most likely to want to borrow or to issue debt instruments. The existence of such poor quality instruments can make people less willing to lend or to hold debt instruments issued by those seeking to finance high-quality projects.
Adverse selection in financial markets occurs when the potential borrowers who are the most likely to produce an undesirable (adverse) outcome-the bad-credit risks-are the ones who most actively seek out a loan and are thus most likely to be selected.
Because adverse selection makes it more likely that loans might be made to bad credit risks, lenders may decide not to make any loans even though they are some good-credit risks in the marketplace.
(2) Moral hazard
Moral hazard is the problem created by asymmetric information after the transaction occurs. It is defined as the possibility that a borrower might engage in more risky behavior after a loan has been made. That is, after the financial market transaction has been made, the borrower might increase the riskiness of the instrument the lender holds, thereby acting "immorally" from the perspective of the lender.
Moral hazard in financial markets is the risk (hazard) that the borrower might engage in activities that are undesirable (immoral) from the lender's point of view because they make it less likely that the loan will be repaid.
Because moral hazard lowers the probability that the loan will be repaid, lenders may decide they would rather not make the loan.
Transaction cost and economies of scale
Another reason why financial intermediaries exist is because of economies of scale = the reduction that can be achieved in the average cost of managing funds by pooling savings together and spreading the management costs across many savers.
Transaction costs, the time and money spent in carrying out financial transactions, are a major problem for people who have excess of funds to lend. Financial intermediaries can substantially reduce transaction costs because they have developed the expertise in lowering them and because their sizes allow them to take advantage of the economies of scale, the reduction in transaction costs per dollar of transactions as the size (scale) of transaction increases. For example, a bank knows how to hire a good lawyer to produce a loan contract, and this contract can be used over and over again in its loan transactions, thus reducing the legal cost per transaction.
Because financial intermediaries are able to reduce transaction costs substantially, they make it possible for you to provide funds indirectly to people with productive investment opportunities.
In addition, a financial intermediary's low transaction costs mean that it can provide its customers with liquidity services, services that make it easier for customers to conduct transactions. For example, banks provide depositors with checking accounts that enable them to pay their bills easily.
The problems created by adverse selection and moral hazard are important impediment to well-functioning financial markets. Again, financial intermediaries can alleviate these problems. With financial intermediaries in the economy, small savers can provide their funds to the financial markets by lending these funds to a trustworthy intermediary (say Fleet), which in turn lends the funds out either by making loans or by buying securities such as stocks or bonds.
Successful financial intermediaries have higher earnings on their investments because they are better equipped than individuals to screen out good from bad credit risks, thereby reducing losses due to adverse selection.
In addition, financial intermediaries have earnings because they develop expertise in monitoring the parties they lend to, thus reducing the losses due to moral hazard. The result is that financial intermediaries an afford to pay lender-savers interest or provide substantial services and still earn a profit.
The success of financial intermediaries is evidenced by the fact that most Americans invest their savings with them and also obtain their loans from them. Financial intermediaries play a key role in improving efficiency because they help financial markets channel funds from lender-savers to people with productive investment opportunities. Without a well-functioning set of financial intermediaries, it is very hard for an economy to reach its potential.
iv. Major financial institutions active in the money and capital markets
(See Exhibits)
v. Disintermediation
Disintennediation is the withdrawal of funds from financial intermediaries by savers and the placement of those funds into financial assets through direct and semi-direct financial transactions. It generally occurs during periods of high and rapidly rising interest rates when financial intermediaries often cannot compete effectively with yields on securities sold in the open market.
Deregulation of deposit interest rates has reduced the severity of the problem because no matter how high interest rates rise depository institutions can compete. Recently many forms of disintermediation .have appeared in the form of loan sales by intermediaries which reduce their total assets and raise more capital and in the guise of corporations and other large borrowers avoiding borrowing from financial intermediaries in favor of selling securities directly in the open market, thus substituting direct and semi-direct finance for indirect finance (financial intermediation).
4. Sources of information for financial decision-making
a. Types of financial decisions by lenders, borrowers, investors and government and the need of information
Every day in the money and capital markets, individuals and institutions must make important financial decisions. For those who plan to borrow, for example, key decisions must be made concerning the timing of a request for credit and exactly where the necessary funds should be raised. Lenders of funds must make decisions on when and where to invest' their limited resources, considering such factors as the risk and expected return on loans, and securities available in the financial marketplace. Government policymakers also are intimately involved in the financial decision-making process. It is the responsibility of government to ensure that the financial markets function smoothly in channeling savings into investment and in creating a volume of credit sufficient to support business and commerce.
Sound financial decisions require adequate and accurate financial information . Borrowers, lenders, and those who make financial policy require data on the prices and yields attached to individual loans and securities today and the prices and yields likely to prevail in the future. A borrower, for example, may decide to postpone taking out a loan if it appears that the cost of credit will be significantly lower six months from now than it is to- day. Those who wish to attempt a forecast of future interest rates and security prices need information concerning the expected supply of new securities brought to market and the expected demand for those securities. Because economic conditions exert a profound impact on the money and capital markets, the financial decision-maker must also be aware of economic data series that reflect trends in employment, prices, and related types of information.
What are the principal sources of financial information? Where do financial decision makers go to find the data they need? We may divide the sources of information relied on by financial decision makers into five broad groups: (1) debt security prices and yields, (2) stock prices and dividend yields, (3) information on security issuers, (4) general economic and financial conditions, and (5) social accounting data. In this section, we will discuss the most important sources of each of these different kinds of information;
b. Efficient markets and asymmetric information
Before we examine the principal sources of information available to financial market participants, however, we need to be aware of a great debate going on in the fields of finance today concerning the availability and cost of information. One view, referred to as the efficient markets hypothesis (EMH), contends that information relevant to the pricing of loans, securities, and other financial assets is readily available to all borrowers and lenders at negligible costs.
The other view, called asymmetry or the concept of asymmetric information, argues that the financial marketplace contains pockets of inefficiency in the availability and use of information.
(1) The Efficient Markets Hypothesis (EMH)
The efficient markets hypothesis (hereafter EMH) suggests that all information that has a bearing on the value of stocks, bonds, and other financial assets will be used to value (price) those assets. The EMH contends that information relevant to the pricing (valuation) of loans, securities, and other financial assets is readily available to all borrowers and lenders at negligible cost. An efficient market simply does not waste information. Under the terms of the EMH, the money and capital markets will not consistently ignore information that can earn profits, so there won't be any profitable trades that are not made (at least not for very long).
Because all of the information available has been used to establish the value of financial instruments, no single user of that same information can earn "excess returns" by trading on information available to all interested investors. Rather, in an efficient marketplace, each financial asset will generate an "ordinary" or "normal" rate of return commensurate with its level of risk. And the returns on all securities and portfolios should lie along the security market line (SML).
CAPM and the Security Market Line
Under the terms of the widely accepted capital asset pricing model (CAPM), the expected return on a financial asset will be:
)
(
i
R
E
=f
r
+i
b
EMBED Equation.3)
)
(
(
f
M
r
R
E
-
)
(
i
R
E
= expected return on ith asset
)
(
M
R
E
= expected return on market's entire collection of financial asset (the whole market portfolio or M)
f
r
= risk-free interest rate (often approximated by the return on government bonds)
i
b
= a measure of an individual asset's or portfolio of asset's risk exposure compared to the risk exposure of the whole market portfolio.
i
b
= Cov(i
R
,M
R
)/Var(M
R
)
i
b
=r
(i
R
,M
R
).j
R
s
.M
R
s
/2
M
R
s
r
= correlation
s
=standard deviation
2
s
=variance
i
b
EMBED Equation.3)
)
(
(
f
M
r
R
E
-
measures the risk premium-the reward for risk-taking- that will be demanded by investors in the money and capital markets before they are willing to buy and hold a risky asset or portfolio of risky assets (such as corporate bonds or stocks) instead of holding a risk-free asset (such as a government bond). The risk premium is the product of the financial marketplace's reward for each unit of risk accepted by an investor. The line or curve for the CAPM model is called the security market line (SML).Beta (
b
) is an index of risk of an individual asset or portfolio of assets relative to the risk of the whole market's portfolio of assets.Under the terms of the EMH, the returns on all securities and portfolios should lie along the SML. If the EMH is correct, any temporary deviation of actual returns from expected returns lying along the SML (i.e., excess positive or excess negative returns) should be quickly eliminated as investors react to temporarily underpricing (when an asset's actual retun rises above its expected return along the SML) or temporary overpricing of assets (when an asset's actual return falls below its expected return on the SML) and make changes in their asset portfolios.
The essential contribution that the EMH makes to our understanding of the money and capital markets is to suggest that current prices of all financial assets represent the optimal use of available information.
Different form of the EMH . In recent years, the EMH has been split into three different versions based on what each assumes to be true about the availability and cost of information
· Weak form of the EMH, argues that the current prices of financial assets contain all information that buyers and sellers have been able to obtain on the past trading of those assets: their price history and past volume of trading. Moreover, this past price and trading information is publicly available and of negligible cost to obtain. No one buyer or seller of stocks, bonds, or other financial assets can earn excess profits beyond those that are normal for the amount of risk taken on from trading on this historical price and volume information. If this were not true, investors would have figured out long ago how to profit from such historical data and asset prices would have been adjusted accordingly, eliminating further opportunities for exceptional returns.
· Semistrong form of the EMH, contends that the current prices of stocks, bonds, and other financial assets already reflect all publicly available information affecting the value of these financial instruments, including information about past prices and volume, the financial condition and credit rating of each issuer, any published forecasts, the condition of the economy, and all other relevant information. All buyers and sellers are rational and use all publicly available information to help them value financial assets. No one buyer or seller will, therefore, find opportunities for exceptional profits by trading on any publicly available information.
· Strong form of the EMH; which argues that the current prices of financial assets capture all the information-both public and private-that is relevant to the value of those financial instruments. This includes the information possessed by "insiders," such as the officers, directors, and principal owners of a corporation issuing stocks and bonds or even accountants, attorneys, or journalists who work with the company and have access to its privileged information.
(2) The Concept of Asymmetric Information
What if all relevant information about the true value of financial assets is not readily available or costless to obtain? What would happen if some important information pertinent to decision making were distributed asymmetrically so that deep pockets of special knowledge existed in the financial marketplace?
The asymmetric view says that there are pockets of special information-a "lumpiness" in the supply of relevant information about financial assets. These pockets may include corporate insiders, journalists, security dealers, and financial analysts who possess unique analytical skills in spotting profitable trades. These possessors of special knowledge need not be operating illegally. Indeed, they may come by their unique talents in assessing value and risk through rigorous schooling and on-the-job training or by virtue of the special location they occupy within the financial system. Every year hundreds of corporations flock to college campuses to hire graduates whom they believe have the potential to become expert judges of the quality of financial assets.
Information asymmetries exist when there are pockets of information available to particular investors. These investors can earn excess profits by using this information, which is costly for others to obtain.
When information asymmetries exist, both the quality and quantity of information may vary.
Problems Information Asymmetries Can Create:
Lemon and plums
The "lemons problem" exists when buyers and sellers have different information sets. For example, the used car seller has more information than the buyer; and the bank borrower has more information than the loan officer. High quality participants may be driven from the market because prices rise to compensate the party with less information.
The Problem of Adverse Selection
Adverse selection resolves around differences in the risk presented by different groups of customers who want to enter into contracts with financial institutions. In this case, information asymmetry exists before the parties to a contract reach an agreement. When an asymmetrical distribution of information is already present, it can drastically alter the nature of contracts that a business firm is willing to write in order to serve its customers.
Adverse selection exists when more costly market participants choose one financial-service firm for the services they need, while less costly market participants choose another whose prices are more in line with their expectations. Securities regulations are one mechanism for addressing information asymmetries.
The concept of moral hazard
Moral hazard is the problem created by asymmetric information after the transaction occurs. It concerns the risk that one party to a transaction will engage in behavior that is undesirable from the other party's point of view. It also occurs when one party to an agreement or relationship uses their position of power or special knowledge to pursue their own self-interest and receives special benefits or rewards at the expense of the other party to the agreement or relationship.
Asymmetry, Efficiency, and Real-World Markets
No market in the real world in which we live is either completely efficient or completely asymmetric.
Possible Remedies for Informational Asymmetries
(One way to deal with market asymmetries is to pass laws and regulations designed to improve the flow of information between buyers and sellers and to protect the public against lying and deception in trading and valuing financial assets. For example, in 1933 the United States passed the Securities Act, requiring companies selling securities across state lines to submit a prospectus to a federal agency, the Securities and Exchange Commission (SEC), giving detailed economic and financial information on the firm's condition and prospects.
b. Major sources of financial information
If you need to gather information for a possible stock or bond purchase, where would you look? What information is available on the financial conditions of major U.S. companies?
