Oracle 1Z0-007

Oracle 1Z0-007

Q: 1 Examine the structure of the EMPLOYEES table: EMPLOYEE_ID NUMBER Primary Key FIRST_NAME VARCHAR2(25) LAST_NAME VARCHAR2(25)

Which three statements insert a row into the table? (Choose three.) A. INSERT INTO employees

VALUES ( NULL, 'John', 'Smith');

B. INSERT INTO employees( first_name, last_name) VALUES( 'John', 'Smith'); C. INSERT INTO employees VALUES ( '1000', 'John', NULL);

D. INSERT INTO employees (first_name, last_name, employee_id) VALUES ( 1000, 'John', 'Smith');

E. INSERT INTO employees (employee_id) VALUES (1000);

F. INSERT INTO employees (employee_id, first_name, last_name) VALUES ( 1000, 'John', ' ');

Q: 2 Evaluate the SQL statement:

SELECT ROUND(45.953, -1), TRUNC(45.936, 2) FROM dual;

Which values are displayed? A. 46 and 45 B. 46 and 45.93 C. 50 and 45.93 D. 50 and 45.9 E. 45 and 45.93 F. 45.95 and 45.93

Q: 3 Which are DML statements? (Choose all that apply.) A. COMMIT B. MERGE C. UPDATE D. DELETE E. CREATE F. DROP...

Q: 4 Evaluate the set of SQL statements: CREATE TABLE dept (deptno NUMBER(2), dname VARCHAR2(14), loc VARCHAR2(13)); ROLLBACK; DESCRIBE DEPT

What is true about the set?

A. The DESCRIBE DEPT statement displays the structure of the DEPT table.

B. The ROLLBACK statement frees the storage space occupied by the DEPT table. C. The DESCRIBE DEPT statement returns an error ORA-04043: object DEPT does not exist.

D. The DESCRIBE DEPT statement displays the structure of the DEPT table only if there is a COMMIT

statement introduced before the ROLLBACK statement. Q: 5 Evaluate this SQL statement: SELECT ename, sal, 12*sal+100 FROM emp;

The SAL column stores the monthly salary of the employee. Which change must be made to the above

syntax to calculate the annual compensation as \bonus of $100, multiplied by 12\

A. No change is required to achieve the desired results. B. SELECT ename, sal, 12*(sal+100) FROM emp;

C. SELECT ename, sal, (12*sal)+100

FROM emp;

D. SELECT ename, sal+100,*12 FROM emp;

Q: 6 Examine the SQL statement that creates ORDERS table: CREATE TABLE orders

(SER_NO NUMBER UNIQUE, ORDER_ID NUMBER,

ORDER_DATE DATE NOT NULL, STATUS VARCHAR2(10)

CHECK (status IN ('CREDIT', 'CASH')), PROD_ID NUMBER

REFERENCES PRODUCTS(PRODUCT_ID), ORD_TOTAL NUMBER,

PRIMARY KEY (order_id, order_date));

For which columns would an index be automatically created when you execute the above SQL statement? (Choose two.) A. SER_NO B. ORDER_ID C. STATUS D. PROD_ID E. ORD_TOTAL

F. composite index on ORDER_ID and ORDER_DATE Q: 7 Examine the structure of the EMP_DEPT_VU view: Column Name Type Remarks

EMPLOYEE_ID NUMBER From the EMPLOYEES table EMP_NAME VARCHAR2(30) From the EMPLOYEES table JOB_ID VARCHAR2(20) From the EMPLOYEES table SALARY NUMBER From the EMPLOYEES table

DEPARTMENT_ID NUMBER From the DEPARTMENTS table DEPT_NAME VARCHAR2(30) From the DEPARTMENTS table Which SQL statement produces an error? A. SELECT *

FROM emp_dept_vu;

B. SELECT department_id, SUM(salary) FROM emp_dept_vu

GROUP BY department_id;

C. SELECT department_id, job_id, AVG(salary) FROM emp_dept_vu

GROUP BY department_id, job_id; D. SELECT job_id, SUM(salary) FROM emp_dept_vu

WHERE department_id IN (10,20) GROUP BY job_id

HAVING SUM(salary) > 20000;

E. None of the statements produce an error; all are valid.

Q: 8 Click the Exhibit button and examine the data from the ORDERS and CUSTOMERS tables.

