Volume 1 - Quantitative Methods

Question 1

What are the 3 possible interpretations for a interest rate ?

Answer 1

An interest rate, r, can have three interpretations: (1) a required rate of return, (2) a discount rate, or (3) an opportunity cost. An interest rate reflects the relationship between differently dated cash flows.

Question 2

An interest rate can be viewed as the sum of the real risk-free interest rate and a set of premiums that compensate lenders for bearing distinct types of risk: an inflation premium, a default risk premium, a liquidity premium, and a maturity premium.

Answer 2

r = Real risk-free interest rate + Inflation premium + Default risk premium +
Liquidity premium + Maturity premium.

Question 3

What is A money-weighted return ?

Answer 3

A money-weighted return reflects the actual return earned on an investment after accounting for the value and timing of cash flows relating to the investment.

Question 4

What is A time-weighted return ?

Answer 4

A time-weighted return measures the compound rate of growth of one unit of currency invested in a portfolio during a stated measurement period. Unlike a money-weighted return, a time-weighted return is not sensitive to the timing and amount of cashflows and is the preferred
performance measure for evaluating portfolio managers because cash
withdrawals or additions to the portfolio are generally outside of the control of the portfolio manager.

Question 5

Gross return, return prior to deduction of managerial and administrative expenses (those expenses not directly related to return generation), is an appropriate measure to evaluate the comparative performance of an asset manager.

Answer 5

Net return, which is equal to the gross return less managerial and administrative expenses, is a better return measure of what an investor actually earned.

Question 6

Annualizing periodic returns allows investors to compare differnt investments across different holding periods to better evaluate and compare their relative performance. With the number of compounding periods per year approaching infinity, the interest is compound continuously.

Question 7

Real returns are particularly useful in comparing returns across time periods because inflation rates may vary over time and are particularly useful for comparing investments across time periods and performance between different asset classes with different taxation.

Question 8

If USD 9,500 today and USD 10,000 in one year are equivalent in value, then USD 10,000 – USD 9,500 = USD 500 is the required compensation for receiving USD 10,000 in one year rather than now. The interest rate (i.e., the required compensation stated as a rate of return) is USD 500/USD 9,500 = 0.0526 or 5.26 percent.

Answer 8

An opportunity cost is the value that investors forgo by choosing a course of action. In the example, if the party who supplied USD 9,500 had instead decided to spend it today, he would have forgone earning 5.26 percent by consuming rather
than saving. So, we can view 5.26 percent as the opportunity cost of current
consumption.

Question 9

What is The real risk-free interest rate ?

Answer 9

The real risk-free interest rate is the single-period interest rate for a completely risk-free security IF NO inflation were expected. In economic theory, the real risk-free rate reflects the time preferences of individuals for current versus future real consumption.

Question 10

The sum of the real risk-free interest rate and the inflation premium is the nominal
risk-free interest rate

Answer 10

The nominal risk-free interest rate reflects the combination of a real risk-free rate plus an inflation premium:

(1 + nominal risk-free rate) = (1 + real risk-free rate)(1 + inflation premium)

In practice, however, the nominal rate is often approximated as the sum of the
real risk-free rate plus an inflation premium:

Nominal risk-free rate = Real risk-free rate + inflation premium.

Question 11

Typically, interest rates are quoted in annual terms, so the interest rate on a 90-day government debt security quoted at 3 percent is the annualized rate and not the actual interest rate earned over the 90-day period.

Question 12

Whether the interest rate we use is a required rate of return, or a discount rate,
or an opportunity cost, the rate encompasses the real risk-free rate and a set of risk premia that depend on the characteristics of the cash flows. All these premia vary over time and continuously change, as does the real risk-free rate. Consequently, all interest rates fluctuate, but how much they change depends on various economic fundamentals—and on the expectation of how these various economic fundamentals can change in the future.

