# Superkey, candidate key & primary key

Can any kind soul clarify my doubts with a simple example below and identify the superkey, candidate key and primary key?

I know there are a lot of posts and websites out there explaining the differences between them. But it looks like all are generic definitions.

Example:

``````Student (StudentNumber, FamilyName, Degree, Major, Grade, PhoneNumber)
``````

So from the above example, I can know `StudentNumber` is a primary key.

But as for superkey, I'm a bit confused what combination of attributes could be grouped into the superkey?

As for candidate key, I'm confused by the definition given as any candidate key can qualify as a primary key.

Does it mean that attributes such as `PhoneNumber` are a candidate key and can be a primary key? (Assuming that a `PhoneNumber` only belongs to one student)

Thanks for any clarification!

• In the Relational Model, we have Primary Key and Alternate Key, and that is all that is needed. There is no such thing as superkey or candidate key. Those are inventions of people who complicate and thus destroy Relational theory. – PerformanceDBA May 30 '15 at 12:02

Since you don't want textbook definitions, loosely speaking, a super key is a set of columns that uniquely defines a row.

This set can have one or more elements, and there can be more than one super key for a table. You usually do this through functional dependencies.

``````StudentNumber    unique
FamilyName     not unique
Degree     not unique
Major      not unique
PhoneNumber    not unique
``````

In this case, a superkey is any combination that contains the student number.

So the following are superkeys

``````StudentNumber
StudentNumber, FamilyName
StudentNumber, FamilyName, Degree
StudentNumber, FamilyName, Degree, Major
StudentNumber, FamilyName, Degree, Major, Grade, PhoneNumber
StudentNumber, Degree
StudentNumber, Degree, Major
StudentNumber, Major
StudentNumber, PhoneNumber
``````

Now assume, if PhoneNumber is unique (who shares phones these days), then the following are also superkeys (in addition to what I've listed above).

``````PhoneNumber
PhoneNumber, Major
PhoneNumber, Degree, Major
PhoneNumber, FamilyName, Degree, Major
PhoneNumber, StudentNumber, FamilyName, Degree, Major
PhoneNumber, Degree
PhoneNumber, FamilyName, Degree
PhoneNumber, StudentNumber, FamilyName, Degree
PhoneNumber, FamilyName
PhoneNumber, StudentNumber, FamilyName
``````

A candidate key is simply the "shortest" superkey. Going back to the 1st list of superkeys (i.e. phone number isn't unique), the shortest superkey is StudentNumber.

The primary key is usually just the candidate key.

• one question, so if phonenumber is unique, it can be counted as candidate key right ? For any attributes that are unique can be counted as candidate key? Thanks – JLearner Dec 1 '11 at 6:41
• yes, in that case, there are two superkeys composed of only one element: {phone number} and {student number}, and either could be the candidate key. – Cambium Dec 1 '11 at 6:50
• Thanks! You have done a great help to me! – JLearner Dec 1 '11 at 6:51
• A CK is not "the" "shortest" superkey. It is a superkey that contains no smaller superkey. There can be more than one. The CKs can have different numbers of attributes.. – philipxy May 26 '15 at 4:43
• So, we are considering the minimal superkey (that is unique) as the candidate key, right ? Does that mean a table can't have more than one candidate key @Cambium – Abrar Feb 2 '16 at 21:00

A superkey is any set of attributes for which the values are guaranteed to be unique for all possible sets of tuples in a table at all times.

A candidate key is a "minimal" superkey - meaning the smallest subset of superkey attributes which are unique. Removing any attribute from a candidate key would therefore make it non-unique.

A primary key is just a candidate key. There is no difference between a primary key and any other candidate key.

It's not really useful to make assumptions about keys based only on a list of attribute names. You need to know what dependencies are supposed to hold between the attributes. Having said that, my guess is that you are right - StudentNumber is likely a candidate key in your example.

Stretching Cambium's answer, if the `PhoneNumber` is also unique along with `StudentNumber` then `candidate keys` would be:- `{StudentNumber}`,`{PhoneNumber}`.
Here we can't assume `{StudentNumber,PhoneNumber}` as a single `candidate key` because if we omit one attribute say `StudentNumber` we still get a unique attribute`{PhoneNumber}` thus, violating the definition of `candidate key`.

`Primary key:` Choose one `candidate key` out of all `candidate keys`. There are 2 `candidate keys` so we can choose `{StudentNumber}` as `primary key`.
`Alternate keys:` leftover `candidate keys`, after choosing `primary key` from `candidate keys`, are alternate keys i.e. `{PhoneNumber}`.

`compound key:` a compound key is a key that consists of two or more attributes that uniquely identify an entity occurrence. A simple key is one that has only one attribute. Compound keys may be composed of other unique simple keys and non-key attributes, but may not include another compound key.

`composite key:` A composite key contains at least one compound key and one more attribute. Composite keys may also include simple keys and non-key attributes.