300 Stunden werden für die Vorbereitung jedes der drei CFAExamen empfohlen. Doch selbst optimal vorbereitete Kandidaten haben mit einigen Fragen zu kämpfen. Wir haben einschlägige Anbieter von CFASchulungen um die ihrer Meinung nach schwierigsten Fragen aus den Leveln I, II und III gebeten. Glücklicherweise haben sie die Antworten gleich mitgeliefert.
Bringen auch Sie das Zeug zum CFAGuru mit? Dann sollten Ihnen die folgenden Fragen keine Kopfschmerzen bereiten. Da der CFA durchweg auf Englisch ist, haben wir auf eine Übersetzung verzichtet:
1. Beth Knight, CFA, and David Royal, CFA, are independently analyzing the value of Bishop, Inc. stock. Bishop paid a dividend of $1 last year. Knight expects the dividend to grow by 10% in each of the next three years, after which it will grow at a constant rate of 4% per year. Royal also expects a temporary growth rate of 10% followed by a constant growth rate of 4%, but he expects the supernormal growth to last for only two years. Knight estimates that the required return on Bishop stock is 9%, but Royal believes the required return is 10%. Royal’s valuation of Bishop stock is approximately:
A. $5 less than Knight’s valuation
B. Equal to Knights valuation
C. $5 greater than Knights valuation
ANSWER: Derek Burkett, VP, Advance Designations, Kaplan Professional:
"The correct answer is A.
You can select the correct answer without calculating the share values. Royal is using a shorter period of supernormal growth and a higher required rate of return on the stock. Both of these factors will contribute to a lower value using the multistage DDM.
Royal’s valuation is $5.10 less that Knight’s valuation."
2. A semiannual pay floatingrate note pays a coupon of Libor + 60 bps, with exactly three years to maturity. If the required margin is 40 bps and Libor is quoted today at 1.20% then the value of the bond is closest to:
A. 99.42
B. 100.58
C. 102.33
ANSWER: Quartic Financial training 
Floating rate bonds are pretty difficult to value accurately (in fact we will see this again in Level II Derivatives, as they are an essential component to swaps). However, there is an approximation provided in the CFA curriculum, and a rather neat Quartic shortcut too.
A floatingrate note can be (roughly) valued on a coupon date by discounting current Libor + quoted margin (think of this as the regular coupon) at current Libor + required margin (think of this as the discount rate). In other words, we discount what we get (PMT) at the rate that we need (I/Y).
On the calculator: N = 6, I/Y = (1.2 + 0.4) ÷ 2 = 0.8, PMT = (1.2 + 0.6) ÷ 2 = 0.9, FV = 100 è PV = 100.58.
Quartic shortcut: first note that if a bond is paying exactly what is required (i.e. quoted margin = required margin) then the bond will trade at par on each coupon date. In this question, the bond is paying 20 bps per year more than required. This means that we should pay a 20 bp premium per year. Three year maturity means a 60 bp premium. Hence our quick “guess” is that the bond should trade at 100 plus a 60 bp premium, or 100.60. Answer B is the only possible answer.
3. The following details (all annual equivalent) are collected from Treasury securities:
Years to maturity Spot rate 2.0 1.0% 4.0 1.5% 6.0 2.0% 8.0 2.5% Which of the following rates is closest to the twoyear forward rate six years from now (i.e. the “6y2y” rate)? 