Evaluate this SQL statement: SELECT cust_id, ord_total FROM orders

WHERE ord_total > ANY(SELECT ord_total FROM orders

WHERE cust_id IN (SELECT cust_id FROM customers WHERE city LIKE 'New York'));

What is the result when the above query is executed? Q: 9 Evaluate this SQL statement:

SELECT e.EMPLOYEE_ID,e.LAST_NAME,e.DEPARTMENT_ID, d.DEPARTMENT_NAME

FROM EMPLOYEES e, DEPARTMENTS d

WHERE e.DEPARTMENT_ID = d.DEPARTMENT_ID;

In the statement, which capabilities of a SELECT statement are performed? A. selection, projection, join B. difference, projection, join C. selection, intersection, join D. intersection, projection, join E. difference, projection, product

Q: 10 Click the Exhibit button and examine the data from the EMP table. The COMMISSION column shows the monthly commission earned by the employee.

Which three tasks would require subqueries or joins in order to be performed in a single step? (Choose three.)

A. deleting the records of employees who do not earn commission

B. increasing the commission of employee 3 by the average commission earned in department 20

C. finding the number of employees who do NOT earn commission and are working for department 20

D. inserting into the table a new employee 10 who works for department 20 and earns a commission that is

equal to the commission earned by employee 3

E. creating a table called COMMISSION that has the same structure and data as the columns EMP_ID and

COMMISSION of the EMP table

F. decreasing the commission by 150 for the employees who are working in department 30 and earning a commission of more than 800

Q: 11 You need to modify the STUDENTS table to add a primary key on the STUDENT_ID column. The table is currently empty. Which statement accomplishes this task? A. ALTER TABLE students

ADD PRIMARY KEY student_id; B. ALTER TABLE students

ADD CONSTRAINT PRIMARY KEY (student_id); C. ALTER TABLE students

ADD CONSTRAINT stud_id_pk PRIMARY KEY student_id; D. ALTER TABLE students

ADD CONSTRAINT stud_id_pk PRIMARY KEY (student_id); E. ALTER TABLE students

MODIFY CONSTRAINT stud_id_pk PRIMARY KEY (student_id);

Q: 12 Which three are DATETIME data types that can be used when specifying column definitions? (Choose three.) A. TIMESTAMP

B. INTERVAL MONTH TO DAY C. INTERVAL DAY TO SECOND D. INTERVAL YEAR TO MONTH

E. TIMESTAMP WITH DATABASE TIMEZONE

Q: 13 The EMPLOYEES table contains these columns: LAST_NAME VARCHAR2 (25) SALARY NUMBER (6,2)

COMMISSION_PCT NUMBER (6)

You need to write a query that will produce these results: 1. Display the salary multiplied by the commission_pct. 2. Exclude employees with a zero commission_pct.

3. Display a zero for employees with a null commission value. Evaluate the SQL statement:

SELECT LAST_NAME, SALARY*COMMISSION_PCT FROM EMPLOYEES

WHERE COMMISSION_PCT IS NOT NULL; What does the statement provide? A. all of the desired results B. two of the desired results C. one of the desired results D. an error statement

Q: 14 Evaluate the SQL statement: TRUNCATE TABLE DEPT;

Which three are true about the SQL statement? (Choose three.) A. It releases the storage space used by the table.

B. It does not release the storage space used by the table.

C. You can roll back the deletion of rows after the statement executes.

D. You can NOT roll back the deletion of rows after the statement executes.

E. An attempt to use DESCRIBE on the DEPT table after the TRUNCATE statement executes will display an error.

F. You must be the owner of the table or have DELETE ANY TABLE system privileges to truncate the DEPT table.

Q: 15 The EMP table contains these columns: EMPLOYEE_ID NUMBER(4) EMPNAME VARCHAR2 (25) SALARY NUMBER(9,2) HIRE_DATE DATE

You query the database with this SQL statement: SELECT empname,hire_date HIREDATE, salary FROM EMP

ORDER BY hire_date;

How will the results be sorted? A. randomly

B. ascending by date C. descending by date

D. ascending alphabetically E. descending alphabetically

Q: 16 Mary has a view called EMP_DEPT_LOC_VU that was created based on the EMPLOYEES, DEPARTMENTS, and LOCATIONS tables. She granted SELECT privilege to Scott

on this view. Which option enables Scott to eliminate the need to qualify the view with the name

MARY.EMP_DEPT_LOC_VU each time the view is referenced?

