Tech How to Maximize Your Use of Oracle Uneeb KhanAugust 12, 20220100 views Here is How to Maximize Your Use of Oracle: In order to maximize your use of Oracle, it is important to understand how the database works. Oracle is a powerful and flexible database that uses for various purposes. You can make the most of its features and functionality by understanding the basics of how the database works.The first thing to understand about Oracle is that it is a relational database management system (RDBMS). This means that data is stored in tables, which are then related to one another through relationships. These relationships can be one-to-one, one-to-many, or many-to-many.One-to-one relationships are when each row in one table can only be related to one row in another table. One-to-many relationships are when each row in one table can be related to multiple rows in another table. Many-to-many relationships are when multiple rows in one table are connected to multiple rows in another table.In order to maximize your use of Oracle, it is important to understand how to create and maintain these relationships. Creating a relationship is a join. Joins create by using the CREATE TABLE statement or the ALTER TABLE statement.The CREATE TABLE statement uses to create a new table. The ALTER TABLE statement uses to modify an existing table. To create a relationship between two tables, you must first create a foreign key on one of the tables. A foreign key is a column that contains values that point to the primary key of another table.The primary key is a column that contains a unique value for each row in a table. The foreign key points to the primary key of the other table. In order to create a relationship, you must first create the foreign key on one of the tables. Then, you can use the ALTER TABLE statement to add the foreign key constraint to the other table.Adding a foreign key constraint to a table will automatically create an index on the foreign key column. This index will use by Oracle to quickly find rows in the other table that match the values in the foreign key column.It is important to note that you cannot add a foreign key constraint to a table that already contains data. In order to add a foreign key constraint to an existing table, you must first export the data from the table, then drop the table, and finally recreate the table with the foreign key constraint.You can use the EXPORT command to export data from a table. The EXPORT command will create a file that contains the data from the table. You can then use the IMPORT command to import the data into a new table.The DROP TABLE statement uses to delete a table. When you drop a table, all of the data in the table will delete. Be very careful while using this statement, as it cannot be undone.Once you have created the foreign key constraint, you can use the ALTER TABLE statement to add the constraint to the other table.Adding a foreign key constraint to a table will automatically create an index on the foreign key column. This index will use by Oracle to quickly find rows in the other table that match the values in the foreign key column.It is important to note that you cannot add a foreign key constraint to a table that already contains data. In order to add a foreign key constraint to an existing table, you must first export the data from the table, then drop the table, and finally recreate the table with the foreign key constraint.You can use the EXPORT command to export data from a table. The EXPORT command will create a file that contains the data from the table. Conclusion: One of the key features of Oracle is that it is a relational database management system (RDBMS). This means that data is stored in tables, which are then related to one another through relationships. These relationships can be one-to-one, one-to-many, or many-to-many. In order to create a relationship between two tables, you must first create a foreign key on one of the tables. A foreign key is a column that contains values that point to the primary key of another table. The primary key is a column that contains a unique value for each row in a table.