1. 1-1 برنامج توعية وتدريب المحللين الماليين الدكتور منذر بركات إدارة البحوث والتوعية هيئة الأوراق المالية والسلع

2. 1-2 Financial Analysts Awareness & Training Program Dr. Mounther Barakat Securities and Commodities Authority

3. 1-3 Pure Expectations MaturityYield 1 year6.0% 2 years6.2% 3 years6.4% 4 years6.5% 5 years6.5% If PEH holds, what does the market expect will be the interest rate on one-year securities, one year from now? Three-year securities, two years from now?

4. 1-4 Spot and forward rates 6.2% = (6.0% + x%) / 2 12.4%= 6.0% + x% 6.4%= x% PEH says that one-year securities will yield 6.4%, one year from now.

5. 1-5 Spot and forward rates 6.5% = [2(6.2%) + 3(x%) / 5 32.5% = 12.4% + 3(x%) 6.7%= x% PEH says that one-year securities will yield 6.7%, one year from now.

6. 1-6 Returns The rate of return on an investment can be calculated as follows: (Amount received – Amount invested) Return = ________________________ Amount invested For example, if $1,000 is invested and $1,100 is returned after one year, the rate of return for this investment is: ($1,100 - $1,000) / $1,000 = 10%.

7. 1-7 What is Risk? Two types of investment risk Stand-alone risk Portfolio risk Investment risk is related to the probability of earning a low or negative actual return. The greater the chance of lower than expected or negative returns, the riskier the investment.

8. 1-8 Probability distributions A listing of all possible outcomes, and the probability of each occurrence. Can be shown graphically. Expected Rate of Return Rate of Return (%) 100150-70 Firm X Firm Y

9. 1-9 The average and the standard deviation Average Standard Return Deviation Small-company stocks17.3%33.2% Large-company stocks12.720.2 L-T corporate bonds 6.1 8.6 L-T government bonds 5.7 9.4 Treasury bills 3.9 3.2.

10. 1-10 Return comparisons EconomyProb.T-BillABCM Recession 0.18.0%-22.0%28.0%10.0%-13.0% Below avg 0.28.0%-2.0%14.7%-10.0%1.0% Average 0.48.0%20.0%0.0%7.0%15.0% Above avg 0.28.0%35.0%-10.0%45.0%29.0% Boom 0.18.0%50.0%-20.0%30.0%43.0%

11. 1-11 T-Bills and their risk and return. T-bills will return the promised 8%, regardless of the economy. No, T-bills do not provide a risk-free return, as they are still exposed to inflation. Although, very little unexpected inflation is likely to occur over such a short period of time. T-bills are also risky in terms of reinvestment rate risk. T-bills are risk-free in the default sense of the word.

12. 1-12 Asset and market returns. A – Moves with the economy, and has a positive correlation. This is typical. B – Is countercyclical with the economy, and has a negative correlation. This is unusual.

13. 1-13 Calculating expected returns.

14. 1-14 Summary Calculating expected returns. Exp return A 17.4% M 15.0% C 13.8% T-bill 8.0% B 1.7% A has the highest expected return, and appears to be the best investment alternative, but is it really? Have we failed to account for risk?

15. 1-15 Risk: Calculating the standard deviation

16. 1-16 Risk: Calculating the standard deviation

17. 1-17 Risk: Calculating the standard deviation C Prob. T - bill A 0 8 13.8 17.4 Rate of Return (%)

18. 1-18 Standard Deviation as a Measure of Risk Standard deviation (σ i ) measures total, or stand-alone, risk. The larger σ i is, the lower the probability that actual returns will be closer to expected returns. Larger σ i is associated with a wider probability distribution of returns.

19. 1-19 Comparing Risk and Return SecurityExpected return Risk, σ T-bills8.0%0.0% A17.4%20.0% B1.7%13.4% C13.8%18.8% M15.0%15.3%

20. 1-20 Coefficient of Variation (CV) A standardized measure of dispersion about the expected value, that shows the risk per unit of return.

21. 1-21 Risk rankings, by coefficient of variation CV T-bill0.000 A1.149 B7.882 C1.362 M1.020 B has the highest degree of risk per unit of return. A, despite having the highest standard deviation of returns, has a relatively average CV.