A. Scott can create a synonym for the EMP_DEPT_LOC_VU by using the command CREATE PRIVATE SYNONYM EDL_VU FOR mary.EMP_DEPT_LOC_VU;

then he can prefix the columns with this synonym.

B. Scott can create a synonym for the EMP_DEPT_LOC_VU by using the command CREATE SYNONYM EDL_VU FOR mary.EMP_DEPT_LOC_VU;

then he can prefix the columns with this synonym.

C. Scott can create a synonym for the EMP_DEPT_LOC_VU by using the command CREATE LOCAL SYNONYM EDL_VU FOR mary.EMP_DEPT_LOC_VU;

then he can prefix the columns with this synonym.

D. Scott can create a synonym for the EMP_DEPT_LOC_VU by using the command

CREATE SYNONYM EDL_VU ON mary(EMP_DEPT_LOC_VU);

then he can prefix the columns with this synonym.

E. Scott cannot create a synonym because synonyms can be created only for tables. F. Scott cannot create any synonym for Mary's view. Mary should create a private synonym for the view and

grant SELECT privilege on that synonym to Scott. Q: 17 A subquery can be used to ___. A. create groups of data

B. sort data in a specific order

C. convert data to a different format

D. retrieve data based on an unknown condition

Q: 18 Click the Exhibit button to examine the data of the EMPLOYEES table. Which statement lists the ID, name, and salary of the employee, and the ID and name of the employee's

manager, for all the employees who have a manager and earn more than 4000? A. SELECT employee_id \salary,

employee_id \FROM employees

WHERE salary > 4000;

B. SELECT e.employee_id \e.salary,

m.employee_id \FROM employees e JOIN employees m WHERE e.mgr_id = m.mgr_id AND e.salary > 4000;

C. SELECT e.employee_id \

e.salary,

m.employee_id \FROM employees e JOIN employees m ON (e.mgr_id = m.employee_id) AND e.salary > 4000;

D. SELECT e.employee_id \e.salary,

m.mgr_id \FROM employees e SELF JOIN employees m WHERE e.mgr_id = m.employee_id AND e.salary > 4000;

E. SELECT e.employee_id \e.salary,

m.mgr_id \FROM employees e JOIN employees m www.CertificationKing.com - 14 -

USING (e.employee_id = m.employee_id) AND e.salary > 4000;

Q: 19 The EMPLOYEES table has these columns: LAST_NAME VARCHAR2(35) SALARY NUMBER(8,2) HIRE_DATE DATE

Management wants to add a default value to the SALARY column. You plan to alter the table by using this SQL statement:

ALTER TABLE EMPLOYEES

MODIFY (SALARY DEFAULT 5000);

Which is true about your ALTER statement?

A. Column definitions cannot be altered to add DEFAULT values.

B. A change to the DEFAULT value affects only subsequent insertions to the table. C. Column definitions cannot be altered to add DEFAULT values for columns with a NUMBER data type.

D. All the rows that have a NULL value for the SALARY column will be updated with the value 5000.

Q: 20 Examine the description of the CUSTOMERS table: CUSTOMER_ID NUMBER(4) NOT NULL

CUSTOMER_NAME VARCHAR2(100) NOT NULL STREET_ADDRESS VARCHAR2(150) CITY_ADDRESS VARCHAR2(50) STATE_ADDRESS VARCHAR2(50)

PROVINCE_ADDRESS VARCHAR2(50) COUNTRY_ADDRESS VARCHAR2(50) POSTAL_CODE VARCHAR2(12)

CUSTOMER_PHONE VARCHAR2(20)

The CUSTOMER_ID column is the primary key for the table.

Which statement returns the city address and the number of customers in the cities Los Angeles or San Francisco?

A. SELECT city_address, COUNT(*) FROM customers

WHERE city_address IN ('Los Angeles', 'San Francisco'); B. SELECT city_address, COUNT(*) FROM customers

WHERE city_address IN ('Los Angeles', 'San Francisco') GROUP BY city_address;

C. SELECT city_address, COUNT(customer_id) FROM customers

WHERE city_address IN ('Los Angeles', 'San Francisco') GROUP BY city_address, customer_id;

D. SELECT city_address, COUNT(customer_id) FROM customers

GROUP BY city_address IN ('Los Angeles', 'San Francisco');

Q: 21 Click the Exhibit button to examine the structures of the EMPLOYEES, DEPARTMENTS, and TAX tables.