Question 13

The arithmetic mean return assumes that the amount invested at the beginning of each period is the same. In an investment portfolio, however, even if there are no cash flows into or out of the portfolio the base amount changes each year. The previous year’s earnings must be added to the beginning value of the subsequent year’s investment— these earnings will be “compounded” by the returns earned in that subsequent year. We can use the geometric mean return to account for the compounding of returns.

Answer 13

In general, the arithmetic return is biased upward unless each of the underlying
holding period returns are equal. The bias in arithmetic mean returns is particularly
severe if holding period returns are a mix of both positive and negative returns.

Question 14

For reporting historical returns, the geometric mean has considerable appeal
because it is the rate of growth or return we would have to earn each year to match
the actual, cumulative investment performance.

Answer 14

The arithmetic mean is always greater than or equal to the geometric mean.

If we want to estimate the average return over a one-period horizon = we should use arithmetic, because it is the average of one-period returns.

If we want to estimate the average returns over more than one period = geometric, because the geometric mean captures how the total returns are linked over time.

Question 15

The harmonic mean : sample of observations of 1, 2, 3, 4, 5, 6, and 1,000, the harmonic mean is 2.8560.
Compared to the arithmetic mean of 145.8571, we see the influence of the outlier (the 1,000) to be much less than in the case of the arithmetic mean. So, the harmonic mean is quite useful as a measure of central tendency in the presence of outliers.

Question 16

Unless all the observations in a dataset are the same value, the harmonic mean is always less than the geometric mean, which, in turn, is always less than the arithmetic mean.

Question 17

What is the trimmed mean ?

Answer 17

Both the trimmed and the winsorized means seek to minimize the impact of outliers in a dataset. Specifically, the trimmed mean removes a small defined percentage of the largest and smallest values from a dataset containing our observation before calculating the mean by averaging the remaining observations.

Question 18

What is the winsorized mean ?

Answer 18

A winsorized mean replaces the extreme observations in a dataset to limit the
effect of the outliers on the calculations. The winsorized mean is calculated after
replacing extreme values at both ends with the values of their nearest observations,
and then calculating the mean by averaging the remaining observations.

Question 19

Which mean to use in what circumstances?

Answer 19

The choice of which mean to use depends on many factors, as we describe in Exhibit 8:

■ Are there outliers that we want to include?
■ Is the distribution symmetric?
■ Is there compounding?
■ Are there extreme outliers?

Question 20

What is the money-weighted return ?

Answer 20

The money-weighted return accounts for the money invested and provides the
investor with information on the actual return she earns on her investment. y. Amounts invested are cash outflows from the investor’s perspective and amounts returned or withdrawn by the investor, or the money that remains at the end of an investment cycle, is a cash inflow for the investor.

Question 21

What is The internal rate of return ?

Answer 21

The internal rate of return is the discount rate at which the sum of present values
of cash flows will equal zero.

Question 22

What are the 2 categories of Data and the 4 sub-categories?

Answer 22

1- Categorical: values that describe a quality or characteristic (must be mutually exclusive)
(N) Numerical: No logical order (Ex: Sectors of economy)
(O) Ordinal: has a logical order (no info about the distance between groups)

2- Numerical : Measured or counted quantities

(I) Integer/Discrete : Limited to a finite number of values
(R) Ratio/Continous : Can take any value within a range

Question 23

What is Cross-sectional , Time-series and Panel Data ?

Answer 23

1- Cross-sectional : Multiple observations of a particular variable (stock prices of 60 companies)

2- Time-series : Multiple observations of a particular variable for the same observational unit over time (GM stock price in the last 5 days)

3- Panel Data : Cross-sectional + Time-series

Question 24

What is structured and unstructured Data ?

Answer 24

1- Structured : Highly organized in a pre-defined manner

2- Unstructured Data : No organized form (social media, news) –> Also called alternative Data

In order to analyse Data, it must be transformed into structured data

Question 25

For numerical data, how can we determine the interval width ?

Answer 25

Range (max - min) / K

K: number of intervals –> too few or too much can bring problems ; loss of info or too much noise

Question 26

What are the uses of arithmetic mean and what to do if there’s a problem ?