22. 1-22 Investor attitude towards risk Risk aversion – assumes investors dislike risk and require higher rates of return to encourage them to hold riskier securities. Risk premium – the difference between the return on a risky asset and less risky asset, which serves as compensation for investors to hold riskier securities.

23. 1-23 Illustrating diversification effects of a stock portfolio # Stocks in Portfolio 10 20 30 40 2,000+ Company-Specific Risk Market Risk 20 0 Stand-Alone Risk,  p  p (%) 35

24. 1-24 Breaking down sources of risk Stand-alone risk = Market risk + Firm-specific risk Market risk – portion of a security’s stand-alone risk that cannot be eliminated through diversification. Measured by beta. Firm-specific risk – portion of a security’s stand- alone risk that can be eliminated through proper diversification.

25. 1-25 Capital Asset Pricing Model Model based upon concept that a stock’s required rate of return is equal to the risk-free rate of return plus a risk premium that reflects the riskiness of the stock after diversification. Primary conclusion: The relevant riskiness of a stock is its contribution to the riskiness of a well- diversified portfolio.

26. 1-26 Beta Measures a stock’s market risk, and shows a stock’s volatility relative to the market. Indicates how risky a stock is if the stock is held in a well-diversified portfolio.

27. 1-27 Calculating betas Run a regression of past returns of a security against past returns on the market. The slope of the regression line (sometimes called the security’s characteristic line) is defined as the beta coefficient for the security.

28. 1-28 Illustrating the calculation of beta See Excel file

29. 1-29 Comments on beta If beta = 1.0, the security is just as risky as the average stock. If beta > 1.0, the security is riskier than average. If beta < 1.0, the security is less risky than average. Most stocks have betas in the range of 0.5 to 1.5.

30. 1-30 Can the beta of a security be negative? Yes, if the correlation between Stock i and the market is negative (i.e., ρ i,m < 0). If the correlation is negative, the regression line would slope downward, and the beta would be negative. However, a negative beta is highly unlikely.

31. 1-31 Beta coefficients kiki _ kMkM _ - 20 0 20 40 40 20 -20 A: β = 1.30 T-bills: β = 0 B: β = -0.87

32. 1-32 Comparing expected return and beta coefficients SecurityExp. Ret. Beta A 17.4% 1.30 M 15.0 1.00 C 13.8 0.89 T-Bills 8.0 0.00 B 1.7-0.87 Riskier securities have higher returns, so the rank order is OK.

33. 1-33 The Security Market Line (SML): SML: k i = k RF + (k M – k RF ) β i Assume k RF = 8% and k M = 15%. The market (or equity) risk premium is RP M = k M – k RF = 15% – 8% = 7%.

34. 1-34 What is the market risk premium? Additional return over the risk-free rate needed to compensate investors for assuming an average amount of risk. Its size depends on the perceived risk of the stock market and investors’ degree of risk aversion. Varies from year to year, but most estimates suggest that it ranges between 4% and 8% per year.

35. 1-35 Calculating required rates of return k A = 8.0% + (15.0% - 8.0%)(1.30) = 8.0% + (7.0%)(1.30) = 8.0% + 9.1%= 17.10% k M = 8.0% + (7.0%)(1.00)= 15.00% k C = 8.0% + (7.0%)(0.89)= 14.23% k T-bill = 8.0% + (7.0%)(0.00)= 8.00% k B = 8.0% + (7.0%)(-0.87)= 1.91%

36. 1-36 Expected vs. Required returns

37. 1-37 Illustrating the Security Market Line.. B. A T-bills. C SML k M = 15 k RF = 8 -1 0 1 2 SML: k i = 8% + (15% – 8%) β i k i (%) Risk, β i

38. 1-38 The three basic concepts of valuation Investors can only spend cash so "Cash is good and more cash is better." Cash today is worth more than cash tomorrow. Risky cash flows are worth less than safe cash flows. These three imply the value of a company depends on the size, timing, and riskiness of its cash flows.

39. 1-39 Valuation of a Simple Company Investors are: Debtholders Stockholders

40. 1-40 Valuation example… Simple Co.’s shares of stock also compete in the market for investors. Stockholders are the owners of the firm, and the value of ownership is the value of the asset, less any debt that is owed. For example: Suppose Simple Co. is worth $501 million. It owes $150 million to debtholders. So Simple Co.’s equity is worth $501 – 150 = $351 million.