Information exists on the history of each firm, its recent acquisitions/mergers, recent financial statements, stock prices, dividend yields, and ratings of corporations. Security price information can be gathered from numerous sources, including the Wall Street Journal, Value Line, and S&P Stock Reports. The Moody's Manuals (industrial, banking and finance, utility, transportation, and government) provide individual-firm financial data and histories. These sources can be supplemented with data from SEC 10-K Reports.
Information on debt prices and yields:
Wall Street Journal, Daily Bond Buyer, Commercial and Financial Chronicle, Federal Reserve Bulletin, Survey of Current Business.
Information on stock prices and dividend yields
Wall Street Journal, Value Line, 3-Trend Security, Charts and Cycli-Graphs, S&P's Stock Reports, S&P's Daily Stock Price Record, S&P's Stock Series.
Information on security issuers
Moody's Industrial Manual, Bank and Manual, Public Utility Manual, Transportation Manual and Municipal and Government Manual, Moody's Bond Report, Troy's Almanach, Robert Morris & Associates Annual Statement Studies, Standard and Poor's Industrial Surveys, Analysts Handbook.
Information on general and financial conditions
Federal Reserve Bulletin, U.S. Financial Data, Monetary trends, National Economic Trends, Survey of Current Business, Wall Street Journal.
d. Social accounting
Social accounting is a system of record keeping that reports transactions between the principal sectors of the economy (households, business firms, financial intermediaries, government agencies).
National Income Accounts (NIA)
NIA, a system of social accounts compiled and issued quarterly by the U.S. Department of Commerce, presents data on the nation's production, income flows, investment spending, consumption, and total savings.
NIA provides extensive information on the level and growth of the nation's economic activity, but little data on financial transactions or about what goes on in the money and capital markets.
The Flow of Funds Account (FFA)
FFA, a system of social accounts prepared quarterly by the Board of Governors of the Federal Reserve System, provide data on financial transactions between economic sectors. FFA traces the flow of savings into purchases of financial assets, shows how different sectors relate to, and interact with each other; and highlights the interconnections between the financial sector and the rest of the economy.
How the Flow of Funds Accounts Are Constructed
Construction of the Flow of Funds Account takes place in four basic steps:
(1) Sectoring the economy: divide economy into broad sectors (12 major sectors). Construct balance sheets for each sector
The data needed to construct sector balance sheets in the FFA come from a wide variety of public and private sources. For example, information on lending, borrowing and acquisitions of securities by non-financial businesses is derived from such sources as the Securities and Exchange Commission (SEC) and the U.S. Department of Commerce. Various trade groups provide financial data on their respective industries, and the Securities Industry Association provides selected information on gross offerings of securities.
(2) Prepare sources and uses of funds statements
The sources and uses of funds statement shows changes in net worth and changes in holdings of financial assets, real assets, and liabilities from each sector. These are arranged as follows:
Sources and Uses of Funds Statement
Use of funds Sources of funds
Change in financial assets Change in liabilities
Change in real assets Change in net worth
= Change in total assets = Change in liabilities and net worth
= Total uses of funds = Total sources of funds
Balancing out a Sources and Uses of Funds Statements
Net Investment in + Net Acquisitions of =Net Increase in + Change in
Plant and Equipment Financial Assets Liabilities Current surplus Account
Real Investment + Financial Investment = Current Borrowing + Current Saving
(Change in net worth)
Net Real Investment + Net Financial Investment = Net Borrowing + Net Current Saving
Total uses of funds = Total sources of funds
(3) Construct a Flow of Funds Matrix for the economy as a whole
The flow of funds matrix reminds us that, for all sectors of the economy combined into one, the amount of savings must equal the total amount of real investment in the economy, and the amount of borrowing in total must equal total financial investment.
Limitations and Uses of the Flow of Funds Accounts
The FFA contains several important limitations. They are based upon many estimates due to information and reporting gaps, do not reflect financial transactions between units occupying the same sector (intra sector transactions), rest upon market values of financial assets and liabilities which tends to distort the actual amount of savings flows in the economy, and typically contain large statistical discrepancies.
Because of these and other limitations in the FFA, we must be cautious in reading, interpreting, and using the figures generated when these accounts are constructed each quarter of the year.
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ClassNotes2 (1).doc
II. INTEREST RATES AND SECURITY PRICES
A. Interest rate and its roles in the economy
1. The significance and nature of interest rates
The money and capital markets are one vast pool of funds depleted by borrowing activities of households, businesses, and governments, and replenished by the savings these sectors supply to the financial system.
The acts of saving and lending, borrowing and investing are intimately linked through the financial system. And one factor that significantly influences and ties all of them is the interest rate.
The interest rate is the price a borrower must pay to secure scarce loanable funds from a lender for an agreed-upon period. It is the price of credit.
Interest rate = The price of acquiring credit, usually expressed as a ratio of the cost of securing credit to the total amount of credit obtained.
Interest rate =
borrowed
money
of
Amount
borrowing
of
Cost
, expressed on an annual percentage basis.Interest rates send price signals to borrowers, lenders, savers, and investors. High interest rates generally bring forth a greater volume of savings and stimulate savings; but tend to reduce the volume of borrowing and capital investment. Lower interest rates, on the other hand, tend to dampen the flow of savings and reduce lending activity, and stimulate borrowing and investment spending.
2. Functions of the interest rates
The interest rate performs several important roles/functions in the economy:
(1) It directs flow of current savings into investment to promote economic growth
(2) It rations available credit supply towards projects with highest expected returns
(3) It brings demand for money into balance with the nation's money supply
(4) It serves as a tool of government economic policy
B. Theories of interest rate determination
We will focus on the basic forces that influence the level of all interest rates. To uncover the basic rate-determining forces, however, we must make a simplifying assumption. We assume that there is one fundamental interest rate known as the pure or risk-free rate of interest, which is a component of all interest rates.
1. What is a risk-free rate of interest or pure rate of return?
The risk-free rate of interest is a rate of return presenting no risk of financial loss to the investor and represents the true opportunity cost of holding idle money because riskless securities always pay the minimum rate of return. It is a component of all other interest rates.
The objective of this section II.B is to see different theories of how the risk-free rate of interest is determined. Once we explain how the risk-free rate of interest is determined, the interest rates we see in the real world may be determined from it by examining the special characteristics of the securities issued by individual borrowers.
As we will see, differences in risk, liquidity, marketability, and maturity are important factors that cause real-world interest rates to differ from the pure or risk-free rate. First, however, we must examine the forces that, in theory, determine the pure or risk-free interest rate itself.
Here, we present four different theories of interest rate determination.
(1) The Classical Theory of Interest Rate
(2) The Liquidity Preference Theory of Interest Rate
(3) The Loanable Funds Theory of Interest Rate
(4) The rational Expectations Theory of Interest Rate
2. The Classical Theory of Interest Rate
The Classical Theory of Interest Rate focuses upon the supply of savings (mainly from households) and the demand for investment capital (mainly from businesses).
a. Saving supply and interest rates
Saving has mainly three components:
· Saving by households (Personal saving,
P
S
)Current saving = Current income - Current consumption expenditures
According to the Classical Theory,
P
S
depends on income and also interest rate. In other words, we have:
P
S
= S(Y, R)The theory assumes that individuals have a definite time preference for current over future consumption. Therefore, the only way to encourage an individual or family to consume less now and save more is to offer a high rate of return.
Higher interest rates increase the attractiveness of savings relative to consumption spending, encouraging people to substitute current saving (and future consumption) for some quantity of current consumption. This substitution effect calls for a positive relationship between interest rates and the volume of saving.
· Saving by business firms (Business saving,
b
S
)Most businesses hold savings in the form of retained earnings (as reflected in their equity or net worth accounts.
RE = After-tax-corporate profits - Dividends -(
b
S
The volume of business savings depends on three key factors:
--Level of business profits; higher profits -(higher
b
S
--Dividend policies of corporations (do not change often)
--Interest rates also play a role in the decision of what proportions of current operating costs and long-term investment expenditures should be financed internally and what proportions externally. Higher interest rates in the money and capital markets typically encourage firms to use internally generated funds more heavily.
b
S
= S(profits, dividend policies, R)· Saving by government (Government saving,
g
S
)Also, the budget surplus
g
S
= Tax receipts - Government expendituresMost government saving appears to be unintended saving that arises when government receipts unexpectedly exceed the amount of expenditures.
The factors affecting government saving are:
--Income flows in the economy (out of which government revenues arise)
--Pacing of government spending programs
--Interest rates are not a key factor.
g
S
= S(Y, pacing of government programs)Total saving = Personal saving + Business saving + Government saving
Or
g
b
p
total
S
S
S
S
+
+
=
--()
(
R
S
S
total
=
b. The demand for investment funds and interest rates
Savings are important determinants of interest rates according to the Classical Theory of Interest Rate, but they are not the only one. The other critical rate determining factor is investment spending (by business firms, or by households and governments).
Replacement investment, net, and gross investment
· Businesses require huge amounts of funds each year to purchase equipment, machinery and inventories to support the construction of new buildings, and other physical facilities. The majority of business expenditures for these purposes consists of what economists call replacement investment = expenditures to replace equipment and facilities that are wearing out or are technologically obsolete.
· Net investment = expenditures to acquire additional (new) equipment and facilities in order to increase output.
· Gross investment = Replacement investment + Net investment
Also,
Depreciation = the amount by which an asset's value falls in a given period.
Gross investment = the total value of all newly produced capital goods (plant, equipment, housing, and inventory).
Net investment = Gross investment - Depreciation. It is a measure of how much the stock of capital changes during a period.
.
investment
Net
period
of
beginning
period
of
end
+
=
Capital
Capital
Investment decision process
Most business firms have several investment projects under consideration at any time. They make some estimate of net cash flows (revenues - expenses) that each project will generate over its useful life. From this information, management can calculate its expected rate of return and compare that expected return with anticipated returns from alternative projects, as well as with market interest rates.
One method for performing this calculation is the internal rate of return method. The internal rate of return is the rate which equates the total cost of an investment project with the future net cash flows (NCF) expected from that project discounted back to their present values.
Thus, IRR is so that:
Cost of project
n
n
IRR
NCF
IRR
NCF
IRR
NCF
)
1
(
...
)
1
(
)
1
(
2
2
1
+
+
+
+
+
+
=
.The IRR performs two functions:
(1) It measures the annual yield the firm expects from an investment project.
(2) It reduces the value of all future cash flows expected over the economic life of the project down to their PV of the firm.
The firm must compare each project's expected internal rate with the cost of raising capital (the interest rate, cost of capital, or opportunity cost of capital) in the monay and capital markets to finance the project.
As long as IRR>cost of capital, projects will be profitable. If the cost of capital (cost of borrowed funds, i.e current interest rate) rises, less projects will become profitable. At higher rates, fewer investment projects will have an expected rate of return exceeding the cost of (borrowing) capital.
Mention NPV approach
Investment demand and the rate of interest
There exists a negative relationship between investment demand and interest rates. At low rates of interest, more investment projects become economically viable and firms require most funds to finance a longer list of projects.
c. The equilibrium rate of interest in the Classical Theory of Interest Rate
The Classical Theory of Interest Rate is also called a long-term explanation if interest rates because it focuses on the public's thrift habits and the productivity of capital--factors that tend to change slowly. It helps understand some of the long-term forces driving interest rates.
d. Limitations of the Classical Theory of Interest Rate
The theory ignores other factors than saving and investment that affect interest rates. For example, the volume of money created or destroyed affects the total amount of credit available in the financial system and therefore must be considered in any explanation of the factors determining interest rates.
In addition, the Classical Theory assumes that interest rates are the principal determinant of the quantity of savings available. Today, economists recognize that income is actually a more important determinant of the volume of saving.
Finally, the Classical Theory contends that the demand for borrowed funds comes principally from the business sector. Today, however, both consumers and governments are important borrowers, significantly affecting credit availability and cost.
More recent theories address a number of these limitations of the Classical Theory.
3. The Liquidity Preference or Cash Balances Theory of Interest Rates
The Liquidity Preference Theory of Interest Rate focuses on the interaction of the demand and supply of money. John Maynard Keynes (1936) developed a short-term theory of interest rate that was more relevant for policymakers and for explaining near-term changes in interest rates.
a. The demand for liquidity
Keynes argued that the rate of interest is really a payment for the use of a scarce resource, money or cash balances. Interest rates are the price that must be paid to induce money holders to surrender a perfectly liquid asset (cash balances) and hold other assets that carry more risk. Concept that interest rates are the "price" of liquidity.