For which situation would you use a nonequijoin query? A. to find the tax percentage for each of the employees

B. to list the name, job_id, and manager name for all the employees

C. to find the name, salary, and the department name of employees who are not working with Smith

D. to find the number of employees working for the Administrative department and earning less than 4000

E. to display name, salary, manager ID, and department name of all the employees, even if the employees do

not have a department ID assigned

Q: 22 The EMP table contains these columns: LAST_NAME VARCHAR2 (25) SALARY NUMBER (6,2)

DEPARTMENT_ID NUMBER (6)

You need to display the employees who have not been assigned to any department. You write the SELECT statement:

SELECT LAST_NAME, SALARY, DEPARTMENT_ID FROM EMP

WHERE DEPARTMENT_ID = NULL; What is true about this SQL statement ?

A. The SQL statement displays the desired results.

B. The column in the WHERE clause should be changed to display the desired results.

C. The operator in the WHERE clause should be changed to display the desired results.

D. The WHERE clause should be changed to use an outer join to display the desired results.

Q: 23 Which two statements about sequences are true? (Choose two.)

A. You use a NEXTVAL pseudo column to look at the next possible value that would be generated from a

sequence, without actually retrieving the value.

B. You use a CURRVAL pseudo column to look at the current value just generated from a sequence, without

affecting the further values to be generated from the sequence.

C. You use a NEXTVAL pseudo column to obtain the next possible value from a sequence by actually

retrieving the value from the sequence.

D. You use a CURRVAL pseudo column to generate a value from a sequence that would be used for a

specified database column.

E. If a sequence starting from a value 100 and incremented by 1 is used by more than one application, then all

of these applications could have a value of 105 assigned to their column whose value is being generated by the sequence.

F. You use a REUSE clause when creating a sequence to restart the sequence once it generates the maximum

value defined for the sequence.

Q: 24 What is true of using group functions on columns that contain NULL values?

A. Group functions on columns ignore NULL values.

B. Group functions on columns returning dates include NULL values. C. Group functions on columns returning numbers include NULL values.

D. Group functions on columns cannot be accurately used on columns that contain NULL values.

E. Group functions on columns include NULL values in calculations if you use the keyword INC_NULLS.

Q: 25 Which SQL statement generates the alias Annual Salary for the calculated column SALARY*12?

A. SELECT ename, salary*12 'Annual Salary' FROM employees;

B. SELECT ename, salary*12 \FROM employees;

C. SELECT ename, salary*12 AS Annual Salary FROM employees;

D. SELECT ename, salary*12 AS INITCAP(\FROM employees

Q: 26 Click the Exhibit button and examine the data in the EMPLOYEES and DEPARTMENTS tables.

You want to retrieve all employees, whether or not they have matching departments in the departments table. Which query would you use? A. SELECT last_name, department_name

FROM employees NATURAL JOIN departments; B. SELECT last_name, department_name FROM employees JOIN departments ; C. SELECT last_name, department_name FROM employees e JOIN departments d ON (e.department_id = d.department_id); D. SELECT last_name, department_name FROM employees e

RIGHT OUTER JOIN departments d ON (e.department_id = d.department_id); E. SELECT last_name, department_name FROM employees FULL JOIN departments ON (e.department_id = d.department_id); F. SELECT last_name, department_name FROM employees e LEFT OUTER

JOIN departments d ON (e.department_id = d.department_id);

Q: 27 Which SQL statement defines a FOREIGN KEY constraint on the DEPTNO column of the EMP table? A. CREATE TABLE EMP (empno NUMBER(4), ename VARCHAR2(35),

deptno NUMBER(7,2) NOT NULL,

CONSTRAINT emp_deptno_fk FOREIGN KEY deptno REFERENCES dept deptno); B. CREATE TABLE EMP (empno NUMBER(4), ename VARCHAR2(35), deptno NUMBER(7,2)