Answer 26

The arithmetic mean can be usefull to explain the return for 1 year of an Index.

Cross-sectional mean : Average sales of 50 companies

Time-series mean : Average sales for the last 10 yrs for GM

This mean is susceptible to outliers: We can do nothing if they are legitimate and contain meaningful information
Or:
Delete the outliers by doing a trimmed mean. Excluding a small % of the lowest and highest values (Ex: 5% –> 2.5% highest and 2.5% lowest)
Or:
Replace the 2.5% by the value at which all others lie above –> the 96th observation 88 so 2.5% also become 88.

Question 27

What are the different types of mode list ?

Answer 27

unimodal: only 1 value that is most frequent
bi-modial: two values have the highest frequency
….
Or no mode –> Uniform distribution

Question 28

What is the main use for the Geometric mean ?

Answer 28

It is used to interpret the growth rate. Ex: The rate that makes your investement grow form initial enter into now.
Also referred to as compounded returns

Question 29

What is the use of the harmonic mean ?

Answer 29

It is appropriate for averaging ratios when the ratios are repeatedly applied to a fixed quantity to yield a variable number of units.

Ex: Dollar cost averaging

Question 30

What is dispersion ?

Answer 30

The variability around the central tendency

Question 31

Two investors in the same mutual fund could have different money-weighted returns depending on the amount and timing of their contributions. A fund manager’s performance should only be judged on the basis of his or her decisions and actions. The money-weighted return can be skewed by the timing and amount of cash flows into and out of a fund, making it an inappropriate metric for assessing the performance of a manager who has no control over these.

Answer 31

Because TWR is unaffected by the timing and amount of cash flows, it is appropriate for assessing managers who do not control external cash flows, such as a mutual fund that is regularly receiving new contributions and making payouts to meet redemptions.

Question 32

For an interest rate that compounds
times annually, the formulas for the future value and present value of an investment are:

Answer 32

FVn = PV(1+rs/m)** mn
PV = FVn (1+rs/m)** -mn

Question 33

If we assume a 365-day year, the annualized return for an investment that generates a 0.6% return over 8 days is:

(1 + 0.006)** 365/8 - 1 = 31.4%

Answer 33

This example illustrates one of the limitations of annualizing returns, which is that the calculations are based on the assumption that short-term performance could be repeated over a longer period.

Question 34

It is also possible to annualize returns that have been generated over holding periods of longer than one year. In these case, the number of periods per year, c, becomes a fraction. For example, if an investment earns a 17.8% return over two years, it’s annualized return is:

( 1 + 0.178) ** 1/2 - 1 = 8.53%

Question 35

Gross returns are calculated on a pre-tax basis; trading expenses are accounted for in the computation of gross returns as they contribute directly to the returns earned by the manager.

Question 36

The Time Value of Money in Finance

Answer 36

calculate and interpret the present value (PV) of fixed-income and equity instruments based on expected future cash flows

calculate and interpret the implied return of fixed-income instruments and required return and implied growth of equity instruments given the present value (PV) and cash flows

explain the cash flow additivity principle, its importance for the no-arbitrage condition, and its use in calculating implied forward interest rates, forward exchange rates, and option values

Question 37

There are three basic categories of fixed-income instruments depending on how their cash flows are structured — discount instruments, coupon instruments, and annuity instruments.

Answer 37

1- Discount instruments (zero-coupons) have a very simple structure. One amount PV is borrowed today and a larger amount FV is repaid when the loan matures.

2- With coupon instruments, a principal amount PV is borrowed today and the same amount FV is repaid at maturity, but the borrower compensates that lender with periodic interest payments PMT at regular intervals during the term of the loan.

3- An annuity instrument is structured as a specified number of level cash flows. A common example of an annuity is a fixed-rate mortgage. Like a coupon instrument, the borrower makes payments at regular intervals to retire the debt.

