Transcript for:
SQL Interview Questions Notes

Hi guys, this is Sahiti on behalf of Edureka. And I welcome you to this session on SQL interview questions. So in this session guys will mainly focus on the top 65 interview questions generally asked about SQL. Now in the era of 2.5 quintillion bytes of data being generated every day data plays a crucial role in decision-making for business operation. This quite essentially makes us handle data and databases and gives us the need to use the database management system with various kinds of database Management Systems present in the market today, the relational database management system is one of the most popular systems available. Now this type of database management system uses a structure that allows the users to identify an access data in relation to another piece of data in the database and SQL is the core of relational database, which is used for accessing and managing the database. So definitely knowing sequel will open the doors for you to become a database administrator. So guys if you're preparing for interviews to become a database administrator than SQL is one of the important skills that you need to master in. So with the note of this let's just get started with the SQL interview questions. So the first question that we have is what is the difference between delete and truncate statement. So I'll start by explaining you what is the delete command? Well, the delete command is basically used to delete a row in the table. So you can also roll back data after using the delete statement and it is a data manipulation command. Coming to the truncate statement, the truncate statement is basically used to delete all the rows from a table and you cannot roll back the data. This is a data definition language command and it is faster than the delete command. So if anyone asks you the difference between the delete and the truncate statements don't forget to mention that you know, the truncate statement is definitely faster than the delete statement and the truncate statement is from the data definition family and the delete statement is The data manipulation from the right now moving on to our next question that is what are the different subsets of SQL. Well, the different subsets of SQL are mainly the data definition language the data manipulation language the data control language and the transaction control language now coming to the data definition language this set of language consists of the commands that can be used to define the database schema. So whenever you want to define the database schema, you can use the commands from this particular language coming to the data manipulation language the manipulation language consists of all the commands that deal with the manipulation of data presented the database. So for example, if you have n number of tables and you want to manipulate the data and present in those tables, then you use data manipulation commands coming to the data control language the data control language includes the commands which deal with the right permissions and other controls of the database systems. So for example, you work for an Enterprise and the Enterprise has a database now, obviously all the employees will not have the access to the database right so data control language. Mainly deals with how you give the user permissions to access to the database now coming to the last type of language that is the transaction control language. This basically includes the commands which mainly deal with the transaction of the database whenever you want to roll back or you want to perform any various kind of transactions, then you use the set of commands from this language, right? So, I hope I'm clear. So as I said, there are mainly for different subsets of sequels that you should mention that is the data definition language the data manipulation language the data control language and the Construction Control language now moving on to our next question. That is what do you mean by database Management systems and what are the different types of it? So now if I have to define the database management system for you, then a database management system is a software application that interacts with the users applications and the database itself to capture and analyze the data. So the data stored in a database can be modified retrieved and deleted and can be of any type like the strings numbers images Etc. So you can basically store any kind of data. Not a different kinds of database Management systems are the hierarchical the relational the network and the object oriented database Management Systems the talking about the hierarchical database Management Systems this type of database management system has a style of predecessor and the successive type of relationship. So it has a structure similar to that of a tree while in the nodes represent the records and the branches of the tree represent the fields coming to the relational database management system this type of database management system uses a structure that allows the user to identify and access data in relation to another piece of data in the database the network database management system supports many to many relations where in multiple member records can be linked and the object oriented database Management Systems use a small individual software called objects and each object contains a piece of data and instructions for the actions to be done with the data. So I hope I'm clear with this point. So now moving on to our next question that is what you mean by a table and a field in SQL. So now the answer to this question is quite simple at a Basically refers to a collection of data in an organized manner in forms of rows and columns and the field refers to the number of columns in the table. If you have to explain anybody what table and field mean so basically in SQL, you have a database and the database consists of n number of tables, right? So that is basically a table and the tables have few column names, right? So the column names are basically the feet so you can explain with an example as you can see in the screen so over here, I have an employee information table into which the employee information table is a table and the column names in this particular table are the fries now moving on to our next question. That is what our joints in SQL. Now, this is one of the most popular questions that is generally asked in your interviews. So basically a joint Clause is used to define to combine rows from two or more tables based on related columns between them. It is used to merge two tables or retrieve data from there and there are mainly for types of joints in SQL. That is the inner join the full joint the left join at the right joint right now moving on to our next question. Is what is the difference between care and warka to data type in sequence? So this is one of the most confusing questions that is generally asked in an interview you'll see you since you know generally people get confused between what is care. And what is vodka datatype now both Karen barca to are used for character data type, but work at to is used for character strings of variable length, whereas the cat is used for strings of fixed length. So whenever you have strings of fixed length, then you use the cad data types and whenever you have strengths of variable length, then you can use the warka to data type for example cat then can only store 10 characters and will not be able to store a string of any other length whereas to work at 2:10 can store any length that is either 628. It completely depends on the variable right now