A 
2.0% 
B 
3.0% 
C 
4.0% 
ANSWER: Quartic Financial training 
Calculating forward rates from spot rates and spots from forwards can be done easily, and quite accurately, with the banana method, described below.
Note that the sixyear spot rate (say, z_{6}) is 2% and the eightyear spot rate (z_{8}) is 2.5%. Let’s call the 6y2y rate F, to keep notation easy.
To solve this, draw a horizontal timeline from 0 to 8, marking time 6 on the top. To avoid arbitrage, investing for six years at z_{6} then two years at F must be the same as investing for eight years at the z_{8} rate. Mark above your timeline “z_{6} = 2%” (between T = 0 and T = 6) and “F = ?” (between T = 6 and T = 8), and below the timeline “z_{8} = 2.5%”.
Algebraically we can say that: (1 + z_{6})^{6} x (1 + F)^{2} = (1 + z_{8})^{8}.
With a bit of effort, this solves as: F = [(1 + z_{8})^{8} ÷ (1 + z_{6})^{6}]^{0.5} – 1 = [1.025^{8} ÷ 1.02^{6}]^{0.5} – 1 = 4.01%.
Quartic banana method: just below the timeline you have drawn, write down how many bananas (or any other inanimate object) you have received if you get 2.5 per year for eight years. Answer: 20. Now write down, above the timeline, how many you get in the first six years, at 2 per year. Answer: 12. Now calculate how many bananas you must have got in the last two years. Answer: 20 – 12 = 8. This is over two years, hence 4 per year, answer C. Banana method gives 4.00%; accurate method gives 4.01%. Close enough!
Questions for CFA Level II:
4. Sudbury Industries expects FCFF in the coming year of 400 million Canadian dollars ($), and expects FCFF to grow forever at a rate of 3 percent. The company maintains an allequity capital structure, and Sudbury’s required rate of return on equity is 8 percent.
Sudbury Industries has 100 million outstanding common shares. Sudbury’s common shares are currently trading in the market for $80 per share.
Using the ConstantGrowth FCFF Valuation Model, Sudbury’s stock is:
A. Fairlyvalued.
B. Overvalued
C. UnderValued
ANSWER: Derek Burkett, VP, Advance Designations, Kaplan Professional 
"The correct answer is A.
Based on a free cash flow valuation model, Sudbury Industries shares appear to be fairly valued.
Since Sudbury is an allequity firm, WACC is the same as the required return on equity of 8%.
The firm value of Sudbury Industries is the present value of FCFF discounted by using WACC. Since FCFF should grow at a constant 3 percent rate, the result is:
Firm value = FCFF_{1} / WACC−g = 400 million / 0.08−0.03 = 400 million / 0.05 = $8,000 million
Since the firm has no debt, equity value is equal to the value of the firm. Dividing the $8,000 million equity value by the number of outstanding shares gives the estimated value per share:
V_{0} = $8,000 million / 100 million shares = $80.00 per share
5. Financial information from a company has just been published, including the following