Question 38

A perpetual bond, also known as a perpetuity, is a special type of coupon instrument that makes fixed payments at regular intervals but never matures. The present value of an instrument that provides a perpetual stream of level payments is calculated as follows:

PV = PMT/r

Question 39

Statistical Measures of Asset Returns

Answer 39

calculate, interpret, and evaluate measures of central tendency and location to address an investment problem

calculate, interpret, and evaluate measures of dispersion to address an investment problem

interpret and evaluate measures of skewness and kurtosis to address an investment problem

interpret correlation between two variables to address an investment problem

Question 40

The mode is the most frequently occurring value in a distribution. Some distributions have more than one mode, while others have none. A distribution with just one mode is unimodal, with two modes is bimodal, and so on.

Answer 40

Data grouped in intervals have modal intervals. This is the highest bar in a histogram.

Question 41

There are three ways to deal with outliers:

1- No adjustments : This is appropriate if all values are equally important and meaningful.

2- Remove all outliers : A trimmed mean is calculated by discarding a certain percentage of the highest and lowest values. For example, with a sample of 100 observations, a 2% trimmed mean would be the arithmetic mean without the highest value (top 1%) and the lowest value (bottom 1%).

3- Replace outliers with another value : A winsorized mean adjusts any outliers’ values to either an upper or lower limit. No observations are excluded from the calculation.

Question 42

If we arrange the observations in ascending order, then the quantile is a value at or below which a stated fraction of the data is found.

Answer 42

There are many common quantiles used in practice. Distributions are often divided into four quartiles, five quintiles, ten deciles, or one hundred percentiles.

For example, the 90th percentile score (P90) on an exam is the number that separates the top 10% scores from the bottom 90%.

Question 43

The interquartile range (IQR) is the difference between the third quartile and the first quartile.

Question 44

The most common measures of absolute dispersion are range, mean absolute deviation, variance, and standard deviation.

Answer 44

The range is the difference between the maximum and minimum values

Question 45

The mean of the deviations around the mean will always be zero. Therefore, it would not be a useful measure of dispersion. The mean absolute deviation (MAD) adjusts for this.

Question 46

Variance is the average of the squared deviations around the mean, while standard deviation is the positive square root of the variance.

Question 47

Downside Deviation :

Variance and standard deviation take into account returns above and below the mean. But investors care for downside risk.

Answer 47

Target semideviation, or target downside deviation, captures dispersion of observations below a specified target value (e.g., 10%).

Question 48

Coefficient of Variation :

The coefficient of variation (CV) is a relative dispersion measure. It allows comparisons between data sets with very different means. CV is the ratio of the standard deviation, S, to the mean, X.

Answer 48

Mean has to be positive.

No units of measurement

Question 49

Skewness :

A positively skewed distribution (long right tail) has frequent small losses and a few extreme gains. The mode is less than the median, which is less than the mean.

Answer 49

A negatively skewed distribution (long left tail) has frequent small gains and a few extreme losses. The mean is less than the median, which is less than the mode.

!! Investors should be concerned if returns have this distribution.

Question 50

Kurtosis :

Kurtosis measures if a return is more or less peaked than a normal distribution. A normal distribution has a kurtosis value of 3.

Answer 50

(L) : Leptokurtic ( greater than 3, Fat Tails) –> Meaning that extreme returns are more common

(M) : Mesokurtic (normal distribution)

(P) : Platykurtic ( less than 3, Thin Tails)

Question 51

Excess kurtosis equals kurtosis minus 3. This measures kurtosis relative to the kurtosis of a normal distribution.

Question 52

The excess kurtosis (0.15) is positive, indicating that the distribution is “fat-tailed”; therefore, there is more probability in the tails of the distribution relative to the normal distribution.

Question 53

The correlation metric quantifies the linear relationship between two variables.

Question 54

Properties of Correlation :

1- The correlation coefficient is bounded by -1 and +1.

2- A correlation of 0 indicates that there is no linear relationship between the two variables.

3- A positive correlation coefficient (i.e., rxy > 0) indicates a positive linear relationship between the variables. In other words, an increase in X is associated with an increase in Y. When rx = 1, the variables have a perfect positive linear relationship.

