Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

What are the differences between a super key and a candidate key? I have already referred to wiki,dotnet spider and also Database Concepts 4th edition book. But I am unable to understand the concept. Can anyone please explain it with proper example?

share|improve this question
up vote 33 down vote accepted

Candidate key is a super key from which you cannot remove any fields.

For instance, a software release can be identified either by major/minor version, or by the build date (we assume nightly builds).

Storing date in three fields is not a good idea of course, but let's pretend it is for demonstration purposes:

year  month date  major  minor
2008  01    13     0      1
2008  04    23     0      2
2009  11    05     1      0
2010  04    05     1      1

So (year, major, minor) or (year, month, date, major) are super keys (since they are unique) but not candidate keys, since you can remove year or major and the remaining tuple will still be a super key.

(year, month, date) and (major, minor) are candidate keys, since you cannot remove any of the fields from them without breaking uniqueness.

share|improve this answer
Anyone storing a DATE in parts deserves...well, it isn't a good idea. – Jonathan Leffler Dec 23 '10 at 15:17
@Quassnoi: What if you remove date from superkey (year, month, date). The key would still be unique. There (year, month, date) is not a candidate key ? – Patryk Jan 24 '13 at 20:11
@Patryk: Please re-read: we assume nightly builds. – Quassnoi Jan 24 '13 at 20:25

A super key is any combination of columns that uniquely identifies a row in a table. A candidate key is a super key which cannot have any columns removed from it without losing the unique identification property. This property is sometimes known as minimality or (better) irreducibility.

A super key ≠ a primary key in general. The primary key is simply a candidate key chosen to be the main key. However, in dependency theory, candidate keys are important and the primary key is not more important than any of the other candidate keys. Non-primary candidate keys are also known as alternative keys.

Consider this table of Elements:

    atomic_number   INTEGER NOT NULL PRIMARY KEY
                    CHECK (atomic_number > 0 AND atomic_number < 120),
    symbol          CHAR(3) NOT NULL UNIQUE,
    name            CHAR(20) NOT NULL UNIQUE,
    atomic_weight   DECIMAL(8,4) NOT NULL,
    period          SMALLINT NOT NULL
                    CHECK (period BETWEEN 1 AND 7),
    group           CHAR(2) NOT NULL
                    -- 'L' for Lanthanoids, 'A' for Actinoids
                    CHECK (group IN ('1', '2', 'L', 'A', '3', '4', '5', '6',
                                     '7', '8', '9', '10', '11', '12', '13',
                                     '14', '15', '16', '17', '18')),
    stable          CHAR(1) DEFAULT 'Y' NOT NULL
                    CHECK (stable IN ('Y', 'N'))

It has three unique identifiers - atomic number, element name, and symbol. Each of these, therefore, is a candidate key. Further, unless you are dealing with a table that can only ever hold one row of data (in which case the empty set (of columns) is a candidate key), you cannot have a smaller-than-one-column candidate key, so the candidate keys are irreducible.

Consider a key made up of { atomic number, element name, symbol }. If you supply a consistent set of values for these three fields (say { 6, Carbon, C }), then you uniquely identify the entry for an element - Carbon. However, this is very much a super key that is not a candidate key because it is not irreducible; you can eliminate any two of the three fields without losing the unique identification property.

As another example, consider a key made up of { atomic number, period, group }. Again, this is a unique identifier for a row; { 6, 2, 14 } identifies Carbon (again). If it were not for the Lanthanoids and Actinoids, then the combination of { period, group } would be unique, but because of them, it is not. However, as before, atomic number on its own is sufficient to uniquely identify an element, so this is a super key and not a candidate key.

share|improve this answer
Very nice explanation – Mikayil Abdullayev Feb 12 '13 at 19:05

super key is the combination of fields by which the row is uniquely identified and the candidate key is the minimal super key.

share|improve this answer
can u plz explain with a example.. – Dinesh Kumar Dec 23 '10 at 15:01
Roll Number | First Name | Last Name CSU0001 | Shabbir | Bhimani | CSU0002 | SomeName | SurName | CSU0003 | Larry | page | wat are all the possible super keys and candidate key in the abv example – Dinesh Kumar Dec 23 '10 at 15:03
short and clear! – runcode Sep 25 '12 at 0:27

Superkey :A set of attributes or combination of attributes which uniquely identify the tuple in a given relation . Superkey have two properties uniqueness and reducible set

Candidate key: Minimal set of superkey which have following two properties: uniqueness and irreducible set or attribute

share|improve this answer

Basically, a Candidate Key is a Super Key from which no more Attribute can be pruned.

A Super Key identifies uniquely rows/tuples in a table/relation of a database. It is composed by a set of attributes that combined can assume values unique over the rows/tuples of a table/relation. A Candidate Key is built by a Super Key, iteratively removing/pruning non-key attributes, keeping an invariant: the newly created Key still need to uniquely identifies the rows/tuples.

A Candidate Key might be seen as a minimal Super Key, in terms of attributes.

Candidate Keys can be used to reference uniquely rows/tuples but from the RDBMS engine perspective the burden to maintain indexes on them is far heavier.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.