moving on to our next question. That is what is the primary key. Now when you're working in a database field, obviously a company you can have n number of databases having n number of tables inside this now each and every table in a database has to be connected with the other table right now for that. We need to unique I didn't fight a table or you know, you can say you need to uniquely identify a column. So basically primary key is a set of attributes that can be used to uniquely identify every Tuple. So if there are three to four candidate Keys present in a relationship then out of those one can be chosen as the primary key. Now, as you can see on the screen, we have an employer information table which has columns like, you know, employee number employee named employee country and the employee age now, obviously you can uniquely identify each and every employee with the employee ID, right? So basically that will be a primary case over here employee number will be a primary key. Now. Let's move on to a next question that is what our constraints so constants are basically used to specify the limit of the data type of the table, right? So whenever you're creating a table, then you can use the constant to set a limit of the data type of the table. It can be either specified while either creating the table or you know, while you're ordering the table statement so it can be basically specified in both the ways now there are mainly five constraints that you need to understand about that is Not null constraint the unique constant the check constraint the default constraint and the index constraint that the not now constant basically ensures that a null value cannot be stored in the column. So whenever you mention this particular constant into a column of your table, then this particular constant will make sure that you know, no null value can be stored for that particular column in the table moving on to the next constant. That is the unique constant this constant make sure that you know, all the values in the column are basically different. So if you need to make sure that you know in a column you have unique values for each and every row then you can use this particular constraint now moving on to the next constant. That is the check constraint the check constant basically ensures that all the values in the column satisfy specific condition. So if you have a condition you need to make sure that you know, only the values with satisfy the condition are stored in the column, then you can use this particular constraint now talking about the default constraint default constant consists of a set of default values for a column with no value specified. So for example in a table of ten rows No, you have a column in which you do not specify all the values for all the 10 row then you can make sure that you know, you will set a default value in the default value will be automatically stored wherever you don't mention a value in in that call now moving on to the last step of constant. That is the index contrary. The index constraint is used to create and retrieve data from the database is very quickly. So I hope I'm clear with the different types of constraints that you need to answer about when you're asked his question about what are the constraints that you know, now let's move on to the next question that is what is the difference between SQL and my SQL now, this is one of the most popular questions that is generally ask, you know, because since people generally get confused between what is SQL and what's my sequel so let me just explain you the simple difference between both of them. So SQL is basically a standard language which stands for structured query language based on the English language. Whereas the MySQL is a database management system. So SQL is basically the core of relational database which is used for accessing and managing the database. But as my SQL is a relational database. Iseman system which works on many platforms. So basically this provides multi-user access to support many storage engines and is backed by a rocker. So that's the basic difference between SQL and MySQL guys SQL is basically the core of relational database which is used for accessing and managing a database and MySQL is an open source relational database management system. Now, let's move over to our next question that is what is the unique key now unique key basically identifies a single row in a table. This basically allows multiple values per table and also the null values are allowed so you'll have to make sure that you know, whenever using the unique key, you need to have an idea that you know, it identifies a single Row in the table multiple values are allowed for the table and also null values are allowed but yes duplicate values are not allowed. All right now moving forward to our next question that is what is a foreign key a foreign key basically maintains referential Integrity by enforcing a link between the data into tables the foreign key in the child table. Friends is the primary key in the parent table and the foreign key constraint prevents actions that would destroy the links between the child and the parent table. So if you have a database and you know, if you have around 10 tables in that particular database and then if you want to maintain relations between all these tables in the database, then you need to use the primary key foreign key concept so that you identify the relation between both these tables with the help of foreign key now moving forward to a next question. That is what do you mean by data Integrity now data Integrity basically defines the accuracy of the data as well as the consistency of data stored in the database. It also defines the Integrity constraints to enforce business rules on the data when it is enter into an application or a database. So if you have to answer this question, then you can answer by saying that, you know data Integrity basically defines the accuracy and the consistency of data. Now, let's move forward to a next question that is what is the difference between the clustered and the non-clustered index in SQL. The clustered index is basically used for The easy to retrieve all of the data from the database and is faster than the non-clustered index the clustered index Alters. The way records are stored in the database as it sorts out the rows by column which is set to be the clustered index and only one table can have a clustered index coming to the Dom clustered index the non-clustered index is also used for the retrieval of data from the database. But yes, it is slower than the cluster index the non-clustered index does not alter the way it is stored. But yet it creates a separate object within a table which points back to the original table rows after searching and also one table can have many non-clustered indexes the main difference between both of them are what are used for easy retrieval of data, but yes, the clustered index is faster than the non-clustered index and only one table can have only one cluster index but yes a single table can have many non-clustered indexes apart from that the third difference between both of them is also that you know, the cluster index Alters the way records are stored in the table and the non Plus. Index does not do that. Now. Let's move forward to our next question. That is write a SQL query to display the current date. Now when you attend the interviews for a database administrator, let me just tell you that not only the theoretical questions are asked but yes, yes sometimes asked to write the query is also so they can give you some scenarios