4- A negative correlation coefficient (i.e., rxy < 0) indicates a negative linear relationship between the variables. In other words, an increase in X is associated with an decrase in Y. When rx = -1, the variables have a perfect inverse linear relationship or perfect negative linear relationship.

Question 55

Limitations of Correlation Analysis :

1- The correlation coefficient is not a reliable measure when the variables have a nonlinear relationship.

2- The correlation coefficient is very sensitive to outliers.

3- Correlation does not imply causation.

4- The conclusions may not be valid. A spurious correlation refers to:

• The correlation between two variables that reflects chance relationships (i.e., just a coincidence)
• The correlation produced by a calculation that mixes the two variables with a common third variable
• The correlation between two variables that arises due to their relation to a third variable (although the two variables are not correlated)

5- Correlation may not produce a full picture of the data. (Same correlation but different relationship)

Question 56

The correlation coefficient only measures the degree of linear association between two variables. It does not explain the amount each variable changes.

Answer 56

A correlation coefficient can only be between –1 and +1, but covariance is not subject to the same constraint.

Question 57

Probability Trees and Conditional Expectations

Answer 57

calculate expected values, variances, and standard deviations and demonstrate their application to investment problems

formulate an investment problem as a probability tree and explain the use of conditional expectations in investment application

calculate and interpret an updated probability in an investment setting using Bayes’ formula

Question 57

Forecasts of a random variable are often based on an expected value, which is the probability-weighted average of its possible outcomes.

Question 58

The variance of a random variable is the probability-weighted average of the squared deviations from its expected value.

Answer 58

A random variable’s variance must be greater than zero because, if there is no dispersion of outcomes, the expected value is known with certainty and the variable is not random.

Question 59

The probabilities that are used as the basis for forecasts are rarely static. Analysts are continually updating their unconditional (marginal) probabilities to reflect the latest information. This type of forecasting produces conditional expected values.

Answer 59

The conditional expected value of X given that scenario S occurs is expressed as
E( X|S ).

Question 60

The total probability rule for expected value : states that the unconditional expected value is equal to the probability-weighted average of the conditional expected values.

Question 61

Bayes’ formula is a rational way to adjust viewpoints based on new information. It is based on the total probability rule.

Answer 61

Prior probabilities represent the probabilities before the arrival of any new information. The posterior probability reflects the new information.

Question 62

Bayes Formula :

P (Event | Info) = ( P (Info| Event) /
(Event | Info) ) * P (Event)

Question 63

Portfolio Mathematics

Answer 63

calculate and interpret the expected value, variance, standard deviation, covariances, and correlations of portfolio returns

calculate and interpret the covariance and correlation of portfolio returns using a joint probability function for returns

define shortfall risk, calculate the safety-first ratio, and identify an optimal portfolio using Roy’s safety-first criterion

Question 64

Investment opportunities should be evaluated in the context of how they impact the tradeoff between a portfolio’s expected return and the level of portfolio risk, as measured by variance.

Question 65

Covariance measures the tendency for two variables to move in sync.

Answer 65

Covariance is positive if, when one asset is generating above-average returns, the other asset is as well. Both assets will also tend to generate returns below their respective averages in the same periods.

Covariance is negative if one asset is generating above-average returns while the other’s returns are below its average (or vice versa).

The covariance of an asset’s returns with itself (own covariance) is equal to its variance.

Question 66

If there are n securities in a portfolio, there are n (n-1) / 2 covariances to estimate

Question 67

A zero correlation only tells us that there is no linear relationship, but it doesn’t tell us anything about the possibility of a non-linear relationship.

Question 68

Random variables are independent if, and only if, P (XY) = P(X) * P(Y). If two random variables are independent, they must also be uncorrelated. By contrast, knowing that variables are uncorrelated does not allow us to conclude that they are independent.

Question 69

If two random variables are uncorrelated, then the multiplication rule for the expected value of the product of uncorrelated random variables tells us that E(XY) = E(X) * E(Y). If we cannot assume that the variables are uncorrelated, we must calculate a conditional expected value.