CONSTRAINT emp_deptno_fk REFERENCES dept (deptno)); C. CREATE TABLE EMP (empno NUMBER(4), ename VARCHAR2(35),

deptno NUMBER(7,2) NOT NULL,

CONSTRAINT emp_deptno_fk REFERENCES dept (deptno) FOREIGN KEY (deptno)); D. CREATE TABLE EMP (empno NUMBER(4), ename VARCHAR2(35),

deptno NUMBER(7,2) FOREIGN KEY

CONSTRAINT emp_deptno_fk REFERENCES dept (deptno));

Q: 28 Click the Exhibit button and examine the data in the EMPLOYEES table. Which three subqueries work? (Choose three.) A. SELECT * FROM employees

where salary > (SELECT MIN(salary) FROM employees

GROUP BY department_id); B. SELECT * FROM employees

WHERE salary = (SELECT AVG(salary) FROM employees

GROUP BY department_id);

C. SELECT distinct department_id FROM employees

WHERE salary > ANY (SELECT AVG(salary) FROM employees

GROUP BY department_id); D. SELECT department_id FROM employees

WHERE salary > ALL (SELECT AVG(salary) FROM employees

GROUP BY department_id); E. SELECT last_name FROM employees

WHERE salary > ANY (SELECT MAX(salary) FROM employees

GROUP BY department_id); F. SELECT department_id FROM employees

WHERE salary > ALL (SELECT AVG(salary) FROM employees

GROUP BY AVG(SALARY));

Q: 29 Which SQL statement accepts user input for the columns to be displayed, the table name, and the WHERE condition? A. SELECT &1, \FROM &3

WHERE last_name = '&4'; B. SELECT &1, '&2' FROM &3

WHERE '&last_name = '&4''; C. SELECT &1, &2 FROM &3

WHERE last_name = '&4';

D. SELECT &1, '&2' FROM EMP

WHERE last_name = '&4';

Q: 30 Evaluate these two SQL statements: SELECT last_name, salary , hire_date FROM EMPLOYEES ORDER BY salary DESC;

SELECT last_name, salary , hire_date FROM EMPLOYEES ORDER BY 2 DESC; What is true about them?

A. The two statements produce identical results. B. The second statement returns a syntax error.

C. There is no need to specify DESC because the results are sorted in descending order by default.

D. The two statements can be made to produce identical results by adding a column alias for the salary column in the second SQL statement.

Q: 31 In which scenario would an index be most useful? A. The indexed column is declared as NOT NULL. B. The indexed columns are used in the FROM clause. C. The indexed columns are part of an expression.

D. The indexed column contains a wide range of values.

Q: 32 Which SELECT statement should you use to extract the year from the system date and display it in the format \A. SELECT TO_CHAR(SYSDATE,'yyyy') FROM dual;

B. SELECT TO_DATE(SYSDATE,'yyyy') FROM dual;

C. SELECT DECODE(SUBSTR(SYSDATE, 8), 'YYYY') FROM dual;

D. SELECT DECODE(SUBSTR(SYSDATE, 8), 'year') FROM dual;

E. SELECT TO_CHAR(SUBSTR(SYSDATE, 8,2),'yyyy') FROM dual;

Q: 33 Examine the description of the EMPLOYEES table: EMP_ID NUMBER(4) NOT NULL

LAST_NAME VARCHAR2(30) NOT NULL FIRST_NAME VARCHAR2(30) DEPT_ID NUMBER(2)

Which statement produces the number of different departments that have employees with last name Smith?

A. SELECT COUNT(*)

FROM employees

WHERE last_name='Smith'; B. SELECT COUNT(dept_id) FROM employees

WHERE last_name='Smith';

C. SELECT DISTINCT(COUNT(dept_id)) FROM employees

WHERE last_name='Smith';

D. SELECT COUNT(DISTINCT dept_id) FROM employees

WHERE last_name='Smith'; E. SELECT UNIQUE(dept_id) FROM employees

WHERE last_name='Smith';

Q: 34 Examine the description of the MARKS table: STD_ID NUMBER(4)

STUDENT_NAME VARCHAR2(30) SUBJ1 NUMBER(3) SUBJ2 NUMBER(3) SUBJ3 NUMBER(3)

SUBJ1, SUBJ2, and SUBJ3 indicate the marks (grades) obtained by a student in the three subjects.

