Financial economics

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Financial economics treats the financial system as an open interactive system dealing both in claims upon future goods and services, and in the allocation of the risks that are associated with such claims. It is concerned with the investment choices made by individuals, with the financing choices made by corporations, with the conduct of financial organisations that act as financial intermediaries between individuals and corporations; and with the effects of it all upon the economy.

(See the related articles subpage for definitions of the terms shown in italics in this article)

Financial systems

Common features

The essential functions of a financial system are taken to be to connect prospective investors with investment opportunities, and to allocate risk in accordance with the preferences of prospective risk-takers. Its components are taken be corporations, investors, financial intermediaries and a financial regulator; its instruments are taken to include a variety of types of shareholding, debt instruments and options that are traded, together with financial derivatives, in a variety of financial markets; and its activities are taken to be governed by rules and practices administered by regulatory authorities.

The financial activities of governments are the subject of a separate article on public finance, and investment choices within corporations are the subject of a separate article on business economics.

Effects on economic performance

The evidence strongly suggests that a well-developed financial system is good for economic growth, and although comparisons between systems in which companies raise finance mainly by borrowing from the banks (as in Germany[1] and Japan) with "equity-based systems" in which companies raise it mainly by issuing shares (as in the United States and Britain) have been inconclusive, they suggest that equity-based systems are better at promoting hi-tech growth. [2][3] Equity-based systems promote economic activity by enabling prospective investors to finance capital investment by purchasing shares offered by corporations. The incentive to do so is increased by a facility to dispose of them at will in financial markets, and that incentive is further increased by the availability of financial derivatives that help the prospective investor to chose his preferred combination of risk and return.

The effect of the financial system upon economic stability is discussed in the concluding paragraph of this article.

The choices facing investors

The efficient market hypothesis

Long before economic analysis was applied to the problem, investment analysts had been advising their clients about their stock market investments, and fund managers had been taking decisions on their behalf. Some sought to predict future movements of the price of a share from a study of the pattern of its recent price movements (known as “technical analysis”) and some attempted to do so by examining the issuing company’s competitive position and the factors affecting the markets in which it operates (known as "fundamental analysis"). But in 1933, an economist suggested that both might be wasting their time. Applying the concept of a "perfect market"[4] to the stock exchange, the economist Alfred Cowles asked the question "Can Stock Market Forecasters Forecast?" [5] and gave his answer as "it is doubtful", thereby starting a controversy that has yet to be fully resolved. Cowles argued that in an "efficient market" all of the information upon which a forecast could be based was already embodied in the price of the share in question, subject only to unpredictable fluctuations having the characteristics known to statisticians as a random walk. The question whether stock markets do in fact operate as efficient markets was subsequently explored in studies undertaken and summarised by the economist Eugene Fama[6] [7] and others. Fama concluded that there is no important evidence to suggest that prices do not adjust to publicly available information, and only limited evidence of privileged access to information about prices. It appears that, although some investment analysts may acquire some useful information, most of them do not. A 1967 study of the average performance of managers of mutual funds indicated that they had not been successful enough to pay their brokers’ fees [8], and subsequent studies have reached similar conclusions. The paradoxical consequence of market efficiency would seem to be that the more effective are the efforts of the experts to make best use of the relevant information, the less likely they are to benefit from those efforts.