Motives for holding money (perfect liquidity)
There are three basic motives for holding money:
(1) The transactions motive--The public's demand for money in order to purchase goods and services.
(2) The precautionary motive--Holding money as a reserve for future emergencies and extraordinary expenses.
(3) The speculative motive--Investor's demand for money instead of bonds in expectations of rising interest rates.
The total demand for money
Total demand for money is made up of transactions, precautionary and speculative demands for money. Transactions and precautionary demands are tied to the level of income (Y, spending) in the economy and interest rates (R), while the speculative demand for money are related to expectations of changes in interest rates.
b. Supply of money (cash balances)
The supply of money is controlled by the central bank. Because the central bank's decisions concerning the size of money are guided by public welfare, not by the level of interest rates, we assume that the supply of cash balances is inelastic with respect to the interest rate (vertical).
c. The equilibrium rate of interest in the Liquidity Preference or Cash Balance Theory of Interest Rate
The Liquidity Preference Theory illustrates how central banks such as the Fed can influence interest rates at least in the short-run.
d. Limitations of the Liquidity Preference or Cash Balance Theory of Interest Rate
· It assumes that income remains stable or constant. In the longer term, interest rates are affected by changes in the level of income and inflationary expectations.
· Also, the Liquidity Preference Theory considers only the supply and demand for the stock of money, whereas business, consumers, and government demands for credit clearly have an impact on the cost of credit.
Recall:
Money = A financial asset that serves as a medium of exchange, a store of value, and a unit of account.
Credit = a loan of funds in return for a promise of future payment.
4. The Loanable Funds Theory of Interest Rate
A view that overcomes many of the limitations of the earlier theories is the loanable funds theory of interest rates. This view argues that the risk-free rate of interest is determined by the interplay of two forces: the demand and supply of credit (loanable funds).
The credit view of what determines the levels and changes in interest rates focuses on the interaction of the demand for and the supply of loanable funds.
a. The demand for loanable funds
The total demand for loanable funds comes from the sum of consumer, business, and government demand for credit.
The demand curve slopes downward and to the right with respect to the interest rate. Higher interest rates lead some businesses, consumers, and governments to curtail their borrowing plans; lower rates bring forth more credit demand.
g
b
c
LF
D
D
D
D
+
+
=
b. The supply of loanable funds
Loanable funds flow into the money and capital markets from at least four different sources:
· Domestic saving by businesses, consumers and governments.
· Spending down (dishoarding) of excess money balances held by the public.
· Creation of credit held by the domestic banking system.
· Lending to domestic borrowers by foreigners.
(1) Domestic saving by businesses, consumers and governments--The principal source of loanable funds.
Income effect, substitution effect, Substitution effect, wealth effect
Income effect-( The relationship between interest rate levels and the volume of saving in the economy that argues that the advent of higher interest rates may induce savers to save less because each dollar saved now earns a higher rate of return. The income effect would suggest a negative relationship between interest rates and saving.
Substitution effect( Higher interest rates increase the attractiveness of saving relative to consumption saving, encouraging more individuals to substitute current saving for some quantity of current consumption. The income effect would have opposite effect results for the volume of saving than the substitution effect. The substitution effect argues a positive relationship between interest rates and saving volume. The income effect argues a negative relationship between interest rates and saving volume.
Note: It should not be surprising that the annual volume of saving in the economy is difficult to forecast. Recent research has suggested the importance of another factor-( Wealth effect.
Wealth effect( Individuals accumulate wealth in many forms: real assets and financial assets. What happens to the volume of financial assets as interest rates change? If the interest rates rise, for example, the market value of many financial assets will fall until their yield approaches market-determined levels. Therefore, a rise in interest rates will result in a decrease in the value of wealth held in some financial assets, forcing the individual to save more to protect his/her wealth position.
The net effect of income, substitution, and wealth effects leads to a relatively interest-inelastic supply of savings curve. Substantial changes in interest rates usually are required to bring about significant changes in the volume of aggregate savings in the economy.
(2) Spending down (dishoarding) of excess money balances held by the public--Dishoarding of money balances refers to the idea that some individuals and businesses will dispose of their excess cash holdings, increasing the supply of loanable funds available to others in the financial markets.
(3) Creation of credit held by the domestic banking system--newly created money.
(4) Lending to domestic borrowers by foreigners--Foreign lending to the domestic funds market. Foreign lenders provide large amounts of credit to domestic borrowers in the U.S. These inflowing funds are particularly sensitive to the differences between U.S. interest rates and interest rates overseas. If the domestic interest rate rises relative to the rate offered abroad, the supply of foreign funds to domestic markets will tend to rise.
Total supply of Loanable funds
The total supply of loanable funds, including domestic saving, foreign saving, dishoarding of money, and new credit created by the domestic banking system, is depicted below. The curve rises with higher interest rates, indicating that a greater supply of loanable funds will flow into the money and capital markets when the returns from lending increase.
c. The equilibrium rate of interest in the Loanable Funds Theory of Interest Rate
The interest rate tends toward the equilibrium point at which the supply of loanable funds equals the demand for loanable funds.
Only when the economy, the money market, the loanable funds market, and the foreign currency markets are simultaneously in equilibrium will interest rates remain stable. A stable equilibrium is characterized by the following:
· Planned saving = Planned investment across the whole economic system.
· Money supply = Money demand (equilibrium in the money market).
· Quantity of loanable funds supplied = Quantity of loanable funds demanded (equilibrium in the loanable funds market).
· Foreign demand for loanable funds = Volume of loanable funds supplied by foreigners to the domestic economy-( Current exports - imports.
The simple demand-supply framework is useful for analyzing broad movements in interest rates.
5. The Rational Expectations Theory of Interest Rate
In recent years, a fourth major theory about the forces determining interest rates has appeared: The Rational Expectations Theory of Interest Rate.
This theory builds on a growing body of research evidence that the money and capital markets are highly efficient institutions in digesting new information affecting interest rates and security prices. The Rational Expectation Theory assumes that the financial markets are so efficient that all available information relevant to the prices of securities and interest rates is already reflected in those prices and rates.
Assuming investors are rational and, therefore, using all available information to maximize their returns, security prices and rates will only change if new information appears.
Old news will not affect today's interest rates because those rates already have impounded the old news. Interest rates will change only if new and unexpected information appears.
Forecasting of interest rates is especially difficult because the forecaster must know what the market expects to begin with and then anticipate the impact of new information. Consistent windfall profits are impossible and future changes in security prices and rates are not correlated with their past levels or changes.
Example: Expected demand for and supply of loanable funds under the Rational Expectation Theory.
Limitations of Current Rational Expectations Theory
The rational expectation view is still in development stage. One key problem is that we do not know very much about how the public forms its expectations--what data are used, what weights are applied to individual bits of data, and how fast people learn from their forecasting mistakes. As Bullard (1991) notes, because the rational expectations theory is not well defined, empirical tests of the theory are not yet very convincing.
Several characteristics of real-world markets seem at odds with the assumptions of the expectations theory. For example, the cost of gathering and analyzing information relevant to the pricing of loans and securities is not always negligible, as assumed by the theory, tempting many lenders and borrowers of funds to form their expectations by rules of thumb (trading rules) that are not fully rational.
C. Measuring interest rates—Relationships between interest rates and security prices
Theories of the interest rate help us understand the forces that cause interest rates and the prices of securities to change. However, these theories provide little or no information on how interest rates should be measured in the real world. Here, the methods most frequently used to measure interest rates and security prices in today's financial markets are examined. We also consider the relationship between security prices and interest rates and how they impact each other.
1. Units of measurement for interest rates and security prices
a. Definition of interest rates
The interest rate is the price of credit; the price charged a borrower for the loan of money. This price is unique because it is really a ratio of two quantities
Annual rate of interest on loanable funds (%)
=
borrower
to
available
made
credit
of
Amount
credit
obtain
o
borrower t
for the
lender
by the
required
Fee
b. Basis points
Interest rates on securities traded in the open market rarely are quoted in whole percentage points, such as 5 percent or 8 percent. The typical case is a rate expressed in hundredths of a percent: for example, 5.36 percent or 7.62 percent. Moreover, most interest rates change by only fractions of a whole percentage point in a single day or week. To deal with this situation, the concept of the basis point was developed. A basis point equals 1/100 of a percentage point. For example, an interest rate of 10.50 percent may be expressed as 1,050 basis points. Similarly, an increase in a loan or security rate from 5.25 percent to 5.30 percent represents an increase of 5 basis points.
c. Security prices
The prices of common and preferred stock in the United States are measured in dollars and fractions (halves, quarters, eighths, and sixteenths, as well as in decimals in some cases) of a dollar. For example, a stock price of 51/8 is a quote of $5.125, and 401/4 means each share of a particular stock is selling for $40.25.
Bond prices are expressed in points and fractions of a point, with each point equal to $10 on a $1000 basis. Thus, a U.S. government bond with a price quotation of 97 points is selling for $970 for each $1000 in par (face) value. Fractions of points are typically measured in 32nds, eights, quarters, or halves, and occasionally even 64ths. Note that one-half point equals $5.00, and 1/32 equals $0.3125 on a $1000 basis. Thus, a price of 97 4/32 (sometimes expressed as 97:4 or 97-4 and read as 97 points and 4 ticks) is $971.25 for a $1000 bond. Note a “tick” represents 1/32 point or $0.3125. Quotations expressed in 64ths usually are indicated by a plus (+) sign added to the nearest 32nd. Thus, 100:4+ means 1009/64 or $1,001.41.
Security dealers quote two prices for a security rather than one. The higher of the two is the asked price, which indicates what the dealer will sell the security for. The bid price is the price at which the dealer is willing to purchase the security. The difference between bid and asked prices—known as the spread—provides the dealer’s return for creating a market for the security. Generally, the longer the maturity of a security, the greater the spread between its bid and asked prices. This is due, at least in part, to the added risks associated with trading in long-term securities. Short-term securities may trade with a spread as low as 1/32 (equal to $312.50 for a sale of $1 million in securities). Purchases and sales of intermediate maturities may carry spreads of 4/32 (equal to $1,250 on a $1 million trade), and long-term bonds may be trading on spreads of 8/32 (or about $2,500 for every $1 million sold). For small transactions, a commission fee is usually added to cover the cost of executing the transaction. On large sales, however, dealers often forgo commissions and quote a net price.
2. Measures of the rate of return, or yield, on a loan or security
The interest rate on a loan is the annual rate of return promised by the borrower to the lender as a condition for obtaining the loan. However, that rate is not necessarily a true reflection of the yield or rate of return actually earned by the lender during the life of the loan. The interest rate measures the “price” the borrower has promised to pay for the loan, but the actual yield, or rate of return, on the loan from the lender’s viewpoint may be quite different. In this section, a number of the most widely used measures of the yield or rate of return on a loan or security are discussed.
a. Coupon rate
One of the best-known measures of the rate of return on a debt security is the coupon rate, which appears on corporate and government bonds and notes.
The coupon rate is the promised interest rate on a bond or note consisting of the ratio of the annual interest income promised by the security issuer to the security’s face value.
The amount of promised annual interest income paid by a bond is called its coupon.
The annual coupon may be determined by the formula:
Coupon
Par value
rate
Coupon
=
´
Thus, a bond with par value of $1000 bearing a coupon of 9 percent pays an annual coupon of $90.
The coupon rate is not an adequate measure of the return on a bond or other debt securities unless the investor purchases the security at a price equal to its par value, the borrower makes all of the promised payments on time, and the investor sells or redeems the bond at its value. However, the prices of bonds fluctuate with market conditions; rarely does a bond trade exactly at par.
b. Current yield
Another popular measure of the return on a loan or security is its current yield.
The current yield is the ratio of a security’s promised expected annual income (coupon) to its current market price:
security
of
price
Market
Coupon
or
income
Annual
yield
Current
=
A bond selling in the market for $30 and paying an annual coupon of $3 would have a current yield calculated as follows:
%
10
10
.
0
$30
$3
yield
Current
=
=
=
Frequently, the yields reported on stocks and bonds in the financial press are current yields. Like the coupon rate, the current yield is usually a poor reflection of the rate of return actually received by the lender or investor. It ignores the stream of actual and anticipated payments associated with a loan or security and the price at which the investor will be able to sell or redeem it.
c. Yield to maturity
The most widely accepted measure of the rate of return on a loan or security is its yield to maturity.