questions or they can just ask you a few simple queries that you need to make sure that you know, you know them so that's the reason that this question could be asked that, you know, write a SQL query to display the current date now in SQL to display the current date. We have a function known as the get day. So basically with the help of this function, you can return the current date and time stamp. So the syntax of function is really simple as just get date and it applies to SQL Server 2000 17 16 14 12 2008 R2 2008 and 2005. If you just have to give an example to the interviewer about how to write a query to display the current date. You can just mention the query like, you know select get day. So when you execute this particular query you would see an output that you know the current date and time. I would be displayed as out right so that's how you can write a query to display the current date now moving forward to the next question that is what are the different types of joints. So as I mentioned before there are mainly for types of joints that you need to talk about that is the inner join the full join the left join and the right joint. So talking about inner join this joint basically returns to circuits which have matching values in both the tables now consider two tables table a and table B. Now when you apply the inner join on both of these tables you'll observe that, you know, the output would be all those records which have matching values in both the tables that is table a and table be the talking about the full joint the full joint basically returns all those records which either have a matching value in the left or the right table. So whenever you apply full join in both of these tables, you will see that, you know, you get an output of all those records which either have a match in the left or the right table now talking about the left join the left jaw and Returns the records from the left table and also those records which satisfy the condition from the right table. So if you have table a and table B, and you apply a left join, too. Of the Stables then the output would be all those records from the left table and the record from the right table which satisfy the specified condition. Similarly. The right joint is just the vice versa the right joint basically returns a record from the right table and also those records would satisfy the condition from the left table. So whenever you apply the right choice in to table a and table be and consider that you know, the table B is right table you'll get all those records from the table p and also matching records from table a which satisfy the condition. So these are the various types of joints that you need to talk about guys now moving forward to the next question. That is what do you mean by denormalization now denormalization basically refers to a technique which is used to access the data from higher to lower forms of database. It increases the performance of the entire infrastructure as it introduces redundancy inter table and it also adds the Redundant data into a table by incorporating database queries that combined data from various tables in a single table. So if you have to just explain denormalization, you can just say that you know, it is a Sneak which is used to access data from higher to lower forms of database and it basically adds written the data into the table by incorporating database queries that combine data from various tables. So I hope I'm clear with this point now moving forward to the next question that is what are the entities and relationships. So let me just explain you what entities are first so entities can be anything like, you know a person place or thing in real world about which data can be stored in a database. So table stored data that represent one type of entity. So for example, a blank database has a customer tables to store the customer information. Now the customer Table stores this information as a set of attributes that is basically the columns within the table for each and every customer. So if you consider, you know, a customer table has around five parameters, like customer ID customer name customer phone number customer email ID and so on then all these customer ID customer name customer phone number are basically the column names that is the attributes for the entities and customer information will be the entity the talking about relationships relational. Between the entities that have something to do with each other is basically relationships. So for example, the customer name is related to the customer account number and the contact information right. Now. This might be in the same table or it could be in any other table also, right. So if you have two tables out of which one table has the customer name and the other table has all the other information like the customer ID customer name and so on. Now these two tables will be related to each other with the relationship so that the customer details could be retrieved now that particular information is basically relationships now moving forward to our next question that is what is an index in the previous questions. I talked about the non-clustered index and the clustered index is right, but what exactly is index now index basically refers to a performance tuning method of allowing faster retrieval of records from the table. So as I mentioned before in the plastered on the non-clustered indexes question, both of the indexes are basically used for easy retrieval of data, right? So that's what index does this is basically a performance tuning method to allow faster retrieval of data. From the table and also an index creates an entry for each value. So to allow the faster retrieval of records from the table it basically creates an entry for each and every value. Now, let's move forward to the different types of indexes. So well, I've already explained you about two types of indexes that is the clustered and the non-clustered index but yes, let's understand again about both of them and also an additional index that is the unique index. So mainly there are three types of indexes that is used that is the unique index the clustered index and the non-clustered index the unique index basically does not allow the field to have duplicate values if the column is unique indexed. So for primary key is defined a unique index can be applied automatically. So unique index is mainly used when you do not want any duplicate values to be present in the column now moving to the clustered index the clustered index basically reorders the physical order of the table and searches based on the basis of key values. So each table can have only one cluster index coming to the third type of index Teresa nonplussed. Indexed non-clustered index does not alter the physical order of the table and maintains a logical order of the data. So each table can have many non-clustered indexes, right? So basically guys there are three types of indexes that you need to explain about that is the unique the cluster and the non-clustered index now moving forward to our next question. That is what this normalization and what are its advantages. So normalization is basically the process of organizing data to avoid duplication and redundancy. So it's basically the opposite of denormalization that we just talked about in one of the previous questions. So if you just have to Define normalization, then you can see that you need is a process of organizing data to avoid duplication and redundancy. Now the advantages of normalization are as you can see on the screen, it offers better database organization more