Dividends and free cash flows will increase at a growth rate that steadily drops from 14% to 5% over the next four years, then will increase at 5% thereafter. The intrinsic value per share using dividendbased valuation techniques is closest to: 
A: $121
B: $127
C: 145
Answer: Quartic Financial training 
The Hmodel is frequently required in Level II item sets on dividend or free cash flow valuation.
The model itself can be written as V_{0} = D_{0} ÷ (r – g_{L}) x [(1 + g_{L}) + (H x (g_{S} – g_{L}))] where g_{S} and g_{L} are the shortterm and longterm growth rates respectively, and H is the “half life” of the drop in growth.
For this question, the calculation is: dividend D_{0} = $240m x 0.6 ÷ 20m = $7.20 per share.
V_{0} = $7.20 ÷ (0.12 – 0.05) x [1.05 + 2 x (0.14 – 0.05)] = $126.51, answer B.
However, there is a neat shortcut for remembering the formula. Sketch a graph of the growth rate against time: a line decreasing from shortterm g_{S} down to longterm g_{L} over 2H years, then horizontal at level g_{L}. Consider the area under the graph in two parts: the “constant growth” part, and the triangle.
If you look at the formula, the “constant growth” component uses the first part of the square bracket, i.e. D_{0} ÷ (r – g_{L}) x [(1 + g_{L}) …], which is your familiar D_{1} ÷ (r – g_{L}). For the triangle, what is its area? Half base x height = 0.5 x 2H x (g_{S} – g_{L}) = H x (g_{S} – g_{L}). This is the second part of the square bracket.
Hence the Hmodel can be rewritten as V_{0} = D_{0} ÷ (r – g_{L}) x [(1 + g_{L}) + triangle].
6. A share is trading at €35, with a 3% continuous dividend yield and 20% annualized volatility. A oneyear call option on this share has strike price €32. The continuous riskfree rate is 2%. Risk factors are: d1 = 0.498, N(d1) = 0.691, d2 = 0.298, N(d2) = 0.617. The value of the call option using the BlackScholesMerton model is closest to:
A: €1.51
B: €4.12
C: €4.55
Answer: Quartic Financial training 
Firstly, the basic calculation from the BlackScholesMerton model:
c = Se^{–}^{d}^{T}N(d_{1}) – Xe^{–rT}N(d_{2}) = 35 x e^{–0.03} x 0.691 – 32 x e^{–0.02} x 0.617 = 23.47 – 19.35 = €4.12, answer B.
Now let’s think about this model. BSM gets a bit of a bad press: calculations are relatively new in the curriculum (the learning outcomes used to focus on the assumptions) and the algebra is a little frightening.
However, we need to understand what is required, which is the toplevel call calculation, as shown. The risk factors are complex, both to calculate and to understand, but you are almost certainly not going to need these in your exam. Your curriculum provides little explanation and no examples, hence they are safe to put to one side.
You should appreciate how a call is equivalent to “underlying plus financing”, buying part of a share, Se^{–}^{d}^{T}N(d_{1}), and borrowing money, –Xe^{–rT}N(d_{2}). We can also think of the call as a contingent purchase, contingent of course on the call being inthemoney. The two parts can be explained separately:
7. The P&S 400 Index has a current value of 1200. It has a continuous dividend yield of 2% and the riskfree rate is 5% on a continuous basis.
The price of a ninemonth forward on the P&S 400 index is closest to:
A: 1173
B: 1227
C: 1237
Answer: Quartic Financial training 
The basic rule for pricing forward contracts is:
Forward price FP = spot plus cost of carry minus benefit of carry.
The cost of carry includes interest: hence for most contracts the spot is multiplied by (1 + R_{F})^{T} or e^{RcT}. Other contracts (e.g. commodities) may include storage and insurance. Benefits of carry include dividends (discrete or continuous), coupons, convenience yield (for commodities), or the foreign interest rate (for currency forwards).
In the case of an equity index forward, you may be able to do the entire calculation in your head.
In this question the spot price is 1200. The cost of carry is 5% and the benefit of carry is 2%. Never mind the continuous nature of these rates, for the moment. We can say that the net cost is 3% per year, or 2.25% for nine months. 2.25% of 1200 is 27, hence our estimate of the forward price is 1227, answer B.
If we do this accurately, we get:
FP = S_{0} x e^{(Rc  }^{dc)T} = 1200 x e^{(0.05 – 0.02) x 0.75 } = 1200 x e^{0.0225 } = 1227.31. Good guess!
Questions for CFA Level III:
7. A German portfolio manager entered a 3month forward contract with a U.S. bank to deliver $10,000,000 for euros at a forward rate of €0.8135/$. One month into the contract, the spot rate is €0.8170/$, the euro rate is 3.5%, and the U.S. rate is 4.0%. Determine the value and direction of any credit risk.
ANSWER: Derek Burkett, VP, Advance Designations, Kaplan Professional 
“The German manager (short position) has contracted with a U.S. bank to sell dollars at €0.8135, and the dollar has strengthened to €0.8170. The manager would be better off in the spot market than under the contract, so the bank faces the credit risk (the manager could default). From the perspective of the U.S. bank (the long position), the amount of the credit risk is:
Vbank (long) = €8,170,000 / (1.04)2/12 ˗ €8,135,000 / (1.035)2/12 = €28,278
(The positive sign indicates the bank faces the credit risk that the German manager might default.)”
8.
Exhibit 2
Current average bond price Expected average bond price in one year’s time (assuming no change in the yield curve)

€97.34 €97.82

Coupon frequency Average bond coupon payment Average bond convexity Average bond modified duration Expected average yield and yield spread change Expected credit losses Expected currency losses (€ depreciating against USD) 
Annual €2.60 20 4.10 0.35% 0.15% 0.60%

Using the information from Exhibit 2, calculate the total expected return on the bond portfolio assuming no reinvestment income.
Answer: Quartic Financial training 
The expected return on a bond consists several components. When answering the question, it is important to incorporate all elements of return in a logical manner. In this example, the elements of return come from:
Rolldown return in this example = (€97.82  €97.34)/ €97.34 = 0.49%
The expected change in price based on yield and yield spread change = [ MD × change in yield] + [0.5 × convexity × change in yiled^{2}] = [4.10 × 0.0035] + [0.5 × 20 × (0.0035)^{2}] × 100 = 1.42%.
Quartic tip: the change in yield is expressed as a decimal when doing the calculation thus 0.35% becomes 0.0035.
Note that since the question simply asked to calculate, the answer that you need to produce is set out below:
Yield income (€2.60/€97.34) Rolldown return (€97.82  €97.34)/ €97.34 Expected change in price based on yield and yield spread change [4.10 × 0.0035] + [0.5 × 20 × (0.0035)^{2}] Expected credit losses Expected currency losses 
2.67% 0.49%  1.42%
 0.15%  0.60% 
Total expected return 
0.99% 