The yield to maturity is the interest rate on a debt security that equates the purchase price of the security (its value today) to the present value of all its expected net cash inflows (income) from now until maturity. In general terms,
å
=
+
=
N
1
t
t
t
y)
(1
I
P
where y is the yield to maturity and each I represents the expected annual income form the security, presumed to last for N years and terminate when the financial asset is retired. Assuming that the security pays an annual coupon (C) and is redeemed for its face value (FV) at maturity (N), we have:
N
y
FV
)
1
(
y)
(1
C
P
N
1
t
t
+
+
ú
û
ù
ê
ë
é
+
=
å
=
or
N
N
y
FV
y
)
1
(
)
1
(
1
1
y
1
C
P
+
+
ú
û
ù
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
or
y
N
y
N
PVIF
FV
PVIFA
,
,
C
P
´
+
´
=
To illustrate, assume that the investor is considering the purchase of a bond due to mature in 20 years, carrying a 10 percent coupon rate. This security is available for purchase at a current market price of $850. If the bond has a par value of $1000, which will be paid to the investor when the security reaches maturity, the bond’s yield to maturity, y, may be found by solving the equation:
20
20
1
t
t
)
1
(
000
,
1
$
y)
(1
$100
850
$
y
+
+
ú
û
ù
ê
ë
é
+
=
å
=
or
20
20
)
1
(
000
,
1
$
)
1
(
1
1
y
1
$100
$850
y
y
+
+
ú
û
ù
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
In this instance, y equals 12 percent, a rate higher than its 10 percent coupon rate, because the bond is currently selling at a discount from par.
For calculations, use:
· PV tables
· Bond yield tables
· Financial calculators
The value of a debt security depends on the size of its promised rate of return (coupon rate) relative to the prevailing market interest rates on securities of comparable quality and terms. If a security’s coupon rate equals the current market interest rate on comparable securities, that security will trade at par. If the security’s coupon rate is less than the prevailing market rate, it will sell at a discount from par. Finally, if the security’s coupon rate exceeds the current interest rate in the market, it will sell at a premium above its par value.
If the bond is a perpetuity (ordinary), then we have:
y
C
P
=
Discount bond (also called a zero-coupon bond)
A discount bond is bought at a price below its face value (at a discount), and the face value is repaid at maturity date. Unlike a coupon bond, a discount bond does not make any interest payments. The yield to maturity calculation for a discount bond is similar to that for the simple loan. It is calculated as:
(
)
N
y
FV
P
+
=
1
Let us consider a discount bond such as a one-year U.S. Treasury bill, which pays a face value of $1000 in one year's time. If the current price of the bill is $900, then equating this price to the present value of the $1000 received in one year gives:
(
)
1
1
1000
$
900
$
y
+
=
EMBED Equation.3Þ
y = 11.11%Important fact: current bond prices and interest rates are negatively related: when the interest rate rises, the price of the bond falls, and vice-versa.
d. Holding-period yield
A slight modification to the yield to maturity formula results in a return measure for those situations in which an investor holds a financial asset for a time and then sells it to another investor in advance of the asset's maturity.
The holding-period yield is the rate of return received or expected from a loan or security over the period the investor actual holds it, including the price for which the instrument is sold to another investor. This so-called holding-period yield is simply:
M
M
h
P
)
1
(
h)
(1
I
P
M
1
t
t
t
+
+
ú
û
ù
ê
ë
é
+
=
å
=
where h is the holding-period yield and the investor’s holding period covers M time periods (
N
M
£
). Thus, the holding-period yield is simply the rate of discount (h) equalizing the market price of a financial asset (P) with all net cash flows between the time the asset is purchased and the time it is sold (including the selling price, PM). Assuming that the security pays an annual coupon (C) and is sold for PM in period M, we have:
M
M
h
P
)
1
(
h)
(1
C
P
M
1
t
t
+
+
ú
û
ù
ê
ë
é
+
=
å
=
or
M
M
M
h
P
h
)
1
(
)
1
(
1
1
h
1
C
P
+
+
ú
û
ù
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
or
h
M
M
h
M
PVIF
P
PVIFA
,
,
C
P
´
+
´
=
If the asset is held to maturity, its holding-period yield equals its yield to maturity.
To illustrate, assume that an investor is considering the purchase of a bond due to mature in 20 years, carrying a 10 percent coupon rate. This security is available for purchase at a current market price of $850. The bond has a par value of $1000. If the investor holds the security for 15 years and sells it for $900, his holding-period yield, h, may be found by solving the equation:
15
15
1
t
t
)
1
(
900
$
h)
(1
$100
850
$
h
+
+
ú
û
ù
ê
ë
é
+
=
å
=
or
15
15
)
1
(
900
$
)
1
(
1
1
h
1
$100
$850
h
h
+
+
ú
û
ù
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
In this instance, h equals 11.92 percent.
For calculations, use:
· PV tables
· Bond yield tables
· Financial calculators
e. Yield to call
The yield to call applies to the rate of return received or expected from a callable loan or security over the period the investor actually holds it. A callable security is a security that the issuing company (issuer) can redeem before maturity by paying the investor a call price (which includes a penalty called the call premium). The call price is calculated as:
Call price = Face vale + call premium
The yield to call is computed as:
K
c
c
c
y
P
)
1
(
)
y
(1
I
P
K
1
t
t
t
+
+
ú
û
ù
ê
ë
é
+
=
å
=
where yc is the yield to call and K is the redemption period (
N
K
£
). Thus, the yield to call is simply the rate of discount (yc) equalizing the market price of a financial asset (P) with all net cash flows between the time the asset is purchased and the time it is redeemed (called) by the issuing company (including the call price, Pc). Assuming that the security pays an annual coupon (C), we have:
K
c
c
c
y
P
)
1
(
)
y
(1
C
P
K
1
t
t
+
+
ú
û
ù
ê
ë
é
+
=
å
=
or
K
c
c
K
c
c
y
P
y
y
)
1
(
)
1
(
1
1
1
C
P
+
+
ú
ú
û
ù
ê
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
or
c
c
y
K
c
y
K
PVIF
P
PVIFA
,
,
C
P
´
+
´
=
To illustrate, assume that an investor is considering the purchase of a bond due to mature in 20 years, carrying a 10 percent coupon rate. This security is available for purchase at a current market price of $850. The bond has a par value of $1000. If the issuing company were to redeem the bond 16 years later at a 9 percent call premium, the investor’s yield, yc, may be found by solving the equation:
16
16
1
t
t
)
y
1
(
090
,
1
$
)
y
(1
$100
850
$
c
c
+
+
ú
û
ù
ê
ë
é
+
=
å
=
or
16
16
)
y
1
(
090
,
1
$
)
y
1
(
1
1
y
1
$100
$850
c
c
c
+
+
ú
ú
û
ù
ê
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
In this instance, yc equals 12.40 percent.
For calculations, use:
· PV tables
· Bond yield tables
· Financial calculators
f. Yield to call (another version)
Assuming that the investor can reinvest the call price at the current market rate (i) for the remaining time until maturity, the yield to call is computed as:
N
c
c
c
c
y
P
)
1
(
)
y
(1
P
i
)
y
(1
C
P
N
1
K
t
t
c
K
1
t
t
+
+
ú
û
ù
ê
ë
é
+
´
+
ú
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or
N
c
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c
c
y
P
y
y
)
1
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)
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(1
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i
)
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(
1
1
1
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P
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1
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t
t
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+
+
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+
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To illustrate, assume that an investor is considering the purchase of a bond due to mature in 20 years, carrying a 10 percent coupon rate. This security is available for purchase at a current market price of $850. The bond has a par value of $1000. If the issuing company were to redeem the bond 16 years later at a 9 percent call premium, and the investor reinvests the call price at the market rate prevailing at the time of the call, the investor’s yield, yc, may be found by solving the equation:
20
20
17
t
t
16
1
t
t
)
y
1
(
090
,
1
$
)
y
(1
20
.
87
$
)
y
(1
$100
850
$
c
c
c
+
+
ú
û
ù
ê
ë
é
+
+
ú
û
ù
ê
ë
é
+
=
å
å
=
=
or
20
20
17
t
t
16
)
y
1
(
090
,
1
$
)
y
(1
20
.
87
$
)
y
1
(
1
1
y
1
$100
$850
c
c
c
c
+
+
ú
û
ù
ê
ë
é
+
+
ú
ú
û
ù
ê
ê
ë
é
÷
÷
ø
ö
ç
ç
è
æ
+
-
´
=
å
=
In this instance, yc equals 12.05 percent.
For calculations, use:
· Financial calculators
g. Realized Yield
The yield to maturity assumed that the coupons received were reinvested at the yield to maturity. If these coupons are not reinvested at the yield to the maturity, then the relevant yield is the realized yield. The realized yield (yrealized) is measured as follows:
=
+
´
N
)
y
(1
V
P
realized
Value of Invested fundsN = Maturity of security; PV = Price of security
Value of Invested Funds = Future value of all cash flows received (coupons and face value)
3. Yield-price relationships
The YTM and the HPY formulas illustrate a number of important relationships between security prices and yields or interest rates that prevail in the financial system. One of these important relationships is expressed as:
The price of a security and its yield or rate of return are inversely related. A rise in yield implies a decline in price.
Illustrate graphically: Interest rate determination versus security price determination.
4. Interest rates charged by institutional lenders
Six commonly used methods for calculating institutional loan rates are discussed.
a. The simple interest method
The simple interest method is a method of figuring the interest on a loan that charges interest only for the period of time the borrower actually has use of the borrowed funds.
Total payment = Principal + Interest
Total payment = Principal + Principal*Interest rate*Time
t)
r
(1
V
´
+
´
=
P
FV
To illustrate, suppose you borrow $1,000 for a year at a simple interest. If the interest rate is 10 percent, your interest bill will be $100 for the year and your total payment will be $1,100.
Total payment = $1000 + $100
If the loan is paid off in two equal installments of $500 every six months, then you will pay $1,075.
First installment: Total payment = $500 + $50 = $550
Second installment: Total payment = $500 + $25 = $525
$1,075
The simple interest payment is still popular with many mortgage lenders, credit unions, and banks.
b. Add-on rate of interest
A method for calculating loan interest rates often used by finance companies and banks is the add-on rate approach. The add-on rate approach is a method for calculating the interest charge on a loan when the interest bill is added to the principal amount of the loan. That sum is then divided by the number of installment payments required to determine the amount of each payment needed to eventually pay off the loan.
For example, suppose you borrow $1,000 for one year at an interest rate of 10 percent. You agree to make two equal payments six months apart. The total amount to be repaid is $1,100 ($1,000 principal + $100 interest). At the end of the first six months, you will pay half ($550) and the remaining half ($550) will be paid at the end of the year
c. Discount method
Many commercial loans, especially those used to raise working capital, are extended on a discount basis. The discount method is a method for calculating the interest charge on a loan that deducts the interest owed from the face amount of the loan, with the borrower receiving only the net proceeds after interest is deducted. Borrower pays interest on loan up front and receives total loan amount less interest due.
For example, suppose you borrow $1000 for one year at 10 percent, for a total interest bill of $100. Using the discount method, you actually receive for your use only $900 in net loan proceeds. The effective rate, then, is:
%
11
.
11
900
$
100
$
proceeds
loan
Net
paid
Interest
=
=
Discount rate loans are quite popular in Latin America.
d. Home mortgage interest rate
One of the most confusing of all rates charged by lenders is the interest rate on a home mortgage loan. Home mortgage loans are amortized, which means that the principal is repaid over the life of the mortgage. Home mortgage loan payments are calculated as an annuity; that is equal monthly payments over the life of the loan. With an annuity, interest is paid on a declining balance. Since most of the balance is still outstanding in the early years of the life of the mortgage loan, most of the early payments are interest payments rather than principal repayments. The formula for the monthly payment on a mortgage loan is:
1
12
rate
interest
loan
1
12
rate
interest
loan
1
12
rate
interest
loan
borrowed
amount
Total
12
12
-
ú
û
ù
ê
ë
é
+
ú
û
ù
ê
ë
é
+
´
ú
û
ù
ê
ë
é
´
´
´
t
t
Suppose a family takes out a $50,000 loan for 25 years at an interest rate of 12 percent to buy its new home. In this case, the required payment on the loan each month would be:
1
12
0.12
1
12
0.12
1
12
0.12
000
,
50
$
12
25
12
25
-
ú
û
ù
ê
ë
é
+
ú
û
ù
ê
ë
é
+
´
ú
û
ù
ê
ë
é
´
´
´
=7885
.