Which two statements are valid? (Choose two.) A. SELECT SUM(subj1, subj2, subj3) FROM marks;

B. SELECT SUM(subj1 + subj2 + subj3) FROM marks;

C. SELECT SUM(subj1), SUM(subj2), SUM(subj3) FROM marks;

D. SELECT MAX(subj1, subj2, subj3) FROM marks;

E. SELECT MINIMUM(subj1) FROM marks;

F. SELECT COUNT(std_id) FROM marks

WHERE subj1 >= AVG(subj1);

Q: 35 Which are iSQL*Plus commands? (Choose all that apply.) A. INSERT B. UPDATE C. SELECT D. DESCRIBE E. DELETE F. RENAME

Q: 36 Which three SELECT statements display 2000 in the format \

(Choose three.)

A. SELECT TO_CHAR(2000, '$#,###.##') FROM dual;

B. SELECT TO_CHAR(2000, '$0,000.00') FROM dual;

C. SELECT TO_CHAR(2000, '$9,999.00') FROM dual;

D. SELECT TO_CHAR(2000, '$9,999.99') FROM dual;

E. SELECT TO_CHAR(2000, '$2,000.00') FROM dual;

F. SELECT TO_CHAR(2000, '$N,NNN.NN') FROM dual;

Q: 37 What does the FORCE option for creating a view do? A. creates a view with constraints

B. creates a view even if the underlying parent table has constraints C. creates a view in another schema even if you don't have privileges D. creates a view regardless of whether or not the base tables exist

Q: 38 Click the Exhibit button to examine the structure of the EMPLOYEES, DEPARTMENTS, and LOCATIONS tables.

Two new departments are added to your company as shown:

DEPARTMENT_ID DEPARTMENT_NAME MGR_ID LOCATION_ID 9998 Engineering 123

9999 Administrative Boston

You need to list the names of employees, the department IDs, the department names, and the cities where

the departments are, even if there are no employees in the departments and even if the departments are

not yet assigned to a location. You need to join the EMPLOYEES, DEPARTMENTS, and LOCATIONS tables to retrieve this information.

Which statement do you execute to retrieve this information? A. SELECT e.last_name, d.department_id, d.department_name, l.city FROM departments d

RIGHT OUTER JOIN employees e ON d.department_id = e.department_id RIGHT OUTER JOIN locations l ON d.location_id = l.location_id;

B. SELECT e.last_name, d.department_id, d.department_name, l.city FROM departments d

FULL OUTER JOIN employees e

ON d.department_id = e.department_id

FULL OUTER JOIN locations l ON d.location_id = l.location_id;

C. SELECT e.last_name, d.department_id,

d.department_name, l.city FROM departments d

LEFT OUTER JOIN employees e

ON d.department_id = e.department_id LEFT OUTER JOIN locations l ON d.location_id = l.location_id;

D. SELECT last_name, department_id, department_name, city FROM departments d

NATURAL JOIN employees e NATURAL JOIN locations l;

Q: 39 What is true about joining tables through an equijoin? A. You can join a maximum of two tables through an equijoin. B. You can join a maximum of two columns through an equijoin.

C. You specify an equijoin condition in the SELECT or FROM clauses of a SELECT statement.

D. To join two tables through an equijoin, the columns in the join condition must be primary key and foreign key columns.

E. You can join n tables (all having single column primary keys) in a SQL statement by specifying a minimum of n-1 join conditions.

Q: 40 Which two statements are true about constraints? (Choose two.) A. The UNIQUE constraint does not permit a null value for the column.

B. A UNIQUE index gets created for columns with PRIMARY KEY and UNIQUE constraints.

C. The PRIMARY KEY and FOREIGN KEY constraints create a UNIQUE index. D. The NOT NULL constraint ensures that null values are not permitted for the column.