tables with small rose efficient data access greater flexibility for queries quickly finds the information easier to implement security allows easy modification reduction of redundant data and duplicate data more compact database. And ensures consistent data after modification. So Guys, these are few advantages of normalization. Now, let's move forward to our next question that is what is the difference between the drop and the truncate commands the crop command basically removes the table and it cannot be rolled back from the database whenever you use the drop command just remember that, you know, you completely drop the complete table and it cannot be rolled back from the database and the truncate command removes all the rows from the table and also cannot be rolled back into the database. So the drop command and the truncate command differ by this. So whenever you used to draw from and you drop the complete table and whenever you will use to truncate command, you will remove all the rows from the table the syntax of both. Our commands are almost same the syntax of drop command is basically drop object in object name that is basically the table and table name and the Syntax for truncate command is truncate table and table dream. So guys that was about the drop and the truncate command. Now, let's move forward to the next question that is what are the different types of normalization. So there are mainly for types of Vicious that is 1 and f 2 and F 3 and F and bcnf. Now, let me explain you the different types of normalization with an example. So guys, this is the table that we're going to consider for the example. Now you basically have to apply normalization for this particular table the to apply normalization to this particular table. You'll clearly observe that you know, there is Alice Johnson who has a particular address and has rented few movies from a specific category and the category action is mentioned twice over here. Similarly. David Allen's address has been divided into two different record. And the movies rented in the categories have also been divided into two different records right now to apply normalization to this particular table you first have to apply the one in them. That is the first normalized form. So for a table to win one and if you need to make sure that each table cells should have a single value. So basically all the records must be unique. So as you saw in this particular table, we had redundant values in the same record, right? So we're going to have each cell with a unique record. So we'll have records such as you know. Alice Johnson First Street house number 3 mission impossible and the second record as Miss Alice Johnson for Street house number 3 Clash of Titans. Similarly. We'll have mr. David Allen Third Street fortify with Interstellar the mr. David Allen Third Street 45 with Edge of Tomorrow and similarly. Mr. David Allen 7th. Annual Mission Impossible fall out. So that's all basically you get your table into one. And if you have records with unique value in the complete table now as you can see on the screen, this is a table for one and left. Now, you have to divide this table to 2 and F. So when I said to and if that is the second normalized form, you can divide this table into two different tables, so to have a table into and if you need to make sure that you know, the database should be in one in if and should also have a single column primary key since the table is in 1nf that we considered that's applicable to our situation. Now, let's move forward to the 2N them now in the to and there will clearly see that you know, we have salutations full name address and movies rented right? Let us divide this People need to do different tables. You can clearly see that, you know, I've added an ID to both the tables. So I've added ID salutation full name and address and ID movie stranded so Miss Alice Johnson staying in First Street house number 3 must have rented Mission Impossible. Similarly. She must have rented Clash of Titans. Mr. David Allen thing Interstate 45 has entered Interstellar and Edge of Tomorrow. And mr. David Allen staying in 7th. Avenue has rented Mission Impossible fall out. So that's how I've divided the table and to do and they're now moving forward two three left now a database to be entry and if you need to make sure that you know, the or database is person to an f and must not have any transitive functional dependency. So for that what you're going to do is you're going to further divide the two tables into three tables as you can see in the screen. So we're going to have an ID full name address and salutation ID, and also another table with ID movie stunted column attributes and the third table with salutation ID and shallot Asia. So basically we're going to identify mr. With one miss with to This with three and doctor with for so that's how we're going to get a tables to 3nf. Well guys with this we come to an end of this particular example that you are table is been completely normalized and the highest normal form available for this particular table is tree and are now moving forward to the final type of normalization that is bcnf. Now if your database is in third normal form and they would be some scenarios where anomalies would be present. And if you have more than one candidate key then bcnf comes in to roll when you further divide your table so that you know, they would be only one candidate key present. So Guys, these are the various types of normalization that is 1 and f 2 and F 3 and F in bcnf. So in 1nf, there is no repeating groups within the rows into an app every non-key column is dependent on a whole primary key in 3nf. It is completely dependent on the primary key and no other non-key column values and in bcnf, you have to make sure that you know, there's only one candidate key present in the team. So Guys, these were the different types of normalization that you need to understand about now, let's move What our next question that is what is acid property in database the asset property mainly stands for atomicity consistency isolation and durability. It is basically used to ensure that the data transactions are processed reliably in a database system. So if you have to Define asset property in a database, then you have to Define all these terms individually a stands for atomicity. So Atomic City refers to the transactions that are completely done or failed where transaction refers to a single logic operation for data. It means if one part of any transaction fails, then the entire transaction fails and the database state is left unchanged coming to consistency consistency ensures that the data must meet all the validation rules in simple words. You can see that you know, your transaction never leaves the database without completing its take third part that is isolation. The main goal of isolation is the concurrency control and the last part that is durability durability means that if a transaction has been committed it will occur whatever may come in between To such as far large crash or any sort of error. Now, let's move forward to our next question. That is what you mean by a trigger in SQL. So triggers and SQL are a special type of stored procedures that are defined to execute automatically in Play store after data modifications. It allows you to execute a patch of code when an insert update or any other queries executed against the specific table. So guys, there are mainly 6 type of triggers that you need to understand about that is the before insert after insertbefore update after update before delete and after delete. So basically the two