18
23
.
894
,
9
$
= $526.62e. Annual percentage rate
The APR is an actuarially determined rate on a consumer loan that the federal Truth-in-Lending law requires lenders to communicate to borrowers. The APR is the actual rate on a loan, reflecting all credit costs and adjusted for the declining amount owed on an installment loan that must be quoted to household borrowers under federal law. The constant ratio formula, shown below, usually gives a close approximation to the true APR.
%
100
loan
the
of
Principal
1)
payments
loan
of
number
(Total
dollars
in
cost
Annual
year
a
in
periods
payment
of
Number
2
APR
´
´
+
´
´
=
To illustrate, suppose you borrow $1,000 at 10 percent simple interest but must repay your loan in 12 equal monthly payments. The APR for this loan is approximately:
%
46
.
18
%
100
$1,000)
(
1)
(12
)
100
)($
12
2(
APR
=
´
+
=
f. Compound interest
Compound interest is the payment of additional interest earnings on previously earned interest income. A lender or depositor of funds earns interest income on both the principal amount of any funds owed and on accumulated interest as well.
The conventional formula for calculating the future value of a financial asset earning compound interest is simply:
t
r
P
FV
)
1
(
+
=
where FV is the sum of principal plus accumulated interest over the life of the loan or deposit, P is the asset’s principal value, r is the annual rate of interest, and t is the time expressed in years. The amount of accumulated (total) interest on a loan is:
accumulated (total) interest = FV – P
The amount of simple interest on a loan is:
simple interest = P*r*t
The amount of accumulated compound interest on a loan is:
compound interest = total interest - simple interest
= (FV – P) - P*r*t
= FV – (P + P*r*t)
= FV with compound interest - FV with simple interest
For example, suppose $1,000 is borrowed for three years at 10 percent a year, compounded annually. The amount the borrower must pay back at the end of three years is:
331
,
1
$
)
331
.
1
(
000
,
1
$
)
10
.
0
1
(
000
,
1
$
3
=
=
+
=
FV
The amount of accumulated (total) interest on the loan is:
accumulated (total) interest = $1,331 – $1,000 = $331
The amount of simple interest on the loan is:
simple interest = $1000(.10)(3) = $300
The amount of accumulated compound interest on the loan is:
compound interest = $331 - $300 = $31 = $1,331 - $1,300
g. The annual percentage yield
The APY is the rate of return on a savings account that regulated depository institutions must report to their customers. The APY on a deposit adjusts for the average balance in the account and any fees charged the depositor.
The APY is calculated as:
balance]
average
ly
earned/Dai
interest
Annual
[
100
´
=
APY
For example, suppose a customer deposits $2,000 in a one-year bank savings account for 6 months (180 days) but then withdraws $1,000 to help meet personal expenses, leaving $1,000 for the remainder of the year (185 days). Then the customer’s daily average balance would be:
15
.
493
,
1
$
days
365
days
185
$1,000
days
180
000
,
2
$
balance
average
Daily
=
´
+
´
=
Suppose the bank credits the customer’s account with $100 in interest. If the account has a term of 365 days (a full year) or has no stated maturity, then the customer’s annual percentage yield is:
percent
6.70
]
/$1,493.15
100
$
[
100
=
´
=
APY
On the other hand, if the deposit account runs for less than a year, a depository institution subject to the provisions of the Truth in Savings Act must use the formula:
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ú
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ê
ê
ë
é
-
÷
÷
ø
ö
ç
ç
è
æ
+
´
=
1
balance
average
Daily
earned
interest
of
Amount
1
100
in term
/days
365
APY
For example, suppose a customer opens a savings account with a maturity of 182 days and leaves $1,000 in the account for the whole period. Suppose too that at the end of the deposit’s term the bank credits the customer with $30.37 in interest earned. Then, the annual percentage yield (APY) that must be reported to the customer under the Truth in Savings Act would be:
percent
18
.
6
1
$1,000
$30.37
1
100
/182
365
»
ú
ú
û
ù
ê
ê
ë
é
-
÷
ø
ö
ç
è
æ
+
´
=
APY
Whenever a customer opens a new deposit account in the United States, he or she must be informed about how interest will be computed on his or her account, what fees will be charged that could reduce the customer’s interest earnings, and what must be done to earn the full APY promised on the deposit.
D. Inflation and interest rates
1. What is inflation?
Inflation is one of the most serious problems confronting several economies around the world in recent years. Inflation is defined as a rise in the average level of prices for all goods and services. It occurs when the average level of all prices in the economy rises.
Inflation is measured as a percentage change in the price level.
where P reflects the average price level in the economy. Economists use price indices to represent the average/overall price level. A few price indices: CPI, PPI, GDP/GNP deflator. The most closely watched price index is the CPI.
Because interest rates represent the "price" of credit, they are also affected by inflation. How and how much does inflation affect interest rates?
2. Nominal versus real rates of return
The nominal interest rate is the rate quoted by lenders to investors. It is the published rate of interest attached to a loan or security that includes both a real interest rate component and the inflation rate (inflation premium) expected over the life of the loan or security.
The real interest rate is the purchasing power return to the lender of funds. It is the rate of return from a financial asset expressed in terms of its purchasing power (adjusted for inflation).
The inflation premium is the expected rate of inflation that, when added to the real interest rate, equals the nominal interest rate on a loan.
If the lender expects prices to rise during the life of a loan, he or she will have to adjust the nominal rate of interest to keep pace with inflation so that the lender's purchasing power is protected. Therefore, inflation tends to drive up interest rates.
3. The Fisher effect
Irvin Fisher (1896) argued that the nominal interest rate is related to the real interest rate by the following equation:
Nominal interest rate = Expected real rate + Inflation premium + Expected real rate
´
Inflation premiumi = r +
p
+ r´
p
If r and
p
are small (therefore r´
EMBED Equation.3p
is very small), then the cross-product term in the above equation can be eliminated. The relationship between nominal rate and real rate becomes:Nominal interest rate = Expected real rate + Inflation premium
i = r +
p
Fisher contended that the real rate is relatively stable over time, so inflation only affects the nominal rate. Changes in the nominal interest rates are most likely to reflect changes in the inflation premium, not the real rate, at least in the short run.
Example:
Suppose r = 3%,
image73.wmf
p
= 10%. Then:
p
= 10%. Then:The Fisher effect is the theory of inflation and interest rates that argues that nominal interest rates respond one-for-one to changes in the expected rate of inflation over the life of a loan. It suggests a method of judging the direction of future interest rate changes.
To the extent that a rise in the actual rate of inflation causes investors to expect greater inflation in the future, higher nominal interest rates will soon result. Conversely, a decline in the actual inflation rate may cause investors to revise downward their expectations of future inflation, leading to lower nominal rates. This will happen, because in an efficient market, investors will be compensated for the risk of expected changes in the purchasing power of their money.
4. The Harrod-Keynes effect of inflation
The Harrod-Keynes effect conflicts with the Fisher effect. Harrod used Keynesian Liquidity Preference Theory to argue that the real rate will be affected by inflation, but the nominal rate need not be.
Harrod-Keynes effect is the theory of inflation and interest rates that contends that real rates, not nominal rates, are likely to be impacted by changing inflation.
The nominal rate will change only if there is a change in the demand for or supply for money. Inflationary expectations will lower the real rate of interest as long as the nominal rate is unchanged.
The Harrod-Keynes effect also argues that inflation will cause the demand for real estate and common stocks, which are inflation-hedged assets to rise. This causes their prices to rise and their nominal rates of return to fall.
E. The term structure of interest rates
1. What is the meaning of "term structure of interest rates"?
The "term structure of interest rates" means the relationship between the rates of return (yield) on financial instruments and their maturity. Maturity refers to the length of calendar time in days, weeks, months, and years before a security or loan comes due and must be paid off.
2. The yield curve
A yield curve is a visual representation of the term structure of interest rates for all securities of equivalent grade or quality. The yield curve represents only one moment in time with all other factors held constant. It is a relationship between short-term interest rates and long-term interest rates (that is, between YTM) and time to maturity as reflected in a smooth curve with an upward, downward, or horizontal slope.
3. Views of yield curves
Several different shapes of yield curves have been observed. The different shapes can be explained by different theories and views:
(1) The Expectations Hypothesis
(2) The Liquidity Premium Theory
(3) The Segmented Market Theory
(4) The Preferred Habitat Theory
a. The Expectations Hypothesis
The Expectations Hypothesis says that the shape of the yield curve is determined by investors' expectations regarding future short-term interest rates.
b. The Liquidity Premium Theory
The Liquidity Premium Theory says that the shape of most yield curves is caused by the interest rate premium that must be paid to investors to encourage them to surrender liquidity and purchase long-term securities.
c. The Segmented Market Theory
The Segmented Market Theory says that investors have maturity preferences for their investments in securities and they are segmented into subgroups by these preferences. The supply and demand conditions within each maturity segment, in turn, are important factors shaping the structure of interest rates within that range.
While the Expectations Theory holds that investors are profit maximizers who will seek securities offering the highest rates of return (regardless of maturity), the Segmented Theory says that investors will not stray from their maturity preferences unless they are induced by significantly higher yields or other favorable terms on securities with different maturities.
d. The Preferred Habitat Theory
The Preferred Habitat Theory view is closely allied with the market Segmented Theory view, though it also brings in elements of the expectations and liquidity premium arguments, thus providing a composite theory of the determinants of the yield curve. Preferred Habitat argues that investors select a preferred maturity range along the yield curve on the basis of their risk preferences, tax exposure, liquidity requirements, binding regulations, expectations and other factors. Each investor will tend to stay in his or her preferred maturity habitat unless induced to leave by higher yields or other considerations. Moreover, investors expect that interest rates will tend to move back toward their normal range based on historical experience.
The Expectations Hypothesis implies that changes in the volume of long-term versus short-term securities will not affect the shape of the yield curve. Thus, the central bank or the government cannot alter the shape of the yield curve by changing the relative amounts of long-term and short-term securities.
If the Segmented-Markets or Preferred Habitat theories are true, however, the government could alter the shape of the yield curve by changing the supply of securities in one or more segments.
4. Uses of the yield curve
The controversies surrounding the determinants of the yield curve should not obscure the fact that this curve can be an extremely useful tool for borrowers and lenders.
a. Forecasting interest rates
One use of the yield curve is to forecast interest rates. The slope of the yield curve can signal borrowers and lenders of funds to move away from or towards long-term securities or short-term securities. For example, if the yield curve is upward sloping, rates are expected to rise. Lenders (investors) should move toward short-term securities whose prices will fall less as rates rise. Borrowers should try to borrow longer-term.
b. Uses for financial intermediaries
A second use of the yield curve is by financial intermediaries who should adjust the maturity structure of their assets and liabilities as the yield curve changes. A savings and loan, for example, should try to lengthen the maturity of its deposits and shorten the maturity of its loans (or offer more variable rate loans) if the yield curve is upward sloping.
c. Detecting overpriced and underpriced securities
Third, investors can use the yield curve to detect underpriced and overpriced securities. The investor can plot the yield for a variety of securities in the same risk class. If a particular security's yield lies above or below the resulting curve, it is either underpriced (rate is above the yield curve) or overpriced (rate is below the yield curve).
d. Indicating trade-offs between maturity and yield
Fourth, the yield curve can be used by borrowers and lenders to calculate the gain or loss resulting from changing the maturity structure of their portfolio. An investor can benefit from shortening the maturity structure of the bond portfolio if the yield curve is downward sloping. A borrower may benefit by borrowing long term. With an upward sloping yield curve, an investor may be able to increase a bond portfolio's expected annual yield from 7% to 9% by extending the portfolio's average maturity form 1 to 10 years. However, longer term securities tend to be less liquid. The prices of longer-term bonds are more volatile, creating greater risk of capital loss.
e. Riding the yield curve
Fifth, investors can ride the yield curve. When the yield curve is positively sloped, the investors can buy six-month securities, then sell them three months later and buy new six-month securities. The investor is taking advantage of the lower yield (and higher price) on three-month securities.
5. Duration: A different approach to maturity
a. The price elasticity of a debt security
Theories of the yield curve remind us that longer maturity securities tend to be more volatile in price. That is, for the same change in interest rates, the price of a longer-term bond generally changes more than the price of a shorter-term bond. A good/popular measure of how responsive a security's price is to changes in interest rates is its price elasticity:
y
P
E
D
D
=
%
%
For example, suppose we are interested in purchasing a 10-year bond, par value of $1000, promising its holder a 10% annual coupon rate ($100 a year in interest). Information in a bond yield table tells us that if interest rates on comparable securities sold in the open market are at 10%, this bond will sell for exactly (par). If the interest rates fall to 5%, this 10 percent bond will have a price of about $1,389.70, and if rates climb to 15%, the bond's price will drop to just 745.10. What is the price elasticity of this bond, measured from par?