Risk limitation

The value of any investment is definitionally equal to the present value of its future cash flows when discounted at the investor’s discount rate - an identity that is known as the dividend discount model. It is a method that is of limited usefulness in valuing shares because of the uncertainties surrounding the future of the issuing company. It is conceptually possible to allow for those uncertainties by applying subjective probability weightings to each of what are conceived to be the possible outcomes, in order to produce an estimate of the investment’s net present expected value (see the article on net present value). If such a calculation were feasible, a rational choice would be to buy if the net present expected value (net, that is to say, of the purchase price) is greater than zero – or, even better, to buy the asset that has the largest positive net present value of all the assets that are on offer. But it would not be rational to devote all of one’s savings to that asset, even if the probable outcome had been correctly estimated. Every investor needs to limit the risk of total loss; and investors differ in their attitudes to less important risks. The well-known way of limiting such risks is to buy a diversified share portfolio – a strategy that was analysed in detail in the 1950s by the economist Harry Markowitz [9] [10]. Markowitz reasoned that what matters is the riskiness of the portfolio rather than its components, and that the riskiness of the portfolio depended, not so much upon the riskiness of its components, as upon their covariance, meaning the tendency of their prices rise and fall in concert. He went on to develop what has come to be known as Modern Portfolio Theory concerning the problem of adjusting a portfolio mix to give the maximum return for a given level of risk. Complex procedures are involved in which assets are grouped according to their riskiness and their covariance. The risk of holding an equity came to be categorised as consisting of "unsystematic risk", which can be reduced by diversification, and "systematic risk" which results from the rise and fall of the equity market as a whole. Modern portfolio theory now takes account of an extension of the Markowitz analysis to include cash, and the possibility of borrowing in order to invest, that was developed by James Tobin [11]. Tobin demonstrated that the process of finding an optimum portfolio for a given level of risk involves two separate two decisions: first finding an optimal mix of equities, and then combining it with the amount of cash necessary to meet the risk requirement - a result known as "Tobin's Separation Theorem". He also argued that in a perfect market with only rational investors, the optimal mix of equities would consist of the entire market.

Equity pricing

The value of an asset is determined by its expected rate of return which, in turn, is related to its riskiness. Competition may be expected to ensure that equities earn greater returns than government bonds in order to compensate their purchasers for undertaking greater risks. The difference for any given share is termed its "risk premium”. A theorem developed by the economist William Sharpe [12] proves that, under certain ideal circumstances, a share's risk premium will be equal to the equity market’s risk premium multiplied by a factor that he termed "Beta", which is related to the covariance of that share's rates of return with the corresponding rates for the equity market as a whole. The result is known as the Capital Asset Pricing Model (CAPM) [13]. Sharpe's proof depends upon the assumption that all investors effectively free themselves of "unsystematic" risk by diversification and receive a risk premium only for the remaining "systematic risk" (he argued that rational investors in a perfect market would arbitrage away any premium gained in return for avoidable risks). Subsequent investigators have tried to establish whether, despite those somewhat unrealistic assumptions, the stock market behaves as predicted by the model. A 1972 study of the New York Stock Exchange during the period 1931-65 broadly confirmed the existence of proportionality between the prices of shares and their Betas [14], a 1992 study of the New York, American and NASDAQ stock exchanges during the period 1963-90 did not indicate any such proportionality [15], and the findings of a 1993 paper using a different methodology tended to confirm the CAPM prediction [16]. The controversy continues, but many economists believe that Beta is a significant factor, although not the only factor, that influences share prices. The possibility that other factors exert a significant influence is allowed for in an extension of the CAPM methodology, termed the "Arbitrage Pricing Theory" (APT) [17][18]. The theory leaves it to its users to identify the factors likely to influence the price of a share and to weight them according to their relative importance. Firm size, price, earnings ratio, and dividend yield have been found to be relevant factors, as well as factors that are relevant to the markets in which the firm operates [19]. In the 1970s, however, two American economists came to realise that the future volatility of the price of an asset is already allowed for in the operation of the options market, and that it should be possible to deduce the market's expectation of its volatility from the prices ruling in that market. Fischer Black and Myron Scholes developed what came to be known as the "Black-Scholes Model and published their results in a 1973 paper [20]; an achievement that eventualy resulted in the award of the Nobel prize for economics [21]. The model can be used either to determine the fair price for an option on an asset from an estimate of its price volatility, or to estimate the market's expectation of the asset's price volatility from the price of an option for it. (The mathematical form of the theorem, and some of the assumptions on which it depends are set out on the tutorials subpage). The Black-Scholes theorem was used by Robert Merton as the basis for a technique known as "Contingent Claims Analysis" that can be applied to the pricing of almost any form of financial asset [22].