41. 1-41 The Corporate Valuation Model PV of cash flows available to all investors—called free cash flows (FCFs). Discount free cash flows at the average rate of return required by all investors—called the weighted average cost of capital (WACC)

42. 1-42 Steps in the corporate value model Determine weighted average cost of capital Estimate expected future free cash flows Find value of company

43. 1-43 Estimating the Weighted Average Cost of Capital (WACC) Company has two types of investors Debtholders Stockholders Each type of investor expects to receive a return for their investment The return an investor receives is a “cost of capital” from company’s viewpoint.

44. 1-44 Cost of Debt Simple Co.’s cost of debt: r D = 9%. But Simple Co. can deduct interest, so cost to Simple Co. is after-tax rate on debt. If tax rate is 40%, then after-tax cost of debt is: After-tax r D = 9%(1-0.4) = 5.4%.

45. 1-45 Cost of Equity Cost of equity, r s, is higher than cost of debt because stock is riskier. Simple Co.: r s = 12%

46. 1-46 Weighted Average Cost of Capital WACC is average of costs to all investors, weighted by the target percent of firm that is financed by each type. For Simple Co., target percent financed by equity: w S = 70% For Simple Co., target percent financed by debt: w D = 30% (More….)

47. 1-47 WACC (Continued) WACC= w D r D (1-T) + w S r S = 0.3(9%)(1 - 0.4) + 0.7(12%) = 10.02%

48. 1-48 Free Cash Flow (FCF) FCF is the amount of cash available from operations for distribution to all investors (including stockholders and debtholders) after making the necessary investments to support operations. A company’s value depends upon the amount of FCF it can generate.

49. 1-49 Calculating FCF FCF = net operating profit after taxes minus investment in operating capital

50. 1-50 Operating Current Assets Operating current assets are the CA needed to support operations. Op CA include: cash, inventory, receivables. Op CA exclude: short-term investments, because these are not a part of operations.

51. 1-51 Operating Current Liabilities Operating current liabilities are the CL resulting as a normal part of operations. Op CL include: accounts payable and accruals. Op CA exclude: notes payable, because this is a source of financing, not a part of operations.

52. 1-52 Balance Sheet: Assets 200520062007 Op. CA162,000.0168,000.0176,400.0 Total CA162,000.0168,000.0176,400.0 Net PPE199,000.0210,042.0220,500.0 Tot. Assets361,000.0378,042.0396,900.0

53. 1-53 Balance Sheet: Claims 200520062007 Op. CL57,911.562,999.766,150.0 Total CL 57,911.5 62,999.7 66,150.0 L-T Debt136,253.0143,061.0150,223.0 Total Liab.194,164.5206,060.7216,373.0 Equity166,835.5171,981.3180,527.0 TL & Eq.361,000.0378,042.0396,900.0

54. 1-54 Income Statement 200520062007 Sales400,000.0420,000.0441,000.0 Costs344,000.0361,994.2374,881.6 Op. prof.56,000.058,005.866,118.4 Interest11,678.712,262.812,875.5 EBT44,321.345,743.053,242.9 Taxes (40%)17,728.418,297.221,297.2 NI26,592.727,445.831,945.7 Dividends21,200.022,300.023,400.0 Add. RE5,392.75,145.88,545.7

55. 1-55 NOPAT (Net Operating Profit After Taxes) NOPAT is the amount of after-tax profit generated by operations. NOPAT is the amount of net income, or earnings, that a company with no debt or interest-income would have. NOPAT= (Operating profit) (1-T) = EBIT (1-T)

56. 1-56 Calculating NOPAT NOPAT= (Operating profit) (1-T) = EBIT (1-T) NOPAT 07 = 66.1184 (1-0.4) = 39.67104 million.

57. 1-57 Calculating Operating Capital Operating capital (also called total operating capital, or just capital) is the amount of assets required to support the company’s operations, less the liabilities that arise from those operations. The short-term component is net operating working capital (NOWC). The long-term component is factories, land, equipment.

58. 1-58 Net Operating Working Capital NOWC =Operating current assets – Operating current liabilities This is the net amount tied up in the “things” needed to run the company on a day-to-day basis.

59. 1-59 Net Operating Working Capital NOWC = Operating CA – Operating CL NOWC 07 = $176.4 – $66.15 = $110.25 million

60. 1-60 Operating Capital Operating capital = Net operating working capital (NOWC) plus Long-term capital, such as factories, land, equipment.