Answer:
If 5% -( E = -0.779
If 15% -( E = -0.510
Greater price elasticity means that a security goes through a greater price change for a given change in market rates of interest.
Longer term securities generally carry greater risk and their price elasticity is larger than shorter term securities. However, this relationship is not linear (not strictly proportional). For example, it is not true that 10-year bonds are twice as price elastic as 5-year bonds.
The important reason for this nonlinear relationship is that the price volatility and elasticity of a security depend on the size of its coupon rate (the annual rate of interest promised by the borrower) as well as its maturity.
b. The impact of varying coupon rates Coupon effect?
The size of a debt security's promised interest rate (coupon) influences how rapidly its price moves with changes in market interest rates. The coupon effect refers to the volatility or elasticity of debt security prices as interest rates change.
Specifically, the prices of low-coupon securities tend to rise faster than the price of high-coupon securities when interest rates decline and also fall faster when interest rates increase. This means that the investor holding low-coupon securities has greater potential capital gains or losses than investors in high-coupon debt instruments.
In general, the lower the coupon rate on a security, the more elastic its price tends to be. Low coupon securities act as though they had longer maturities than high-coupon securities scheduled to mature on the same date.
c. Duration: an alternative maturity index for a security
Duration is a measure of the maturity of a debt that weighs time to maturity by the present value of all expected cash flows (principal and interest payments) form the security.
Duration yields an index of security price volatility or elasticity. The longer a security's duration, the greater its price elasticity.
Duration formula:
D =
å
å
=
=
+
+
´
n
t
t
b
t
n
t
t
b
t
r
CF
r
CF
t
1
1
)
1
(
)
1
(
=0
1
)
1
(
P
r
CF
t
n
t
t
b
t
å
=
+
´
=å
=
´
n
t
t
w
t
1
D = Macaulay duration (regular duration)
t=the year the cash flow is to be received
n=the number of years to maturity
CFt=the cash flow to be received in year t
Rb=the bondholder’s required rate of return
P0=the bond’s present value
0
)
1
(
P
r
CF
w
t
b
t
t
+
=
Example:
Let us imagine that an investor is interested in purchasing a $1000 par value bond that has a term to maturity of 10 years, a 10% coupon rate (with interest paid once a year), and a 12% yield to maturity based on its current price of $887.10.
D =
years
55
.
6
10
.
887
90
.
5810
$
flows
cash
of
lues
present va
of
Sum
t
flows
cash
of
lues
present va
of
Sum
=
=
´
d. Important features of duration
(1) Duration is always less than the time to maturity for a coupon paying security.
(2) Duration increases with a longer stream of future payments, but the rate of increase in D decreases as time to maturity increases.
(3) The larger a security's yield to maturity, the lower its duration.
Duration is an index of the average amount of time required for the investor to recover the original cash outlay used to buy the security. Securities with higher values of D are more volatile in price and, therefore, carry increased price risk. Low-coupon bonds have longer durations and, therefore display more risk than high coupon bonds.
e. Uses of duration
· Approximate percentage changes in security prices
Because duration is related in a linear fashion to the price volatility of a security, there is a useful approximate relationship between
image80.wmf
r
D
and
image81.wmf
D
%
in security prices. The relationship may be written:
r
D
andD
%
in security prices. The relationship may be written:
100
1
%
´
ú
û
ù
ê
ë
é
+
D
´
-
»
D
=
D
r
r
D
P
P
P
Example:
Suppose D = 6.55 years. The bond's price at the coupon rate of 10% is $1000, and at a rate of 12%, its price is $887.10. Thus, if the rate changes from 10% to 12%, the bond's approximate percentage decline in price would be:
%
91
.
11
100
10
.
1
02
.
55
.
6
%
-
=
´
ú
û
ù
ê
ë
é
´
-
»
D
=
D
P
P
P
Note: The bond’s exact percentage decline in price would be:
%
29
.
11
100
000
,
1
$
000
,
1
$
10
.
887
$
%
-
=
´
-
=
D
=
D
P
P
P
· Portfolio immunization
Today, duration has aroused great interest among portfolio managers. The reason is its possible usefulness as a device to insulate (or in the terminology of finance, immunize) security portfolios against the risk of changing interest rates.
Portfolio immunization is a hedging technique that protects the value of a portfolio against the effect of changing interest rates. Portfolio immunization is achieved by setting the duration of a portfolio equal to the investor's planned holding period. If this is done, then changes in the market value of the portfolio are exactly offset by changes in re-investment income.
A portfolio manager can minimize the change that fluctuating interest rates can do to an investor's total return from a security or portfolio by setting the duration of the securities involved equal to the investor's holding period. This step causes coupon reinvestment risk and principal (or price) risk to offset each other, freezing the investor's total return.
Example of portfolio immunization:
Let's consider an example of how portfolio immunization with duration works. Suppose we are interested in purchasing a bond with a $1,000 par value that will mature in two years. The bond has a coupon rate of 8 percent paying $80 in interest at the end of each year. Interest rates on comparable bonds also are currently at 8 percent but may fall to as low as 6 percent or rise as high as 10 percent. The buyer knows he will receive $1,000 at maturity, but in the meantime he must face the uncertainty of having to reinvest the annual $80 in interest earnings from this bond at 6 percent, 8 percent. or 10 percent, depending on whether interest rates rise or fall.
Suppose interest rates decline to 6 percent. This bond will cant $80 in interest payments for year one. $80 for year two, but only $4.80 (or $80x0.06) when the $80 interest income received the first year is reinvested at 6 percent during year 2. With interest rates falling to 6 percent, the investor will earn only $1.164.80 in total over the two-year period:
First year's Second year's Interest earned reinvesting the Par value of security
interest interest first year's interest earnings returned to investor Total
earnings earnings at 6 percent interest rate at maturity return
$80 + $80 + $4.80 + $1,000 = $1,164.80
On the other hand, what if interest rates rise to 10 percent after the first year? Again,
the investor holding this bond earns $80 interest in each of the next two years but will also earn $8 in interest when he reinvests the $80 in interest income received at the end of the first year at die new rate of 10 percent ($80 x.10). In this case, the investor's total return from the bond will be $1,168 after two years:
First year's Second year's Interest earned reinvesting the Par value of security
interest interest first year's interest earnings returned to investor Total
earnings earnings at 10 percent interest rate at maturity return
$80 + $80 + $8.00 + $1,000 = $1,168.00
Clearly, the bond buyer's earnings could drop as low as $1,164.80 (with a 6 percent interest rate) or rise as high as $1,168 (with a 10 percent interest rate).
Is there a way to avoid this kind of fluctuation in earnings and stabilize the total return received regardless of what happens to interest rates? Yes, if the buyer finds a bond whose duration matches his or her planned holding period. For example, suppose the buyer finds a $1,000 bond that also carries an 8 percent coupon rate whose maturity exceeds two years but whose duration is exactly two years, matching the buyer's planned holding period. This means that, at the end of two years, the buyer will have to sell the bond at the price then prevailing in the market, because it will not yet have reached maturity.
What will happen to the buyer's total earnings: with a bond whose duration is exactly two years? First, if interest rates fall to 6 percent, the bond will earn $80 interest at the end of year 1 and another $80 at the end of year 2, but as before, only $4.80 will be earned when the first year's interest income is invested during the second year at the low rate of 6 percent ($80x0.06). However, the bond's market price will rise to $1,001.60 due to the drop in interest rates. Therefore, the investor will receive in two years a total of $1,166.40 in cash:
First year's Second year's Interest earned reinvesting the Par value of security
interest interest first year's interest earnings returned to investor Total
earnings earnings at 6 percent interest rate at maturity return
$80 + $80 + $4.80 + $1,001.60 = $1,166.40
Suppose instead that interest rates rise to 10 percent. Clearly, interest earnings will go
up, but the bond's market price will be lower because of the rise in interest rates. In this case, the investor also receives a total return of $1,166.40:
First year's Second year's Interest earned reinvesting the Par value of security
interest interest first year's interest earnings returned to investor Total
earnings earnings at 10 percent interest rate at maturity return
$80 + $80 + $8.00 + $998.40 = $1,166.40
In the foregoing example, the buyer earns identical total earnings whether interest rates go up or down! This happens because with duration set equal to the buyer's planned holding period, a fall in the reinvestment rate (in this case. down to 6 percent) is completely offset by an increase in the bond's price (in this instance. the bond's market value climbs from $1,000 to $1.001.60). Conversely, a rise in the reinvestment rate (up to 10 percent in the second case) is counterbalanced by a fall in the bond's market price (down to $998.40). The bond buyer's total return is fully protected regardless of the future path followed by interest rates.
Of course, there is a price to be paid for reducing risk exposure. Duration, like any interest rate hedging tool, is not free. Suppose in the example above that the bond buyer bad chosen not to worry about duration and just purchased a bond with a calendar maturity of two years. Suppose also that interest rates rose to 10 percent during the second year. Clearly, this investor would have earned a larger total return ($1,168) without using portfolio immunization. The cost of immunization is a lower, but more stable expected return.
f. Limitations of duration
This sounds easy: "To protect the return from a portfolio of securities against changes in interest rates, merely select a portfolio whose duration equals the time remaining in your planned holding period." In practice, it does not work this easily. Some limitations of duration includes:
(1) Being able to get an exact match of duration and planned holding period.
(2) Call risk--Because many bonds are callable in advance of their maturity, bondholders may find themselves with a sudden and unexpected change in their portfolio's average duration.
(3) Shifting yield curves--The slope of yield curves changes during investors' planned holding period. There is always some risk associated with the use of conventional measures of duration due to the uncertainty about future interest rates movements-( Stochastic process risk.
g. Evidence
There is evidence to suggest that investors can achieve reasonably effective immunization by approximately matching the duration of their portfolios with their planned holding periods. The duration model, in other words, seems to be quite robust under a variety of different market conditions.
F. Other factors affecting the interest rates
1. Multiple factors affect interest rates simultaneously
We saw and examined two factors that cause the interest rate or yield on one security to be different from the interest rate or yield on another. These factors included the maturity or term of a loan and inflation.
Other factors influence interest rates and yields on securities. These factors are:
(1) Marketability
(2) Liquidity
(3) Default risk
(4) Callability--Call privileges
(5) Taxability--Taxation of security income
(6) Prepayment risk
(7) Event risk
(8) Convertibility
Interest rates and yields are influenced by these different factors acting simultaneously. For example, the market yield on a 20-year corporate bond may be 12 percent while the yield on a 10-year municipal bond may be 8 percent. The difference in yield between these 2 securities reflects not only the difference in their maturities but also any differences in their degree of default risk, marketability, callability, and tax status, liquidity, convertibility, and prepayment risk.
2. Marketability
a. Definition
Marketability is the feature of a loan or security that reflects its ability to be sold quickly to recover the purchaser's funds. Marketability of a security involves the question of whether buyers can be readily found for the asset. Marketability is a definite advantage to the investor. There is an inverse relationship between marketability and yield. If a security is not very marketable, the issuer must compensate the investor by paying a higher rate of return.
b. Factors influencing marketability
(1) Reputation of security issuer (+)
(2) Size of issuing firm or unit of government (+)
(3) Number of similar securities outstanding (+)
c. Effect on yield spread between more marketable and less marketable securities
Marketability is definite advantage to the security purchaser (lender of funds). There is an inverse relationship between marketability and yield. If a security is not very marketable, the issuer must compensate the investor by paying a higher rate of return.
3. Liquidity
a. Definition
Liquidity is the quality or capacity of any asset to be resold quickly with little risk of loss and possessing a relatively stable price over time.
Marketability is closely related to another feature of financial assets that influences their interest rates or yields: their degree of liquidity. A liquid financial asset is readily marketable. In addition, its price tends to be stable over time and it is reversible, meaning the holder of the asset can usually recover her funds upon resale with little risk of loss.
Because the liquidity feature of financial assets lowers their risk, liquid assets carry lower interest rates than illiquid assets. The "liquidity effect" implies lower interest rates on more liquid financial assets.
Example:
"On the run" and "off the run" Treasury bonds. Newly issued 30-year Treasury bonds ("on the run") typically carry lower market interest yields than "off the run" 30-year Treasury bonds, which were issued in the past. The new "on the run" issue is more readily available for purchase by investors (hence more liquid) and therefore carries a higher price and lower interest rate in the market.