main key terms that you need to understand at the before and the after so these are completely applied on the insert update and delete commands. The before insert is basically activated before the data is inserted into the table. The after insert is activated after the data is inserted into the table. The before update is activated before the data in the table is updated and after update is activated after the data in table is updated. The before delete is activated before data is removed from the table. After delete is activated after the data is removed from the table. So as this is what a trigger in SQL s it is basically a type of stored procedures that is defined to execute automatically in place or after data modifications. Now, let's move forward to our next question that is what are the different types of operators available in SQL. So there are mainly five types of operatives available in SQL. That is the arithmetic bit wise comparison compound and The Logical operators. So as these are the main file types of operators available in SQL. So now let's move forward to our next question that is our null values same as that of zero or a blank space a null value is not at all same as that of a zero or a blank space an l-value mainly represents a value which is unavailable unknown assigned or not. Applicable. Whereas a zero is a number and a blank space. It's a character. So if anybody asks you if null values are same as that of 0 blank space, please say it's know because you know, the null values is basically anything which is unavailable unknown or and is s And the not applicable but as a zero is a number and a blank space is a character. Now, let's move forward to our next question that is what is the difference between a cross joint and a natural join the cross joint produces the cross product or Cartesian product of two tables, whereas the natural join is based on all the columns having the same name and data types in both the tables the main difference between both of them is that in the cross joint basically produces the cross product of both the table and the natural join is completely based on all the columns having the same name data types in both the team now, let's move forward to our next question. That is what is a sub query in SQL a sub-query is basically a query inside under the query where a query is defined to retrieve data or information back from the data base. So some queries are always executed first and the result of the sub-query is passed on to the main query. So as you can see on my screen, I have an outer query inside which I have a sub query or an inner query. So basically the square is assigned to retrieve data from the database and then the square Will be executed first. So if there are any errors in this query then the complete query would not be executed only when the stock query is completely executed. Then the outer query will be executed. Now, let's move over to the next question that is what are the different types of sub-query. Now, there are mainly two types of sub queries. That is the correlated and non correlated sub-query. The correlated subqueries are basically those queries with selected data from a table referenced in the outer query. It is not considered as an independent query as it refers to another table and the first column in a table. The non correlated sub-query is an independent query where the output of the sub-query is substituted in the main coil. So you'll have to understand the difference between both of them. If you do not understand by definition, you could definitely go and execute the commands right the two different types of queries in SQL and you get to know what I'm talking about basically non-correlated type of sub query the output of the sub-query will be substituted into the main query and correlated type of sir. Create the query select the data from a reference table in the outer query. Now. Let's move forward to our next question. That is can you list the ways to get the count of Records in a table now to count the number of Records in a table, you can use various kinds of queries. So there are mainly three queries that have mentioned over here. That is Select star from table 1 star means basically select. All right, when you want to select all the rows all the records in the table, you can use star next when I say select count star from table 1 that is basically you select all the records from the table 1 and then you count them and coming to the third query data select rows from system in Texas where ID object ID of table 1 and indeed is less than 2 that means is basically Council number of Records in the table with system in Texas. These are the various ways to count the number of Records in a table. Now, let's move forward to our next question that is write a SQL query to find the names of employees that begin with the alphabet a now to display the name of employees that begin with a you Type in the command like you don't select star from table name where you mentioned your table name where employ name because I'm considering an employee table in the scenario like a percent in quotes So when I say a person all those names starting with a and having any letters or any characters after that would be selected. So guys, that's how you can write a query to find the name of employees that begin with a now suppose. If you want to write a query to find the names of employees that end with a what you can simply do is you can against either similar query like in a select star from table name where employ named like percentage a rights over the percentage comes forward that means, you know all the names that start with any alphabet but end with the a will be considered now, let's move forward to our next question that is write a SQL query to get the third highest salary of an employee from an employee table now to get the third is salary of an employee from an employee table. You can write a query as you can see on the screen. You can just mention select top one salvi from and then write a sub query which says select top three V from employee table order by salary in a descending order as M and then again order by salary in ascending order for the outer query so you can write a query like this Christ. Now, let's move forward to a next question that is what is the need of group functions in SQL now group functions work on a set of rows and return one result per group. So basically some of the most commonly used group functions are the average count Max Min some and variance So when you say what is the need of group functions in SQL the need is basically because the group functions work on a set of row and return one result per group. Now, let's move over to our next question that is what is a relationship and what are the different types of relationship. So the relation or links between entities that have something to do with each other can be basically termed as relationships. So relationships can be also defined as the connection between the tables in a database right now. The different types of relationships are the one to one relationship the one to many relationship many to one relationship and the self Sensing the relationship when you have a relationship between two tables at his table a and table be so when I say one-to-one relationship between both the tables table a and table be a single recording table a will be related to a single record in table be coming to one-to-many relationship a single recording table a can be related to many records and table P next coming to the many to one relationship many records in table a can be related to one