The financing choices facing corporations

The financing choices open to companies are determined by the choices open to investors - and that is true of choices concerning the issue of shares or bonds. A company's shareholders become its true owners only after all its debts have been repaid. In principle, therefore, their view of a company's debts should depend upon the opportunity they have to repay them. If they could do so costlessly, using money borrowed at the same rate as that paid by the company, then shareholders should be indifferent to the existence of debt. It should not matter to them whether they have shares in a company with no debt, or in a similar company with debt that could be costlessly repaid. That was the insight into the economics of company finance that was put forward by Modigliani and Miller in 1958. [23]. On those assumptions the view of a company taken by the finance market would be unaffected, even by unlimited levels of gearing. Reality differs in several respects. Gearing increases the risk that the company's income might fall to a level at which it could not make its contractual income payments - at which point it would become insolvent. On the other hand, it usually gives the company a tax advantage because most tax systems treat interest payments as an expense that can be deducted from income before calculating tax liability. According to the "trade-off theory" of corporate finance, the appropriate decision- making procedure under those circumstances is to increase gearing to the point at which the tax advantage offsets the risk-adjusted cost of insolvency. [24]. The rival "pecking order" theory [25] suggests that companies prefer the cheapest available form of finance, choosing retained profits, debt and equity in that order of preference. Most of the empirical evidence appears to favour the trade-off theory[26]. Much of the evidence also suggests that high gearing can have a negative effect upon corporate growth[27], but the exceptions in both cases suggest that there are other factors that have to be taken into account. Among possible additional factors are the possibilities of agency costs arising from conflicts of interest between shareholders and managers [28] and assymmetry of information between shareholders and managers [29], but it has been suggested that the threat of a hostile takeover, leading to replacement of an existing management, may mitigate such costs [30].

The problems facing the financial intermediaries

(For more detailed information about the operation of the financial intermediaries, see the article on the financial system.)

The problems facing the financial intermediaries arise mainly from the fact that they make up a tightly-coupled complex interactive system, in which an error of judgement in one of its members can have repercussions in many of the others. The investment banks, which are its largest element, are particularly sensitive to such errors because they borrow and lend vastly greater sums of money than they themselves possess. A mistake that involves a minor proportion of a bank's turnover could consequently have a devastating effect upon its own finances. That sensitivity to relatively minor errors also characterises financial institutions that operate at very high level of gearing, because of their dependence upon sufficient earnings to meet their interest-paying obligations. Those problems have been tackled by the widespread use of risk analysis. Schemes of "portfolio insurance" using options priced in accordance with the Black-Scholes model[31]) became popular in the 1980s, and they have been followed since then by a variety of tailor-made risk-management products. Widespread use was made of a variety of "value at risk" calculations (which apply standard probability distributions to the observed volatility of market prices) [32]. The increased competition that then developed between financial intermediaries led to reduced profit margins on individual transactions, so that profitable trading came to require a large number transactions, and increased gearing became necessary to finance them. Thousands of highly professionally-managed computer-operated "hedge funds" came in existence in the 1990s, some using borrowed money amounting to over twenty times their own capital.