4. Default risk
a) Definition:
The risk to the holder of debt securities that a borrower will not meet al promised payments at the times agreed upon.
Default risk refers to the probability the issuer of a debt security will not be able to make all payments promised at the times agreed upon.
Factors influencing Default – Risk premium:
Influential factors in shaping default risk include:
The variability of company earnings;
How long the firm has been in operation
The debt to equity ratio of the debt issuer
The state of the economy and the demand for the firm’s products (external factors) may also be important
b) The premium for default risk:
The promised yield on a risky security is positively related to the risk of borrower default as perceived by investors.
Promised yield on risky security = Risk-free interest rate + Default risk premium
The promised yield on a risky security is the YTM that will be earned by the investor if the borrower makes all premised payments when they are due.
The higher the degree of default risk associated with a risky security, the higher the default risk premium on that security and the greater the required rate of return (yield) that must be attached to that security as demanded by investors in the global financial market place.
c) The expected rate of return or yield on a risky security:
The weighted average return on a risky security composed of all possible yields from the security multiplied by the probability that each possible yield will occur.
Expected yield = ( piyi
With pi = probability that ith possible risky yield will be obtained
yi =ith possible yield
Many investors around the globe today have learned to look at the expected rate of return, or yield, on a security as well as its promised yield.
d) Anticipated Loss and Default Risk Premium:
For a risk-free security held to maturity, the expected yield equals the promised yield.
However, in the case of a risky security, the promised yield may be greater than the expected yield, and the yield spread between them is usually labeled the anticipated default loss. That is,
Anticipated default loss on a risky security = promised yield – expected yield
The concept of anticipated default loss is important because it represents each investor’s view of what the appropriate default risk premium on a risky security should be.
Let’s suppose that an investor carries out a careful financial analysis of a company in preparation for purchasing its bonds and decides that the firm is a less risky borrower default – wise than perceived by the market as a whole. Perhaps the market has assigned the firm’s bonds a default risk premium of 4 percent; the investor believes, however, that the true anticipated loss due to default is only 3 percent. Because the market’s default risk premium exceeds this investor’s anticipated default loss, he would be inclined to buy the company’s bonds. As he sees it, the risky security’s promised yield (including its market assigned default risk premium) is too high and, therefore, its price is too low. To this investor, the company’s bonds appear to be a bargain… a temporarily underpriced financial asset.
e) Factors Influencing Default Risk Premiums:
f) Inflation and Default Risk Premiums:
We saw that inflation can cause interest rates to rise as investors in the financial markets demand to be compensated with higher nominal returns when the level of expected inflation or uncertainty about future inflation goes up.
However, inflation appears to affect the size of default risk premiums on risky securities. Default risk premiums (“quality spread”) tend to be higher and more volatile when inflation is high and volatile.
Greater uncertainty about inflation, as Wheelock (1997) notes, tends to produce a “flight to quality” in the financial markets, and investors simply become more cautious about buying default risk xposed financial instruments, as we have seen most recently in Asian and Latin American markets. This is one of the many ways in which high and volatile price inflation can disrupt the efficient functioning of a market-oriented economy.
h) Yield curves for Risky Securities:
Finance suggests that yield curves on higher risk (speculative) corporate bonds tend to have a downward (negative) slope or are humped or bowed in S. However, yield curves on government bonds/securities and for high-grade corporate bonds have a tendency to display a positive slope, trending upward with advancing maturity. This may be due to in part to the fact that junk bonds issued by poorer quality firm are generally at their riskied when they are first issued and appear to improve in quantity? The longer the issuing company survives.
While some studies (Fons, 1999) tend to support this older version of finance theory, recent work by Helwege and Turner (1997), which appears to control better for the credit quality of bond issuers, finds quite the opposite- the yield curve for the majority of speculative-grade bond issues rises with increasing maturity just like it does for most other bonds.
These two researchers examine only bonds issued by the same firms on the same date, but with varying dates to maturity. Thus, credit quality (rating) was held constant foe each issuing firm, and more than three quarters of the matched sets of speculative bonds displayed the more commonly observed upward-sloping yield curve.
i) Junk bonds vs investment quality bonds:
Junk bonds are long-term debt securities whose repayment is believed to be much less certain than investment quality bonds. They are also known as speculative-grade bonds. Junk bonds are issued by companies who have serious financial problems and, consequently, a low credit rating. They are also issued by new companies and small established companies who cannot access the investment grade bond market. Junk bonds have been issued to facilitate mergers and to prevent takeovers.
A number of studies found that the yield on junk bonds was higher than their actual degree of default risk, making them an attractive investment vehicle. However, legislation prohibiting thrifts and insurance companies from holding junk bonds, coupled with the bankruptcy of Drexel Burnham Lambert, led to a rapid decline in junk bond prices. Prices have recovered with the emergence of junk bond mutual funds. (P.312)
j) A summary of the Default Risk Interest Rate Relationship:
In summary, careful study of the relationship between default risk and interest rates points to a fundamental principle in the field of finance: default risk and expected return are positively related.
The investor seeking expected returns must also be willing to accept higher risk of ruin.
Default-risk is correlated with both internal (borrower specific) factors associates with a loan and external factors, especially the state of the economy and changing demand for industry products and services.
5. Call Privileges and Call Risk
a) Definition:
The call privilege is part of the bond contract giving the issuer permission to retire all or part of a bond issue by buying back the securities in advance of their maturity.
Normally, when the call privilege is exercised, the security issuer will pay the investor the call price = the securities’ face value + a call penalty. The size of the call penalty is set forth in the indenture (contract) and generally varies inversely with the number of years remaining to maturity and the length of the call deferment? Period. In case of a bond, one year worth of coupon income is often the minimum call penalty required.
b. Calculating the yields on called securities:
Calling a security in advance of its final maturity can have a significant impact on the investor’s effective yield resulting in substantial call risk.
To demonstrate this, we recall that the YTM of any security is the r which equates the security’s price (P) with the PV of all its future cash flows, CFt in symbols:
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Suppose that after k periods (with k<n), the borrower exercises the call option and redeems the security.
The investor will receive the call price (PC) for the security which can be reinvested at current market interest rate I. If the investor’s planned holding period ends in time period n, the expected holding-period yield (PC) can be calculated using:
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Ex.: Suppose that a corporate bond, originally offering investors an 8% coupon rate for 10 years and issued at 1,000 par, is called 5 years after its issue date when going market interest rates on investments of comparable risk are 6 percent. What is this bond’s 10-year holding-period yield (h) if its call price equals par ($ 1,000) plus one year’s worth of coupon income ($ 80).
The investor in callable securities encounters two major uncertainties:
(1) When and if securities will be called (value of k);
(2) Market yield (Reinvestment rate) at time of call.
Therefore, the investor demands for callable securities depends upon:
(1) Investor Rate Expectations.
The investor’s expectations regarding future changes in interest rates, especially decreases in rates, during the term of the security
(2) Length of Call Deferment.
The length of the deferment period before the security is eligible to be called.
(3) The call price (par value plus call penalty) the issuer is willing to pay to redeem the security.
c. Advantages and Disadvantages of the call privilege:
(1) Gives Issuer greater financial flexibility
(2) Creates call risk for the investor due to a possible decline in holding period yield
(3) Call privilege limits potential capital gains (usually to no more than the call price).
The call privilege is an advantage to the issuer because it gives him or her greater flexibility and the potential to reduce future interest rate by exercising the call privilege, then reinssuing a new security at a lower current interest rate.
This is a disadvantage to the investor who is paid off because he or she will be forced to reinvest in lower yielding securities if market rates have fallen.
Calling in security also limits the potential increase in a security’s market price, and therefore, the chance investors will earn capital gains.
Call risk is higher when R are expected to fall because borrowers may find it advantageous at those times to call and issue new securities at lower rates.
d. Call premium and Interest rate expectations:
( Callable securities generally sell at lower prices and higher rates (particularly if interest rates are expected to fall) relative to non-callable securities in order to compensate an investor for call risk
( Securities with long call deferments generally have lower rates than those with short deferments.
Call risk is highest when interest rates are expected to fall because borrowers may find it advantageous at those times to call and issue new securities at lower rates.
e. Research evidence:
(1) Inverse relationship between rate expectations + the value of the call price
(2)Call provisions influence the yield spread between corporate bonds and government securities
f. Effects of Coupon Rates on Call Risk:
The coupon rate on a bond is closely related to the investor’s call risk
(1) Greater call risk with higher coupon bonds.
High coupon rates mean that a bond issuer is forced to pay high interest costs as long as the bond is outstanding. Therefore, there is a strong incentive to call in such bonds and replace them with lower coupon securities.
(2) Less potential capital gain with high coupon securities.
This is true because the market value of a high –coupon security is usually close to its call price ceiling. In contrast, bonds with more modest coupon rates sell at lower prices and carry considerably more potential for capital gains before hitting their call price
Thus there is more risk of call and less potential gain to the investor who chooses high coupon securities.
As a result, the issuer of such securities must pay a higher yield to induce investors to buy them and accept greater call risk.
6. Prepayment Risk and the Interest Rate on Loan back securities:
Prepayment risk is the probability that a loan or security (especially securities that draw their earnings from payment of loans) will be paid off ahead of schedule, lowering investor’s yield from the instrument.
Factors that result in an increase in prepayment risk often involve: (1) earlier than expected loan repayments (“prepayments”) due to loan refinancing or, (2) in the case of mortgage-backed securities, home owner turn over.
The greater the prepayment risk, the higher the yield tends to rise and the lower the loan backed security’s price tends to go.
7. Event Risk:
Event Risk describes the possible effect that a public announcement by a company could have on the price of its market traded securities.
Announcement of stock splits or increased stock dividends seem to lead towards an increase in a company’s stock price.
Whereas announcements of new securities issues or a debt equity swap (a company’s bonds are replaced by stocks) may trigger a decrease in stock price.
Many financial analysts believe that events such as the foregoing trigger changes in security prices and about the probable future performance of these institutions.
8. Taxation of Security Returns:
Taxes imposed by federal, state, and local governments have a profound effect on the returns earned by investors on financial assets.
U.S. tax laws are used to redirect savings and investment to those areas considered to be of critical social need. Under the Tax Reform Act of 1986, many provisions in the tax code that provided tax breaks to investors in or issuers of securities were eliminated or curtailed.
Net losses on security investments are deductible for tax purposes.
Currently one of the few sectors that maintains a preferred status in the tax code is the municipal sector.
Interest on municipal bonds is, under a wide range of circumstances, tax exempt, particularly if the municipal securities are issued for public, rather than private purposes.
All interest income from municipal bonds is tax exempt, but not most capital gains. This exemption is designed to encourage investment in local government projects and ease the burden on local tax payers.
Effect of Marginal tax rates on After-tax yields:
Before-tax yield (1- Investor’s marginal tax rate) = After tax yield
Taxable yield (1- Investor’s marginal tax rate) = equivalent tax exempt yield
Suppose an investor is in 28% tax bracket (t):
YTM on taxable bonds = 12%
Tax exempt yield on municipal bonds of comparable quality + rating = 9%
The investor would prefer the tax-exempt municipal bond
=> Tax has an effect
At what rate would an investor be indifferent as to whether securities are taxable or tax exempt? In other words, what is the break-even point between these 2 types of financial instruments?
Tax exempt yield = (1-t) * taxable yield
where t is the investor’s marginal tax rate
t* = 1 – (tax exempt yield/ taxable yield)
Clearly, if the current yield tax-exempt securities is 8% and 10% on taxable issues, the break-even tax rate is 1- 0.80= 20%
An investor in a marginal tax bracket above 20% would prefer the yield on a tax-exempt security to a taxable one at these prevailing interest rates, other things equals (other factors held equal).
Investors whose marginal tax bracket is greater than t would receive higher after-tax yields if they invested in municipal securities. If their marginal tax bracket is less than t, then they should invest in taxable securities.
Comparing taxable and tax-exempt securities:
The taxed investor must convert all expected yields to an after tax basis. In the case of the YTM on a security,
P0 -> market value of security
Ii -> interest expected each year
t -> marginal income tax
Pn ->reduced price at maturity
(Pn - P0) measures the expected capital gain
a -> the after-tax YTM
Suppose:
Pn = $ 1,000
P0 = $ 900 (with par value of $ 1,000)
n= 10 years
Coupon rate = 10%
t = 28%
· a = 8.54%
9. Convertibility:
Convertibility is the option given to holders of special corporate bonds or preferred stock to exchange these securities for the issuing firm’s common stock.