record in table be coming to self-referencing relationship. The self-referencing relationship basically means that you can have a single table out of which two columns are related to each other with the relationship. Now, let's move over to a next question. That is how can you insert null values in the column while inserting data now to insert null values in a column while inserting the data you mainly have two ways that is either by implicitly by omitting columns from columnist or explicitly by specifying null keyword in the values Claus. So as these are the two ways through which you know, you can insert null values in a column while in I think the data now, let's move forward to the next question that is what is the difference between the between and in condition operators. The between of it is basically used to display rows based on a range of values in a row. Where as the in condition operator is used to check for values contained in a specific set of values. So if you have to explain with an example for between and in condition operators, then you can use the example on the screen. You can just write a query like in a select star from students. We're rolling were between 10 to 50. So all those records from the students table would be selected whose role number stands between 10 to 50 coming to the in condition operators. You can use a query like this like, you know, select star from students were roll number in eight fifteen twenty five. So all those records from a student table would be selected where the roll number would be either eight fifteen or twenty five. So guys, that is the main difference between the between and the in condition operators. Now, let's move forward to our next question. That is why are the SQL functions? The SQL functions are used to perform some calculations on the data to modify individual data items to manipulate the output to format dates numbers and also to convert the data types. So if you want to perform these activities or you know, if you want to perform these actions, then you need to use the SQL functions. Now, let's move forward to our next question that is what is the need of merge statement. This statement is basically used to allow conditional update or insertion of data into a table. So it performs an update if a row exist or an insert if the road doesn't exist. So basically the need of merge statement is that you know, it allows conditional update or insertion of data into a table. Now, let's move over to our next question. That is what do you mean by recursive stored procedure recursive stored procedures refers to a stored procedure which caused by itself until it reaches some boundary condition this recursive function or procedure helps the programmers to use the same set of code n number of times. So basically you'll first mention the boundary condition and then you are you Recursive stored procedure to check you know, if it calls by itself till it reaches the specified boundary condition. Now, let's move forward to a next question that is what is a clause in SQL. Now sequel Clauses basically helps you to limit the result set by providing a condition to the query across helps to filter the rows from the entire set of Records. So for your better understanding the example is basically where and having Clauses. So when you write a query you having these two particular Clauses you basically mention a condition into these particular Clauses, right? Like we're student number is equal to 2 or having, you know goal number greater than 5 and so on right? So that's how you can use Applause in SQL. Now, let's move forward to the next question that is what is the difference between the having clause and the where cross but the main difference between having clause and where Clauses basically that you know, the having Clause can be only used with the select statement. It is usually used by the group by clause and whenever Group by is not used having basically behaves like a where Clause coming to the where Clause the where Clause is applied. Each row before they are part of the group by function in a query. So having Clause is basically used with the select statement and it is usually used in the group by Clause when the having Clause is not used with the group by Clause the having Clause behaves like a where cross so guys that was about the difference between the having clause in the where Clause now, let's move forward to our next question that is list of ways in which Dynamic SQL can be executed the ways in which Dynamic SQL can be executed our by writing a query with parameters using exact and by using SP - execute SQL. So there are basically three ways in which Dynamic SQL can be executed that is by writing query with parameters using X and using SP underscores execute SQL. Now moving forward to the next question that is what are the various levels of constraints the constraints as I mentioned before I basically the representation of a column to enforce data entity and consistency. So Bailey there are two levels of constants. That is the column level constant and the table level constraint now, let's move Over to our next question that is how can you fetch Commons records from two tables? Well, you can fetch cam records from two tables by using the intersect statement. So the syntax of intersex statement is as you can see on the screen. It's basically select column 1 column 2 and so many columns from the table name where condition basically, we you mentioned the condition over here. Then you mention the keyword intersect and then again mentioned under the table name, right? So that is again, you mentioned select the columns from a specific table where the condition matches so that's how you use the intersect so mad so for your better understanding you can see the example on the screen you can see you know that I have used select student ID that is basically a single column from student then use the intersect command. And then again, I've mentioned select student ID from a different table that is exam. So that's how you can fetch common the courts from two tables. Now, let's move forward to our next question that is listen case manipulation functions in SQL. So there are mainly three case manipulation functions in SQL. That is the lower upper and the in eat cap the talking about the logo Shouldn't this function basically Returns the string in lowercase. It takes a string as an argument and returns it by converting into a lower case the syntax of this particular function is basically lower and in Brackets, you mentioned strings in quotes now moving forward to the next function. That is the upper function this function Returns the string in uppercase. It takes a string as an argument and returns it by converting it into an upper case, right? So the Syntax for this particular function is upper and in Brackets, you mentioned the spring within the codes moving forward to the third function that is the in each cap. This function Returns the string with the first letter in uppercase and the rest of the letters in lowercase. So the Syntax for this function is basically in each Gap and in Brackets, you mentioned the string with coats. So Guys, these were the three case manipulation functions in SQL. Now, let's move forward to our next question that is what are the different set of operators available in SQL. So the different set operators available in SQL our Union intersect and the - operators, so let's talk about Union first. So when you consider What he said is the left query and the right query and you apply the union operation you will see that you know, it will combine Rose