Question 70

Safety-first rules are designed to address shortfall risk, which is the possibility that portfolio returns will fail to meet a specified threshold.

Answer 70

The safety-first ratio can be used in a portfolio context to account for correlations between returns on individual assets.

Question 71

Mean-variance analysis considers risk symmetrically by relying on a measure of dispersion (standard deviation) that captures the volatility of returns both above and below the mean. By contrast, the safety-first ratio is only concerned about the risk that returns will fall below a minimum acceptable level.

Question 72

Simulation Methods

Answer 72

explain the relationship between normal and lognormal distributions and why the lognormal distribution is used to model asset prices when using continuously compounded asset returns

describe Monte Carlo simulation and explain how it can be used in investment applications

describe the use of bootstrap resampling in conducting a simulation based on observed data in investment applications

Question 73

Unlike a symmetric normal distribution, a lognormal distribution is bounded by zero on the left, which creates a long right tail (i.e., positive skew). This feature make it a useful distributional assumption for asset prices, which are often not normally distributed and cannot fall below zero.

Answer 73

By definition, lognormal random variables cannot have negative values.

Question 74

If a random variable Y follows a lognormal distribution, then ln(Y) is normally distributed. Conversely, if we know that ln(Y) is normally distributed, it must be true that the distribution of Y is lognormal.

Question 75

Continuously Compounded Rates of Return :

An asset’s continuously compounded return can be calculated :

r0,T = ln(ST/S0)

Answer 75

Difference between inital price and end of investment horizon

Question 76

As noted, if an asset’s continuously compounded return is normally distributed, then its price is lognormally distributed. In fact, the future price may be lognormally distributed even if the returns are not normally distributed.

Question 77

Monte Carlo simulation is particularly useful for valuing European-style options and it is often used to value complex financial instruments, such as mortgage-backed securities. This method can also be used in cases when there are no applicable analytical models.

Answer 77

For example, there is no option pricing model for Asian-style options, which make payoffs based on the difference between the strike price and the average price of the underlying asset over a specific period.

Question 78

The following steps provide a general overview of the Monte Carlo simulation:

1- Specify the quantities of interest in terms of underlying variables.

2- Split the time horizon into subperiods.

3- Specify the method for generating the data used in the simulation.

4- Use a computer program to draw K
random values of each risk factor and produce a value for the variable of interest.

5- Calculate the average value of the variable of interest.

6- Repeat Steps 4 and 5 for N
trials. The Monte Carlo estimate is the mean quantity of interest over the N
trials.

Question 79

Bootstrapping :

Resampling is the process of repeatedly drawing samples from a larger pool of sample data in order to make statistical inferences about the population parameters. One of the most commonly-used methods, known as bootstrap resampling relies on computer simulation rather than analytical tests, such as the t-test or z-test.

Answer 79

The main drawback of this technique is that it produces only statistical estimates, while analytical methods provide exact results and insights into cause-and-effect relationships. In practice, bootstrap resampling is often used as a complement to analytical methods.

Question 80

Monte Carlo simulation can only provide statistical estimates, not precise valuations. And, unlike analytical methods, Monte Carlo simulation does not provide insight into the causal relationships between variables.

However, Monte Carlo simulation can be used to value many types of options that cannot be priced with analytical methods (e.g., Asian call options).

Question 81

Bootstrapping through random sampling generates the observed variable from a random sampling with unknown population parameters. The analyst does not know the true population distribution, but through sampling can infer the population parameters from the randomly generated sample.

Answer 81

Analysts performing bootstrap: seek to create statistical inferences of population parameters from a single sample.

Question 82

Estimation and Inference

Answer 82

compare and contrast simple random, stratified random, cluster, convenience, and judgmental sampling and their implications for sampling error in an investment problem

explain the central limit theorem and its importance for the distribution and standard error of the sample mean

describe the use of resampling (bootstrap, jackknife) to estimate the sampling distribution of a statistic