Convertibles are called hybrid securities because they offer the investor the prospect of both stable income from interest or dividend plus capital gains on common stocks if the conversion privilege is exercised.
Convertible bonds carry lower yields because the investor must pay a premium to purchase the hedge against future risk which convertibles offer.
G. THE STRUCTURES OF INTEREST RATES:
The concept that the interest rate or yield attached to any loan or security consists of the risk-free (or pure) rate of interest plus risk premiums for the security holder’s exposure to various forms of risk.
These is a relationship among the interest rates or yields on securities in the market. The foundation of the structure of interest rates is the risk-free rate. This rate is determined by the supply and demand for loanable funds. All other interest rates add premiums to compensate investors for bearing additional risk due to:
1) lack of liquidity
2) potential for default
3) inflation
4) call privilege
5) low marketability
6) low convertibility
7) prepayment risk
8) taxability
9) interest rate risk, maturity
Forecasting rates is very difficult task. The interest rate on a given security can change for any number of reasons, including a change in any of the risk factors.
Forecasting the risk-free rate is also difficult since it is driven by the supply + the demand for loanable funds.
H. INTEREST RATE FORECASTING AND HEDGING AGANST INTEREST RATE RISK
We have looked thus far at several of the most important factors that cause R and security prices to change over time. Even this impressive list of influential factors does not account for all the changes in interest rates and security prices we observe daily in the real world.
Political developments at home and abroad
Changes in government policy
Changes in corporate earnings and business conditions
Announcements of new security offerings
And Thousands of other bits of information flood
The financial markets daily and bring about fluctuations in interest rates and security prices.
In fact, for actively traded securities, demand and supply forces are continually shifting, minute by minute, so that investors interested in these securities must constantly stay a breast of the latest developments in the financial market place.
1. Influence of the business cycle in shaping interest rate:
a. Rising and falling of rates in economic expansion + recession:
Demand of loanable funds lower => interest rates lower. Interest rates are pro-cyclical.
Business cycle = fluctuations in economic activity, with the economy experiencing expansionary (boom) and recessionary (contracting) periods.
Interest rates tend to rise and fall with the level of economic activity. Economic expansions (booms) generally lead to increases in both short-term and long-term interest rates, while recessions generally result in a decline in all rates, sooner or later.
This pattern apparently reflects shifting demand for credit as credit demands fall relative to the supply of loanable funds in periods of recession and increase relative to loanable-funds supply in expansion.
b. Relative movements in short and long-term interest rates and security prices over business
Both long term and short term R tend to rise and fall together, though lags observed with short-term rate changes often preceding long-term rate changes. Over the course of the business cycle short-term rates tend to rise faster than long-term rates in a period of expansion and decline faster than long-term rates in a recession.
The result is marked changes in the shape of the yield curve with each cyclical phase. These changes probably reflect the influence of public expectations and the fact that long-term rates can be expressed as geometric averages of short-term interest rates.
Also longer-term securities have more cash flow terms to be affected by changing interest rates than do short-term securities.
c. Seasonality in interest rates:
Patterns in the behavior of interest rates, with rate increases during certain period of the year and decreases during other seasons. Short-term rates tend to be pushed somewhat higher through summer and fall due to rising seasonal demand for short term funds, especially as businesses stock their shelves with inventory for the fall and for the major holidays that come late in the year.
From January through May, on the other hand, slackening demand for short-term credit encourages short-term interest rates to fall, other factors held equal.
Long-term interest rates, on the other hand, tend to experience upward pressure in the late spring through midsummer (June or July), related to heavy construction activity during this time of the year, and often approach seasonal lows in the winter month.
Several notes of caution should be added here, however. First, these seasonal patterns are easily overriden by other factors, such as changes in the economy or in government policy.
For example, central banks like the Fed frequently use their monetary policy tools to counteract seasonal changes in the supply + demand for loanable funds.
Second, research evidence suggests that seasonal patterns are not necessarily stable over time.
Third, unpredictable events, such as droughts, change in laws and regulations, and political turmoil often create false signals of seasonal interest rate pressures. In general, we can say that seasonal interest rate patterns exist, but they are usually of minor importance in explaining most interest rate movements.
2. Advantages and disadvantages of Interest Rate forecasting:
a. Problems:
Interest rates are influenced by the borrowing and lending decisions of thousands of individuals and institutions. No forecasting model complex enough to reflect the complexity of such decisions working their way through the financial system.
b. Advantages:
Of course, being to forecast where interest rates are going would be a distinct advantage to both borrowers + lenders of funds. Borrowers could choose to borrower when the “price” of credit was lowest, while lenders could more fully take advantage of high-rate periods.
3. Approaches to Modern Interest Rate Forecasting:
The interest difficulties in interest rates and price forecasting has not stopped many financial analysts from attempting to predict the future. They are impressed by the continuing presence of broad trends in interest rates, particularly those related to the business cycle and to central bank monetary policy.
A number of forecasting models have been developed in recent years, some have performed slightly better than pure chance for short-periods of time. Several of the more popular forecasting approaches are reviewed below.
a. Money Supply Approaches:
Many financial analysts attempt to forecast short-term changes in R by tracking money supply figures.
Changes in Ms can be linked in theory to R changes in several different ways:
The money supply liquidity effect argues that increases in the money supply or money stock (relative to money demand) cause R to fall with the changing supply of liquid funds.
The money supply expectations effect (a method for forecasting R that compares actual growth of the money supply with the market’s expectation for money supply growth) asks to forecasters to consider what money supply growth rate the public expects versus the actual money growth rate. If money growth is faster than expected, R will tend to rise other factors held constant, because a more restrictive monetary policy would be expected in future periods (perhaps due to the public’s fear of more info).
The money supply income effect links R changes to changes in income and prediction levels. Rising income tends increase money demand, while falling income leads to reduced money demand. Other things held constant, rising incomes will eventually generate higher R and falling incomes will result in lower R.
b. The Fisher Effect:
The Fisher Effect focuses on the connection between inflation and interest rates. Other factors held constant, a forecast of mere rapid inflation is a forecast of higher interest rates.
Lenders of funds anticipating higher prices for goods + services, will attempt to increase their revenues from loans by raising loan rates. A key approach is to estimate the rate of inflation expected by lenders. Unfortunately, there is little agreement on the most accurate method for making such an estimate.
One commonly used approach is to calculate a weighted average of past rates of inflation and use that average as a proxy for expected inflation. This is a crude approximation because we do not know exactly what factors the public considers in formulating its inflation forecast.
More recently, periodic surveys of economists and investors have been used to represent inflationary expectations in the marketplace.
For example, each quarter of the year, the Fed of Philadelphia surveys 33 professionals forecasters regarding their outlook for real GDP growth, inflation, and interest rates. However, such an approach suffers from being incomplete and possibly irrelevant. Expectations can change so fast that any opinion survey could be outdated before its results are published.
c. Econometric Models :
The use of systems of equation and statistical estimation methods to explain or forecast changes in R or other variables.
These econometric models often employ current and lagged values money, income or total spending, and past rates of inflation. To predict short and long term interest rates through the application of statistical regression techniques.
Interest rates in econometric models typically are linked to monetary and fiscal policy factors, security supplies, foreign demand for loanable funds, and change in income or production activity.
These models suffer from simplicity while trying to represent an exceedingly complex institution. The modern market economy. They also cannot anticipate external shocks such as wars or sudden shifts in government policy.
d. The Forward Calendar:
The foreward calendar lists new security issues (usually marketable notes and bonds) expected to come to the market within the next few weeks or months. Such listings are representations of the future supply of securities coming to the markets that is, future demand for credit. If the future supplies are expected to be tight (with demand unchanged), interest rates should fall. Conversely, an increased future supply of security offerings should lead to higher interest rates, other factors held equal.
e. Market Expectations and Implied Rate forecasting:
The financial markets reveal the public’s expectations at any given moment regarding the future course of R. These expectations are reflected most directly in the shape of the yield curve and in the prices and yields on securities traded for future delivery in the financial in the financial futures market. Upward sloping yield curves generally point to an expectation of rising R, for example, while declining yields on securities whose futures contracts are being priced today suggest lower R between now and when those futures contracts mature.
The biggest problem with such implied market forecasts is that current expectations about the future may turn out to be incorrect.
Moreover, expectations often change rapidly, sometimes in a matter of minutes or hours, as new info reaches the markets.
f. The Consensus forecast:
Because any one forecasting technique can generate spacious forecasts due to change or due to the impact of factors not taken into account by that particular technique, many forecasters “check out” their predictions using more than one forecasting method.
The outlook that arises from the application of several different forecasting methods is often called the consensus forecast.
A prediction of interest rates or economic conditions based on a variety of projections derived from several different forecasting methods.
I. INTEREST RATE RISK HEDGING STRATEGIES
1. What is hedging?
The increasingly volatile interest rates in recent years, coupled with the inherent difficulties of rate forecasting, have led many individuals and institutions to find ways to insulate themselves from interest rate changes. Hedging is the attempt to protect oneself from adverse movements in prices, and in particular adverse changes in interest rates. Some of the instruments and techniques of hedging are described in the following.
2. Duration
Duration is defined as a weighted average measure of the maturity of a financial instrument that takes into account the amount and timing of all cash flows associated with the instrument. Duration can be used as a hedging strategy. An investor could immunize his or her portfolio against interest rate changes (interest rate risks) by setting
Duration of a financial asset portfolio = Length of the investor’s planned holding period
With this investment strategy, a rise in interest rates will reduce the market value of our investor’s portfolio, but the interest return on reinvested cash flows from the portfolio will increase by an offsetting amount. The investor’s total return will be stabilized. Similarly, falling interest rates reduce the interest return from reinvesting earnings form loans or securities, but with a duration set equal to holding period length, the market value of those financial assets will rise by the corresponding amount. Again, the total return will be stabilized.
For a financial institution (such as a bank) that borrows and lends funds simultaneously, a good immunizing strategy is to set
Asset duration = Liability duration
3. Stripped securities
Interest-bearing financial instruments (usually bonds) that have been split up into multiple discount securities, each composed of one interest payment (known as an IO) or one promised principal payment (known as a PO). They are security issues whose separate interest and principal payments are each separated into a zero-coupon security by itself, which pays cash only on its maturity date.
4. GAP management
This is a technique for protecting a financial institution’s earnings from losses due to changes in interest rates which requires setting the volume of interest-sensitive assets equal to the volume of interest-sensitive liabilities. If the interest rates rise, the increase in costs would be matched by an increase in revenues.
5. Interest rate caps, floors, and collars
Interest rate caps limit how high the interest on a loan can rise. The borrower pays a fee to the lender for the protection the cap provides against rising interest rates.
A Rate floor limits how low the interest rate on a loan can fall. If market rates fall below the minimum agreed-upon rate, the borrower will reimburse the lender for the difference between the minimum loan rate and the actual market interest rate.
Rate collars are loan agreements containing both a minimum and a maximum loan rate to protect both borrower and lender against excessive interest rate risk. Rate collars place limits on both how high interest rates can go and how low interest rates can fall. Thus, both the lender and the borrower have some protection against interest rates moving in the wrong direction.
6. Interest rate insurance
Here, a borrower will pay a premium to an insurer in order to be protected against interest rates rising above some level. If rates exceed this maximum, the insurer pays the additional interest expense incurred by the borrower.
7. Loan options
Loan options are contracts entitling a borrower to take out a loan at a guaranteed interest rate over a stipulated time period. If rates rise above the guaranteed rate and borrowing is necessary, the borrower will use the loan option and borrow at the guaranteed rate. On the other hand, if loan rates stay below the guaranteed rate, funds will be borrowed as needed at market interest rates and the option will not be used. An option fee is assesses by the lending institution regardless of whether is option is ever exercised.
8. Interest rate SWAPS
An interest rate SWAP refers to a contract between two or more firms in which interest payments are exchanged so that each participating firm saves on interest costs and gets a better balance between its cash inflows and outflows. For instance, a company with fixed rate assets may issue floating-rate debt, and then swap the payment on that debt with another firm that has issued fixed-rate debt.
The terminology of the SWAP market
The SWAP partner that pays out a floating (variable) interest rate is said to be in a short position sending a variable interest rate to its SWAP partner and receiving a fixed interest rate in return. In contrast, the SWAP partner that pays out a fixed interest rate and receives, in return, a floating interest rate is said to be in a long position in the SWAP market.
Financial intermediaries and other institutions frequently occupy a hedged position, meaning that the hedged institution both pays and receives both floating and fixed interest rates.
Derivatives (Forwards, futures, options, swaps, caps, and floors) are discussed in greater details later in the course.
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