The roles of financial regulators

In England, the need for regulation of the financial intermediaries became evident in 1866 when the collapse of the Gurney-Overend bank caused a panic in which large numbers of people tried to withdraw deposits from their banks; leading to the collapse of over 200 companies [33]. On that occasion the Bank of England had refused to help, but the influential commentator Walter Bagehot urged that in a future panic it should "advance freely and vigorously to the public out of its reserves"[34] in order to avoid another "run on the banks", and in 1890 the Bank rescued the failing Barings bank by guaranteeing loans to it by other banks [35] . In the United States there was similar initial inaction in face of the much more serious panic of 1893, but in 1913 the Congress created the Federal Reserve Bank and granted it powers to assist banks that faced demands that they would otherwise be unable to meet. There was controversy among economists concerning the justification for such intervention. Monetarists such as Anna Schwartz argued that it should only be used to deal with a banking panic, such as would that would otherwise cause a substantial fall in the money supply [36]. Others, such as Hyman Minsky argued that it should be used to deal with a wider range of mishaps, including the failure of a very large financial or non-financial firm [37] [38]. The subsequent practice of central banks has generally been to provide short-term loans to solvent banks to tide them over temporary liquidity difficulties, and to provide or arrange longer-term loans to avert failures that would be large enough to threaten the stability of the banking system. In an effort to avoid bank failures, limits were placed upon their reserve ratios, and after 1988, most central banks followed the recommendations of the Basel Committee for International Banking Supervision and adopted limits upon banks' capital adequacy ratios which took account of the riskiness of their assets (a revised version of their recommendations took effect at the beginning of 2008 [39]. which required central banks to ensure that banks were operating adequate risk -management systems). Until the 1980s, investment banks were not normally permitted to undertake non-financial activities, nor other financial activities such as branch banking, insurance or mortgage lending. In the 1980s, however, there was extensive deregulation of the banks with the intention of increasing competition and improving efficiency [40]. Reserve requirements were relaxed and restrictions upon the range of their financial activities were generally relaxed or removed [41]. There followed an extensive restructuring of most of the world's major financial systems in which investment banking and branch banking organisations were merged, banks became closely involved in a wide range of non-banking activities such as mortgage lending and insurance, and new financial institutions came into being whose activities interacted with the new activities of the banking system. In 1997 an inquiry set up by the Australian Government recommended that, in view of the growing interdependence of the banking system with the remainder of the financial system, they should all be regulated by a single agency [42] and that recommendation has since been followed by Japan and many European countries [43].

How it all worked out

Imperfect markets

The importance of the efficient market hypothesis lies not so much in what it says about investment analysts, as in the implications of its embodiment in subsequent theories: a risk-assessment procedure that is based upon a hypothesis that only holds true most of the time may be expected to have limited reliability. Questions about its usefulness in such applications arise mainly from the known incidence of irrational behaviour. The existence in the market of noise traders need not invalidate the hypothesis, provided that most traders act rationally and that those who do not make only random mistakes. But two events suggest that, even if it nearly always holds true, there can be important exceptions in which those provisos are breached. They are the stock market crash of 1987 and the internet bubble of the 1990s. In defence of the hypothesis, Burton Malkiel argues that the 1987 crash can be explained mainly (but not entirely) in terms of rational behavour, notes that professional analysts were very much involved in the creation of the internet bubble, and rests his defence upon the observation that bubbles are exceptional [44]. The findings of behavioural finance studies suggest, however, that occurances of that sort are to be expected. The innate characteristics of the human mind have been shown to be responsible for habitual and persistent judgmental mistakes [45], of which some, such as "information cascades" [46] might be expected to lead to non-random price-movements - and there have been many instances of cascades and herding behaviour in financial markets. [47]

Faulty insurance and capital mismanagement

The massive expansion in the use of portfolio insurance which occurred in the 1980s, ended when its shortcomings were exposed by the stock exchange crash of 1987. Used by a privileged few, it had been very effective, but its widespread use eventually violated some of the Black-Scholes assumptions upon which it was based. It was designed to cope with the fundamentally directionless price fluctuations, characterised mathematically as a random walk, and was ill-adapted to deal with a persistent downward trend. Moreover, the short selling which it required could not be achieved in the absence of willing buyers, which cease to be available at times of panic. In 1987, massive losses resulted from its use. Expert opinion differed as to whether it was among the causes of the crash, but it is generally accepted that it increased its severity. [48] [49] [50]. In grossly simplified terms, it could be seen as a sophisticated form of the stop loss policy under which investors automatically respond to falling prices by selling stock, thereby contributing to the downward trend. The financial fragility of highly-geared hedge funds was subsequently demonstrated by the spectacular failure of "Long Term Capital Management" (LTCM). Launched in 1994, LTCM immediately attracted investors in other financial intermediaries, including many large investment banks, and raised $1.3 billion at launch. It was spectacularly successful for four years, but by 1998 it had lost over $4 billion and had to be bailed out by other investors. There are differing accounts of the complex series of events that led to its failure, [51] [52], but it is generally agreed that it was finally brought down by a lack of liquidity. LTCM's assets eventually yielded a small profit, suggesting that it might not have needed rescue had it not been temporarily unable to meet its financial obligations because it could not find buyers for its assets when it needed them.