61. 1-61 Operating Capital Operating Capital = NOWC + LT Op. Capital Capital 07 = $110.25 + $220.50 = $330.75 million This means in 2007 Simple Co. had $330.75 million tied up in capital needed to support its operations. Investors supplied this money. It isn’t available for distribution.

62. 1-62 Investment in Operating Capital Operating capital in 2006 was $315.0423 million Operating capital in 2007 was $330.75 million Simple Co. had to make a net investment of $330.75 – $315.0423 = $15.7077 million in operating capital in 2007.

63. 1-63 Calculating FCF FCF = NOPAT – Investment in operating capital FCF 07 = $39.67104 – (330.75 – 315.0423) = $39.67104 – $15.7077 = $23.96334 million

64. 1-64 Uses of FCF There are five ways for a company to use FCF 1. Pay interest on debt. 2. Pay back principal on debt. 3. Pay dividends. 4. Buy back stock. 5. Buy nonoperating assets (e.g., marketable securities, investments in other companies, etc.)

65. 1-65 Reinvestmen Free Cash Flow

66. 1-66 How Did Simple Co. use its FCF? Paid dividends: $23.4 million Paid after-tax interest of: $12,875.5 (1-0.4) = $7.7253 million For a total of $31.1253 million! This is $7.162 million more than the $23.9 million FCF available! Where did it come from? Simple Co. increased its borrowing by $150.223 – $143.061) = $7.162 million to make up the difference.

67. 1-67 Corporate Valuation Forecast financial statements and use them to project FCF. Discount the FCFs at the WACC This gives the value of operations

68. 1-68 Value of Operations Of course, this requires projecting free cash flows out forever.

69. 1-69 Constant growth If free cash flows are expected to grow at a constant rate of 5%, then this is easy: 2007 2008 2009 20010 201 2012 FCF 23.96325.16126.41927.74029.12730.584 There is an easy formula for the present value of free cash flows that grow forever at a constant rate…

70. 1-70 Constant Growth Formula The summation can be replaced by a single formula:

71. 1-71 The value of operations

72. 1-72 Value of Equity Sources of Corporate Value Value of operations = $501.225 million Value of non-operating assets = $0 (in this case) Claims on Corporate Value Value of Debt = $150.223 million Value of Equity = ? Value of Equity = $501.225 - $150.223 = $351.002 million, or just $351 million.

73. 1-73 Value of Equity Price per share = Equity / # of shares = $351 million / 10 million shares = $35.10 per share

74. 1-74 A picture of the breakdown of Simple Co.’s value

75. 1-75 Return on Invested Capital (ROIC) ROIC can be used to evaluate Simple Co.’s performance: ROIC = NOPAT / Total operating capital in place at the beginning of the year

76. 1-76 Return on Invested Capital (ROIC) ROIC 07 = NOPAT 07 / Capital 06 ROIC 07 = 39.67104 / 315.0423 = 12.6%. This is a good ROIC because it is greater than the return that investors require, the WACC, which is 10.02%. So Simple Co. added value during 2007.

77. 1-77 Economic Value Added (EVA TM ) (also called Economic Profit) EVA is another key measure of operating performance. EVA is trademarked by Stern Stewart, Inc. It measures the amount of profit the company earned, over and above the amount of profit that investors required. EVA = NOPAT t – WACC(Capital t-1 )

78. 1-78 Calculating EVA EVA = NOPAT- (WACC)(Begng. Capital) EVA 07 = NOPAT 07 – (0.1002)(Capital 06 ) EVA 07 = $39.67104 – (0.1002)(315.0423) = $39.67104 – $31.56742 = $8.1038 million (More…)

79. 1-79 Economic profit… This shows that in 2007 Simple Co. earned about $8 million more than its investors required. Another way to calculate EP is EVA t = (ROIC – WACC)Capital t-1 = (0.125923 – 0.1002)$315.0423 = $8.1038 million

80. 1-80 Intuition behind EVA If the ROIC – WACC spread is positive, then the firm is generating more than enough “profit,” and is increasing value. But, if the ROIC – WACC spread is negative, then the firm is destroying value, in the sense that investors would be better off taking their money and investing it elsewhere.

81. 1-81 Fundamental Analysis Practice Examples See XLS