from both those queries. You'll get an output of you know, all those records from the left table. That is basically the left query and also from the right query that is the right table moving forward to the next operation is the intersect operation. So when you apply the intersect operation to the left query and the right query you'll see that you know, you'll get only those rows which are common in both the queries, right? So for example, you have ten rows in the first table and ten rows in the second table, but the common Rose in both these table are just two rows. So you'll get only those two rows as an output to this particular operation moving forward to the third type of operation. That is the - operation. So when you apply left query - right query you'll see that you'll get the only those rows from the left query which are not included in the right query as an output and when you apply the operation of right query - left query you'll see that here you'll get only those rows as an output from the right query which are not included. It in the left query. So Guys. These were the different set of operators available in SQL. That is the union operator the intersect operator and the minus operator. Now, let's move forward to a next question that is what is an alias command. Now here is name can be given to any table or any column. So the scale is named can be referred in where Clause to identify a particular table or a column. So that's basically an alias command. So for example, if you see on the screen you see a query right? Let's select m dot employee ID department DOT result from employ amp Department as depth where m dot employee ID is equal to Department employee ID. So what I've given over here is that I've given an alias name to the employee table as M. And for the Department table, I've given an alias name as depth. So that's how you can use the Alias command guys. Let's move forward to the next question. Now that is what our Aggregate and scalar functions. The aggregate functions are used to evaluate mathematical calculation and return a single value. These calculations are done from columns in a table. So for But if you need to consider the aggregate functions, then you can consider the max function and the count function as an aggregate function now coming to the scalar functions the scalar functions basically return a single value based on the input value. So if you need an example for scalar functions, then you can consider the UK's and now a scalar functions as they're calculated with respect to the spring. So guys, this is what aggregate functions and scalar functions mean. Let's move forward to the next question. That is how can you fetch alternate record from a table. When you answer this question of how you can fetch alternate records from a table. Please make sure that you will you mention a point that you can fetch alternate because that is both the odd and the even row numbers now to display the even row numbers you can use the command like, you know, select student ID from select row number 2 net ID from student again. We're moored row number comma 2 equal to 0. So we're using this function of where Ma Drew number comma 2 equal to 0, right. So when you divide the row number with to and if you get the reminder as 0 then that particular row number would be an even number and Lily if you get a reminder as 1 then that particular row number would be an odd number that's how you can segregate the alternate recalls. That is the even number records and the odd number records. You just have to mention the condition madro number comma 2 equal to 0 if or even and madro number comma 2 equal to 1 for odd now, let's move forward to the next question that is named the operator which is used in query for pattern matching the operator, which is used in the query for pattern matching is basically the like operator so in like operator, you can use either the percentage sign or the underscore sign the percentage sign basically matches to zero or more characters. If you use the percentage sign in the query like in a select star from students where student named like a percentage so all those student names whose name starts with a and ends with any character will be taken into account and all the information related to all those records will be retrieved and coming to when you use the underscore sign the underscore sign basically matches exactly one character. When you use the underscore sign in the query like, you know select star from student by student name like ABC underscore. So all those records, you know whose student name has a characters which match the pattern ABC and any character present after that will be taken into account. So guys, that's how you can use the like operator for pattern matching. You can either use the percentage sign with it or an underscore sign with it. Now, let's move forward to the next question. That is how can you select unique records from a table? Well, you can select unique records from a table by using the distinct keyword. So for your better understanding you can write a query like, you know, select distinct student ID from student, right? So with the help of this query all the unique records from the student table will be selected. Let's move forward with the next question. That is how can you fetch first five characters of a string now, there are obviously a lot of ways to patch the characters from a string. So for your understanding I've mentioned two examples over here that is either you can use the substring command or the right command. So when you use the substring statement you can use the Smells like you know select substring student named want to fight a student named from student. The first five characters of student name will be retrieved from the student table now similarly when you use the right statement, you can use the statements like, you know, Selleck bright student name comma five a student named from student, right? So with this query again all the first five characters of each and every student name from the student table would be retrieved. So that's how guys you can fetch the first five characters of a string that is either by using the substring statement or the right State now, let's move forward with the next question that is what is the main difference between SQL and pl/sql. The sequel as I mentioned before is a query language that allows you to issue a single query or execute the single insert update. Delete whereas PL / sequel that is basically oracle's procedural language SQL allows you to write a full program of Loops variables Etc to accomplish multiple operations such as select inserts updates and deletes. So is that is the main difference between SQL and procedure? Language sequel in SQL you just have to write a single query to execute insert update and delete and in procedure wrangled SQL. You have to write full program with loops and variables to perform multiple operations, like insert update delete and selects. Now, let's move forward to our next question that is what is a view a view is basically a virtual table which consists of a subset of data contained in a table since views are not present. It takes less space to store and Views can have data of one or more tables combined based on the relationship. So as you can see on the screen, I have two tables of you are n number of rows and columns now once I execute a query to form a view you can clearly see that, you know, it has combined The Columns and the rows from both the tables and has created a view of both of these tables into a single table. That's what a view is. Now. Let's