The danger of systemic failure

The fact that the Federal Reserve Bank organised the rescue of LTCM was a recognition that it was a significant component of what had become a truly complex interactive system; - and a recognition of that system's fragility. Walter Bagehot had warned, over a hundred years previously, of the devastating effect upon the economy of a "run on the banks", and the consequent withdrawal of the credit upon which the non-financial sector depends. The devastating effect of the failures of their recently deregulated banking systems upon the economies of the Asian "tigers" had provided a further warning of what could happen [53]. Although LTCM was not a bank, it was evidently feared that its linkages with the banks through loans and investments were so strong that it failures could threaten their ability to provide liquidity on request to the rest of the economy.

References

  1. Colin Mayer and Ian Alexander: Banks and Securities Markets: Corporate Financing in Germany and the UK, CEPR Discussion Paper No. 433, June 1990.
  2. Wendy Carlin and Colin Meyer: How do Financial Systems affect Economic Performance?, Said Business School University of Oxford 1999
  3. Robert Carpenter and Bruce Petersen: Capital Market Imperfection: High-tech Investment and New Equity Financing, Economic Journal 2002
  4. See the definition of a perfect market in the article on markets
  5. Alfred Cowles, "Can Stock Market Forecasters Forecast?", Econometrica July 1933
  6. Eugene Fama: "Efficient Capital Markets: A Review of Theory and Empirical Work", Journal of Finance Vol 25 No 2
  7. Eugene Fama: "Efficient Capital Markets II", Journal of Finance, December 1991
  8. Michael Jensen: "The Performance of Mutual Funds in the Period 1945-1964" . Journal of Finance, Vol. 23, No. 2, pp. 389-416, 1967
  9. Harry Markowitz: "Portfolio Selection", in The Journal of Finance, Vol. 7, No. 1 March , 1952.
  10. Harry Markowitz : Portfolio Selection: Efficient Diversification of Investments, Wiley 1959
  11. James Tobin: Liquidity Preference as Behavior Towards Risk The Review of Economic Studies, Vol. 25, No. 2Feb., 1958.
  12. William Sharpe: Portfolio Theory and Capital Markets McGraw-Hill 1970
  13. For the mathematical form of the CAPM model, see the Tutorials subpage
  14. Michael Jensen, Fischer Black, and Myron Scholes, "The Capital Asset Pricing Model: Some Empirical Tests" . Michael C. Jensen, in Studies In The Theory of Capital Markets, Praeger Publishers Inc., 1972
  15. Eugene Fama and Kenneth French: "The Cross-Section of Expected Stock Returns" in The Journal of Finance, Vol. 47, No. 2 1992 [1]
  16. Ravi Jagannathan and Zenyu Wang : The CAPM is Alive and Well Federal Reserve Bank of Minneapolis Staff Report 165. 1993
  17. Stephen Ross: "The Arbitrage Theory of Capital Asset Pricing" in Journal of Economic Theory, December 1976
  18. For a mathematical statement of the arbitrage pricing theory see the Tutorials subpage
  19. Richard Roll and Stephen Ross: "An Empirical Investigation of the Arbitrage Pricing Theory" in Journal of Finance December 1980
  20. Fischer Black and Myron Scholes: "The Pricing of Options and Corporate Liabilities", The Journal of Political Economy, Vol. 81, No. 3 May-June 1973[2]
  21. Press release for the award of the Nobel Prize in Economics to Robert Merton and Myron Scholes, Nobel Committee 1997
  22. Robert Merton: "On the Pricing of Corporate Debt: the Risk Structure of Interest Rates" Journal of Finance May 1974
  23. Franco Modigliani and Merton Miller: "The Cost of Capital, Corporation Finance and the Theory of Investment", American Economic Review June 1958
  24. Peter Brierley and Philip Bunn: "The Determination of UK Corporate Capital Gearing", Bank of England Quarterly Bulletin August 2005
  25. Stewart Myers and Nicolas Majluf: Corporate Financing and Investment Decisions When Firms have Information That Investors Do Not Have. Sloan School of Management Working Paper No 1523-94 1983
