The geometric mean—sometimes called compounded annual growth rate or time-weig♋hted rate of return—is the average rate of return of a set of values, calculated using the products of the terms. 

What does that mean? The geometric mean takes several values, multiplies them, and sets them to the 1/nth power, with n representing the number of values. The geometric mean is an important tool for calculating portfolio performance for many reasons, butꦜ one of the most significant is that it considers the effects of compounding.

Geometric vs. Arithmetic Mean Return

The arithmetic mean is commonly used in many facets of everyday life, and it is easily understood and calculated. The arithmetic mean is achieved by adding all values and dividing by the number of values (n). For example, finding the arithmetic mean of the following set of numbers: 3, 5, 8,-1, and 10 is achieved by adding all the numbers and 𒐪dividing by the quantity of numbers:

3 + 5 + 8 -1 + 10 = 25/5 = 5

This is easily accomplished using simple math, but the 澳洲幸运5官方开奖结果体彩网:average return fails to consider 澳洲幸运5官方开奖结果体彩网:compounding. Conversely, if the geometric mean is used, the av⛎erage considers the impact of compounding, providing a more accurate result.

Example 1

An invest♔or invests $100🐷 and receives the following returns:

• Year 1: 3%  
• Year 2: 5%
• Year 3: 8%
• Year 4: -1%
• Year 5: 10%

澳洲幸运5官方开奖结果体彩网: The $100 grew each𝕴 year as followsꦡ:

• Year 1: $100 x 1.03 = $103.00
• Year 2: $103 x 1.05 = $108.15
• Year 3: $108.15 x 1.08 = $116.80
• Year 4: $116.80 x 0.99 = $115.63
• Year 5: $115.63 x 1.10 = $127.20

澳洲幸运5官方开奖结果体彩网: The geometric mean is:

[ ( 1.03 * 1.05 * 1.08 * .99 * 1.10 ) ^{(1/5 or .2)} ] - 1 = 4.93%. 

The averageꦜ annual rཧeturn is 4.93%, slightly less than the 5% computed using the arithmetic mean.

Example 2

An investor holds a stock that has been v💖olatile, with♑ returns that varied significantly from year to year. His initial investment was $100 in stock A, and it returned the following:

• Year 1: 10%
• Year 2: 150%
• Year 3: -30%
• Year 4: 10%

In this example, the arithmetic mean would be 35% [(10+150-30+10)/4].

澳洲幸运5官方开奖结果体彩网: However, the true re✨turn is 🧜as follows:

• Year 1: $100 x 1.10 = $110.00
• Year 2: $110 x 2.5 = $275.00
• Year 3: $275 x 0.7 = $192.50
• Year 4: $192.50 x 1.10 = $211.75

The resulting geometric mean, or a compounded annual growth rate (CAGR), is 20🧸.6%, much lower than the 35% calculated using the arithmetic mean.

Li💯mitations of Using the Geometric Mean in Ana💧lysis

One problem with using the arithmetic mean, even to esti🧸mate the average return, is that the arithmetic mean tends to overstate the actual average return by a greater and greater amount the more the inputs vary. In Example 2, the returns increased by 10% in year one, 150% in year two an൲d then decreased by 30% in year 3. This is an increase of 130% from the original investment.

However, if the return🍒s are close together, then the arithmetic mean could be a quick way to estimate the returns, especially if the portfolio is relatively new. But the longer the portfolio is held, the highe𝓰r the chance the arithmetic mean will overstate the actual average return.

Special Considerations

When reviewing the annual performance returnꦗs provided by a professionally managed brokerage account or calculating the performance to a self-managed account, you should be aware of several considerations.

First, if the returns do not vary much from year to year, then the arithmetic mean can be used as a quick and dirty estimate of the actual 澳洲幸运5官方开奖结果体彩网:average annual return. Second, if the returns vary greatly each year, then the arithmetic average will overstate 𓂃the actual average annual return by a large amount.

Third, when performing the calculations, if there is a 澳洲幸运5官方开奖结果体彩网:negative return make sure to subtract the return rate from 1, which will result in a number less than 1. Last, before accepting any performance data as accurate and true, be critical and check that the average annual return data presented is calculated using the geometric average and not the arithmetic average, since the arithmetic average will always be equal to or higher than the geometric average.

The Bottom Line

Measuring 澳洲幸运5官方开奖结果体彩网:portfolio returns is the key metric in making buy/sell decisions. Using the appropriate measurement tool is critical to ascertaining the correct portfolio metrics. The arithmetic mean is easy to use, quick to calculate, and useful when finding🌊 the average for many things.

However, it is an inappropriate metric to determine an investment's actual average return because compounding is not considered. The geometric mean is a more difficult metric to determine, but it is much more 澳洲幸运5官方开奖结果体彩网🅘:useful for measuring portfolio performance.