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This questions is obviously a homework question. I can't understand my professor and have no idea what he said during the election. I need to make step by step instructions to normalize the following table first into 1NF, then 2NF, then 3NF.

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I appreciate any help and instruction.

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1NF, 2NF, 3NF – Kermit Mar 7 '13 at 15:27
up vote 15 down vote accepted

Okay, I hope I remember all of them correctly, let's start...


To make them very short (and not very precise, just to give you a first idea of what it's all about):

  • NF1: A table cell must not contain more than one value.
  • NF2: NF1, plus all non-primary-key columns must depend on all primary key columns.
  • NF3: NF2, plus non-primary key columns may not depend on each other.


  • NF1: find table cells containing more than one value, put those into separate columns.
  • NF2: find columns depending on less then all primary key columns, put them into another table which has only those primary key columns they really depend on.
  • NF3: find columns which depend on other non-primary-key columns, in addition to depending on the primary key. Put the dependent columns into another table.



a column "state" has values like "WA, Washington". NF1 is violated, because that's two values, abbreviation and name.

Solution: To fulfill NF1, create two columns, STATE_ABBREVIATION and STATE_NAME.


Imagine you've got a table with these 4 columns, expressing international names of car models:

  • COUNTRY_ID (numeric, primary key)
  • CAR_MODEL_ID (numeric, primary key)
  • COUNTRY_NAME (varchar)
  • CAR_MODEL_NAME (varchar)

The table may have these two data rows:


That says, model "Fox" is called "Fox" in USA, but the same car model is called "Polo" in Germany (don't remember if that's actually true).

NF2 is violated, because the country name does not depend on both car model ID and country ID, but only on the country ID.

Solution: To fulfill NF2, move COUNTRY_NAME into a separate table "COUNTRY" with columns COUNTRY_ID (primary key) and COUNTRY_NAME. To get a result set including the country name, you'll need to connect the two tables using a JOIN.


Say you've got a table with these columns, expressing climatic conditions of states:

  • STATE_ID (varchar, primary key)
  • CLIME_ID (foreign key, ID of a climate zone like "desert", "rainforest", etc.)
  • IS_MOSTLY_DRY (bool)

NF3 is violated, because IS_MOSTLY_DRY only depends on the CLIME_ID (let's at least assume that), but not on the STATE_ID (primary key).

Solution: to fulfill NF3, put the column MOSTLY_DRY into the climate zone table.

Here are some thoughts regarding the actual table given in the exercise:

I apply the above mentioned NF rules without to challenge the primary key columns. But they actually don't make sense, as we will see later.

  • NF1 isn't violated, each cell holds just one value.
  • NF2 is violated by EMP_NM and all the phone numbers, because all of these columns don't depend on the full primary key. They all depend on EMP_ID (PK), but not on DEPT_CD (PK). I assume that phone numbers stay the same when an employee moves to another department.
  • NF2 is also violated by DEPT_NM, because DEPT_NM does not depend on the full primary key. It depends on DEPT_CD, but not on EMP_ID.
  • NF2 is also violated by all the skill columns, because they are not department- but only employee-specific.
  • NF3 is violated by SKILL_NM, because the skill name only depends on the skill code, which is not even part of the composite primary key.
  • SKILL_YRS violates NF3, because it depends on a primary key member (EMP_ID) and a non-primary key member (SKILL_CD). So it is partly dependent on a non-primary-key attribute.

So if you remove all columns which violate NF2 or NF3, only the primary key remains (EMP_ID and DEPT_CD). That remaining part violates the given business rules: this structure would allow an employee to work in multiple departments at the same time.

Let's review it from a distance. Your data model is about employees, departments, skills and the relationships between these entities. If you normalize that, you'll end up with one table for the employees (containing DEPT_CD as a foreign key), one for the departments, one for the skills, and another one for the relationship between employees and skills, holding the "skill years" for each tuple of EMP_ID and SKILL_CD (my teacher would have called the latter an "associative entity").

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OK, I see the point for your edit, Walter Mitty. You're right that NF3 is violated when a column depends on primary key columns plus other columns. But NF3 is also violated if a column doesn't depend on the primary key at all, isn't it? So I'd suggest for NF3: "Find columns depending on any non-primary-key columns". Do you agree? – user1992821 Mar 8 '13 at 16:34
very detailed, I find it very useful! Thanks – Alex SUN Jul 30 '13 at 14:28

Looking at the first two rows in your table,
and looking at which columns are tagged "PK" in that table,
and assuming that "PK" stands for "Primary Key",
and looking at the values that appear for those two columns in those two rows,
I would recommend your professor to get the hell out of database teaching and not come back until he got himself educated properly on the subject.

This exercise cannot be taken seriously because the problem statement itself contains hopelessly contradictory information.

(Observe that as a consequence, there simply is not any such thing as a "good" or "right" answer to this question !!!)

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Another oversimplified answer coming up.

In a 3NF relational table, every nonkey value is determined by the key, the whole key, and nothing but the key (so help me Codd ;)).

1NF: The key. This means that if you specify the key value, and a named column, there will be at most one value at the intersection of the row and the column. A multivalue, like a series of values separated by commas, is disallowed, because you can't get directly to the value with just a key and acolumn name.

2NF: The whole key. If a column that is not part of the key is determined by a proper subset of the key columns, then 2NF is being violated.

3NF: And nothing but the key. If a column is determined by some set of non key columns, then 3NF is being violated.

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3NF satisfies only if it is in 2nd normal form and doesnot have any transitive dependency and all the non-key attributes should depend on the primary key.

Transitive dependency: R=(A,B,C). A->B AND B->C THEN A->C

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