  26. Eugene Fama and Kenneth French: Financing Decisions: Who Issues Stock, Center for Research in Security Prices Working Paper No 549
  27. Ofek Eli and Rene Stultz: Leverage, Investment, and Firm Growth NBER Working Paper No 5165 July 1995
  28. Michael Jensen and William Meckling: "Theory of the Firm: Managerial Behavior, Agency Costs and Ownership Structure", Journal of Financial Economics, Vol 3 No 4 1976.
  29. Stewart Myers and Nicolas Majluf: Corporate Financing and Investment Decisions When Firms have Information That Investors Do Not Have Sloan School of Management Working Paper No 1523-941983
  30. Michael Jensen and Richard Ruback: “The Market for Corporate Control: The Scientific Evidence”, Journal of Financial Economics April 1983
  31. Dean Furbush: "Program Trading" Concise Encyclopedia of Economics
  32. Thomas Linsmeier and Neil Pearson: Risk Measurement: An Introduction to Value at Risk, University of Illinois at Urbana-Champaign - Department of Finance Working Paper 96-04 July 1996
  33. James Taylor ‘’Limited Liability on Trial: the Commercial Crisis of 1866 and its Aftermath’’ Economic History Society Conference 2003
  34. Walter Bagehot: Lombard Street: A Description of the Money Market Scribner, Armstrong, 1874
  35. A list of subsequent rescues appears in paragraph 3 of Michael Barro and Anna Schwartz: "Under What Circumstances, Past and Present Have International Rescues of Countries in Financial Difficulties Been Successful?" Journal of International Money and Finance 18 1999, [3]
  36. Anna Schwartz: "Real and Pseudo- Financial Crises" in Crises in the Management of the World Banking System Macmillan 1986
  37. Hyman Minsky: "Financial Stability Revisited" in Reappraisal of the Federal Reserve Discount Mechanism, Vol 3, Federal Reserve Bank 1972
  38. Charles Kindleberger:Manias, Panics and Crises, Macmillan, 1978
  39. Core Principles of Effective Banking Supervision Basel Committee on Banking Supervision, Bank for International Settlements 2006(Basel 2
  40. James Barth and Gerard Caprio: Rethinking Bank Regulation: Till Angels Govern, Cambridge University Press 2008.
  41. Claudio Borio and Renato Filoso: The Changing Borders of Banking: Trends and Implications, Working Paper No 43 Bank for International Settlements December 1994
  42. Report of the Financial System Inquiry, Australian Government Publishing Service March 1997
  43. see Fig 5 of Howard Davis: "What Future for the Central Banks", in World Economics Vol7 No4 October 2006[4]
  44. Burton Malkiel: "The Efficient Market Hypothesis and its Critics", Journal of Economic Perspectives Winter 2003
  45. Nick Gardner: Mistakes: How They Have Happened and How Some Might Be Avoided, Chapter 5, Nick Gardner 2007
  46. Cascades (bibliography).
  47. David Hirshleifer and Siew Hong Teoh: Herd Behavior and Cascading in Capital Markets: A Review and Synthesis Dice Center Working Paper No. 2001-20 Paul Merage School of Business and University of California January 2002 (reviewed)
  48. For the 1987 crash as seen by a Presidential task force, see the Report of the Presidential Task Force on Market Mechanisms. Nicholas F. Brady (Chairman), U.S. Government Printing Office. 1988.
  49. For the 1987 crash as seen by a portfolio insurance operator, see Richard Bookstaber: A Demon of Our Own Design Chapter 2 John Wiley 2007
  50. For a sociologist's view, see Donald MacKenzie: "The Big, Bad Wolf and the Rational Market: Portfolio Insurance, the 1987 Crash and the Performativity of Economics", Economy and Society 33 2004
  51. Roger Lowenstein: When genius failed : the rise and fall of Long-Term Capital Management Random House, 2000 (reviewed)
  52. Richard Bookstaber: "Long Term Capital Management Rides the Leverage Cycle to Hell" (Chapter 7 of A Demon Of Our Own Design Wiley 2007)
  53. Marcus Miller and Pongsak Luangram: Financial crisis in South East Asia: Bank Runs, Asset Bubbles and Antodotes,CSCR Working Paper No 11/98 July 1998