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Second normal form

From Wikipedia, the free encyclopedia

Second normal form (2NF), in database normalization, is a normal form. A relation is in the second normal form if it fulfills the following two requirements:

  1. It is in first normal form.
  2. It does not have any non-prime attribute that is functionally dependent on any proper subset of any candidate key of the relation (i.e. it lacks partial dependencies). A non-prime attribute of a relation is an attribute that is not a part of any candidate key of the relation.

Put simply, a relation (or table) is in 2NF if:

  1. It is in 1NF and has a single attribute unique identifier (UID)(in which case every non key attribute is dependent on the entire UID), or
  2. It is in 1NF and has a multi-attribute unique identifier, and every regular attribute (not part of the UID) is dependent on all attributes in the multi-attribute UID, not just one attribute (or part) of the UID.

If any regular (non-prime) attributes are predictable (dependent) on another (non-prime) attribute, that is addressed in third normal form.

History

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The second normal form was originally defined by E. F. Codd in 1971.[1]

Decomposition of 1NF into 2NF

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To make a 1NF relation a 2NF relation, remove the functionally dependent attributes in the partial dependencies of the first normal form relation, and place those partial dependency dependent attributes in a relation where their corresponding determinant attributes are an entire candidate key.

Example

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The following relation does not satisfy 2NF because:

  • There is a multi-attribute unique identifier: "Manufacturer" and "Model".
  • {Manufacturer country} is functionally dependent (predictable) on {Manufacturer}.
  • {Manufacturer country} is not part of a candidate key, so it is a non-prime attribute. (It is assumed that it is possible for two manufacturers in the same country to make a toothbrush with the same model name, so {Manufacturer country, Model} is not a candidate key even though in the current table the pair uniquely identify rows.)
  • {Manufacturer} is a proper subset of the {Manufacturer, Model} candidate key.

In other words, since {Manufacturer country} is a non-prime attribute functionally dependent on a proper subset of a candidate key, the relation is in violation of 2NF.

Electric toothbrush models
Manufacturer Model Manufacturer country
Forte X-Prime Italy
Forte Ultraclean Italy
Dent-o-Fresh EZbrush USA
Brushmaster SuperBrush USA
Kobayashi ST-60 Japan
Hoch Toothmaster Germany
Hoch X-Prime Germany

To make the design conform to 2NF, it is necessary to have two relations. To create these relations:

  1. Remove the functionally dependent attributes in the partial dependencies of the first normal form relation. In this example, {Manufacturer country} is the functionally dependent attribute which will be removed.
  2. Place those partial dependency-dependent attributes (i.e. {Manufacturer country}) in a relation where their corresponding determinant attributes are a candidate key (i.e. {Manufacturer}).

As seen below, {Manufacturer country} is removed from the original table:

Electric toothbrush models
Manufacturer Model
Forte X-Prime
Forte Ultraclean
Dent-o-Fresh EZbrush
Brushmaster SuperBrush
Kobayashi ST-60
Hoch Toothmaster
Hoch X-Prime

As seen below, the partial dependency is put into a new relation where the dependency can exist without being a partial dependency:

Electric toothbrush manufacturers
Manufacturer Manufacturer country
Forte Italy
Dent-o-Fresh USA
Brushmaster USA
Kobayashi Japan
Hoch Germany

See also

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References

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  1. ^ Codd, E. F. "Further Normalization of the Data Base Relational Model". (Presented at Courant Computer Science Symposia Series 6, "Data Base Systems", New York City, May 24–25, 1971.) IBM Research Report RJ909 (August 31, 1971). Republished in Randall J. Rustin (ed.), Data Base Systems: Courant Computer Science Symposia Series 6. Prentice-Hall, 1972.

Further reading

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  • Litt's Tips: Normalization
  • Date, C. J.; Lorentzos, N.; Darwen, H. (2002). Temporal Data & the Relational Model (1st ed.). Morgan Kaufmann. ISBN 1-55860-855-9. Archived from the original on 2012-12-09. Retrieved 2006-08-16.
  • Date, C. J. (2004). Introduction to Database Systems (8th ed.). Boston: Addison-Wesley. ISBN 978-0-321-19784-9.
  • Kent, W. (1983). "A Simple Guide to Five Normal Forms in Relational Database Theory". Communications of the ACM. 26 (2): 120–125. doi:10.1145/358024.358054.
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