SQL supports most aggregate functions except one fundamental aggregation to calculate product of values in a column. If you are wondering what could be a scenario where you may have to calculate product of values in a column, here is a business scenario that demands it.

**Business Scenario:** For the sake of brevity, let’s say we have a table that stores information related to Soccer matches to be played by Team A against a few other teams (say x, y, and z) and the respective probabilities of Team A winning the game as shown below:

Table Name: **Team_A_Matches**

OpponentTeam |
TeamAWinProbability |

Team X | 0.2 |

Team Y | 0.5 |

Team Z | 0.8 |

Here is the SQL to create the above table:

VALUES(‘Team X’, 0.2);

INSERT INTO Team_A_Matches(OpponentTeam, TeamAWinProbability)

VALUES(‘Team Y’, 0.5);

INSERT INTO Team_A_Matches(OpponentTeam, TeamAWinProbability)

VALUES(‘Team Z’, 0.8);

**Mathematical Translation of the Challenge:** The requirement now is to calculate the combined probability of Team A winning the matches arranged against all other teams. Here, you should be applying *multiplication rule of probability for independent events*, because the matches are arranged in a way that results of the matches are not dependent on one another. i.e., Probability of Team A winning all matches = Probability of Team A winning against (Team X ∩ Team Y ∩ Team Z) = Probability (Team A winning against Team X) * Probability (Team A winning against Team Y) * Probability (Team A winning against Team Z). This means you should be calculating product of values in the ‘TeamAWinProbability’ column of the table in our scenario.

**Solution: **Now for a moment just focus on calculating product of values in a column alone. Since, SQL doesn’t have a pre-defined aggregate function to calculate product of values in a column, you need to think of an alternate mathematical way of calculating product of values that can be translated into SQL.

Here is the fundamental concept of logarithms in math:

A fundamental equation that mathematically defines logarithms is:

The above fundamental equation of logarithms when translated into English: Logarithm of *a* to the base *b* is nothing but what is the number to which *b *is to be raised/exponentiated to get *a*; and the answer is *x*.

Another fundamental equation in logarithms is (

Product rules of Logarithms):

The above when translated into English: Logarithm of product of numbers is equal to the sum of logarithms of individual numbers.

From the above two equations, below equation is a valid one too:

Going by natural logarithms where a mathematical constant (aka Euler’s number) denoted by ‘e’ is the base of the natural logarithm, this equation translates to :

**SQL Translation of the Equation:** Note that SQL supports aggregate function named EXP that computes ‘e’ to the power of ‘x’, where x is a number of your choice. This function is also called natural exponentiation function.

SQL also has a function named LOG that calculates natural logarithm of a given number. Oracle supports this same function with the name LN.

Using these two functions, the SQL transalation of this equation becomes: **EXP(SUM(LOG(TeamAWinProbability)))**

Oracle’s SQL version: **EXP(SUM(LN(TeamAWinProbability)))**

So, the below SQL gives the combined probability of Team A winning against Team X, Team Y and Team Z:

SELECT Round(EXP(SUM(LOG(TeamAWinProbability))),2) AS TeamAWinProbAgainstXYZ

FROM Matches;

and the result of this SQL for this scenario will be .08 (which is same as the result of 0.2*0.5*0.8)

*So, the learning is –*

*w**hen you need to calculate product of values in a column in SQL, simply calculate natural exponentiation of sum of natural logarithms of the values in the column.*

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Happy learning and engage me for any advanced SQL analytics trainings in your organizations.