move forward to the next question that is what our views used for so views as I just explained basically refer to a logical snapshot based on a table or on any other view it is used for restricting. The access to data are making complex where the simple ensuring data Independence and also providing the different views of the same data. So that's what views are used for. Now. Let's move forward with the next question that is what is a stored procedure a stored procedure is basically a function which consists of many SQL statements to access the database system several SQL statements are Consolidated into a stored procedure and are executed whenever and wherever required which obviously saves time and we can avoid writing code again. And again, so with the help of stored procedure you can make sure that you know several SQL statements are executed again and again and you don't have to write the query for it again because you know you if you just have a stored procedure for it, it will automatically execute the queries for you. Now, let's move forward with the next question that is list some advantages and disadvantages of stored procedure. Let's talk about the advantages first. So stored procedure can be used as a modular programming which means create one store and code for several times whenever it is. Quad the supports faster execution and it also reduces Network traffic which provides better security to the data coming to the disadvantages of stored procedure. The only disadvantage of stored procedure is that it can be executed only in the database and utilizes more memory in the database server. So as that was about the advantages and disadvantages of stored procedures. Now, let's move forward with the next question that is list all types of the user defined functions. So there are mainly three types of user defined functions. That is the scalar functions the inline table valued functions and the multi statement valued functions. So you may only have to mention these three functions when you're asked about the different types of user defined functions next. Let's move forward and understand. What do you mean by collation? So Collision is defined as a set of rules that determine how data can be sorted as well as compared. So character data is sorted using the rules that Define the correct character sequence along with the options for specifying case sensitivity character with and excetra. So that's what a Nation is guys it is basically a set of rules that determine how data can be sorted as well as compared. Now. Let's move forward with the next question that is what are the different types of collision sensitivity. So the different types of collisions sensitivity are the case sensitivity the corner sensitivity the with sensitivity and the action sensitivity. So there's these are the mainly for types of sensitivities of collision. So I hope that you've understood till now next in the session. Let's understand. What are the local and the global variables now talking about local variables first, these variables can be only used or exists only inside the function. These variables are not used or can't be referred by any other function, right? So whenever you want to use local variables, then you need to understand the fact that you know, they can be only used or exist inside a single function and they can't be referred by any other function coming to Global variables. These variables are the variables which can be accessed throughout the program. So Global variables cannot be created whenever the function is called, but yes, they can be accessed throughout the Graham so guys that was about the look and the global variable next. Let's move forward and understand what is auto increment in SQL Auto increment keyword allows the users to create a unique number to get generated whenever a new record is inserted into the table. So this keyword is usually required whenever primary key is used and auto increment keyword can be only used in Oracle. Whereas the identity keyword can be used in the SQL Server. So that was about Auto incremented sequel guys next. Let's understand. What is a data warehouse data warehouse refers to a central repository of data where the data is assembled from multiple sources of information those data are Consolidated transformed and made available for the mining as well as to online processing Warehouse data also has a subset of data called the data Mass. So data warehouse can be understood as a central repository of data with the data is assembled from multiple sources of information. So guys that was about data warehouse. Now, let's move forward and understand what are the different Authentication Modes in SQL server and how it can be changed the different authentication modes in SQL Server are basically the windows mode and the mixed mode. So these two modes are basically used in SQL windows and to change the authentication modes in SQL Server. What you can simply do is you have to follow the steps that I've mentioned on the screen that is you have to first click on start and go to programs and go to the Microsoft SQL server and click sequel Enterprise Manager to run SQL Enterprise Manager from the Microsoft SQL Server program group now to change the authentication modes in the SQL Server, you can follow the steps that I've mentioned or the screen that is you have to click on start go to programs go to Microsoft SQL server and click sequel Enterprise Manager to run SQL Enterprise Manager from the Microsoft SQL Server program group, then select the server from the tools menu and select SQL Server configuration properties and choose the security page, right? So that's how you can change the authentication mode in the SQL Server guys. Now, let's move forward with the final question in the session that is what our stuff and replace function so About the stuff function first this function is basically used to override existing characters or insert a string into another string. So the Syntax for this function is basically stuff string expression start length and the placement characters where the string expression is. Basically the string that will have characters substituted start represents the starting position the length refers to the number of characters in The String which are substituted and the replacement spring car the new characters which are injected in the spring coming to the replace function. This function is basically used to replace the existing characters of all the occurrences. So the syntax for this particular function is that replace spring expression search string replacement spring where every search string in the string expression will be replaced with the replacement string. I hope I'm clear with the staff function and the replace function. So Guys, these were the top 65 questions that could be asked in your interviews. So guys if you have written in any interviews and you've been asked questions related to SQL, please do let us know in the comments section if you have any doubts related Adams so that we clarified for you guys, so guys that's an end from my side today. I hope you've gone through all the 65 questions and you've understood what kind of questions can be asked in your interviews. So if you're preparing for an interview all the best for your interviews, so thank you and have a great day. I hope you have enjoyed listening to this video. Please be kind enough to like it and you can comment any of your doubts and queries and we will reply them at the earliest do look out for more videos in our playlist And subscribe to Edureka channel to learn more. Happy learning.