Q: 41 Which two statements complete a transaction? (Choose two.) A. DELETE employees; B. DESCRIBE employees;

C. ROLLBACK TO SAVEPOINT C;

D. GRANT SELECT ON employees TO SCOTT; E. ALTER TABLE employees SET UNUSED COLUMN sal; F. SELECT MAX(sal) FROM employees

WHERE department_id = 20;

Q: 42 Which SQL statement returns a numeric value? A. SELECT ADD_MONTHS(MAX(hire_Date), 6)

FROM EMP;

B. SELECT ROUND(hire_date) FROM EMP;

C. SELECT sysdate-hire_date FROM EMP;

D. SELECT TO_NUMBER(hire_date + 7) FROM EMP;

Q: 43 Examine the structure of the EMPLOYEES and NEW_EMPLOYEES tables:

EMPLOYEES __________

EMPLOYEE_ID NUMBER Primary Key FIRST_NAME VARCHAR2(25) LAST_NAME VARCHAR2(25) HIRE_DATE DATE NEW_EMPLOYEES _______________

EMPLOYEE_ID NUMBER Primary Key NAME VARCHAR2(60)

Which DELETE statement is valid? A. DELETE FROM employees

WHERE employee_id = (SELECT employee_id FROM employees);

B. DELETE * FROM employees

WHERE employee_id = (SELECT employee_id FROM new_employees);

C. DELETE FROM employees

WHERE employee_id IN (SELECT employee_id FROM new_employees WHERE name ='Carrey');

D. DELETE * FROM employees

WHERE employee_id IN (SELECT employee_id FROM new_employees

WHERE last_name ='Carrey');

Q: 44 You need to create a table named ORDERS that contains four columns: 1. an ORDER_ID column of number data type 2. a CUSTOMER_ID column of number data type

3. an ORDER_STATUS column that contains a character data type 4. a DATE_ORDERED column to contain the date the order was placed

When a row is inserted into the table, if no value is provided for the status of the order, the value

PENDING should be used instead. Which statement accomplishes this? A. CREATE TABLE orders (

order_id NUMBER(10), customer_id NUMBER(8),

order_status NUMBER(10) DEFAULT 'PENDING', date_ordered DATE );

B. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8),

order_status VARCHAR2(10) = 'PENDING', date_ordered DATE );

C. CREATE OR REPLACE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8),

order_status VARCHAR2(10) DEFAULT 'PENDING', date_ordered DATE );

D. CREATE OR REPLACE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8),

order_status VARCHAR2(10) = 'PENDING', date_ordered DATE );

E. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8),

order_status VARCHAR2(10) DEFAULT 'PENDING',

date_ordered DATE );

F. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8),

order_status VARCHAR2(10) DEFAULT 'PENDING',

date_ordered VARCHAR2 );

Q: 45 In which two cases would you use an outer join? (Choose two.) A. The tables being joined have NOT NULL columns. B. The tables being joined have only matched data. C. The columns being joined have NULL values. D. The tables being joined have only unmatched data.

E. The tables being joined have both matched and unmatched data. F. Only when the tables have a primary key-foreign key relationship.

Q: 46 Which two statements are true about WHERE and HAVING clauses? (Choose two.)

A. A WHERE clause can be used to restrict both rows and groups. B. A WHERE clause can be used to restrict rows only.

C. A HAVING clause can be used to restrict both rows and groups. D. A HAVING clause can be used to restrict groups only.

E. A WHERE clause CANNOT be used in a query if the query uses a HAVING clause.

F. A HAVING clause CANNOT be used in subqueries. Q: 47 Examine the structure of the EMPLOYEES table: Column name Data type Remarks

EMPLOYEE_ID NUMBER NOT NULL, Primary Key EMP_NAME VARCHAR2(30)

JOB_ID VARCHAR2(20) NOT NULL SAL NUMBER

MGR_ID NUMBER References EMPLOYEE_ID column

DEPARTMENT_ID NUMBER Foreign key to DEPARTMENT_ID column of the DEPARTMENTS table

You need to create a view called EMP_VU that allows the users to insert rows through the view.

Which SQL statement, when used to create the EMP_VU view, allows the users to insert rows?

A. CREATE VIEW emp_vu AS SELECT employee_id, emp_name, department_id FROM employees

WHERE mgr_id IN (102, 120); B. CREATE VIEW emp_vu AS

SELECT employee_id, emp_name, job_id, department_id FROM employees

WHERE mgr_id IN (102, 120); C. CREATE VIEW emp_vu AS

SELECT department_id, SUM(sal) TOTALSAL FROM employees

WHERE mgr_id IN (102, 120) GROUP BY department_id; D. CREATE VIEW emp_vu AS

SELECT employee_id, emp_name, job_id, DISTINCT department_id FROM employees;

Q: 48 Evaluate this SQL statement:

e.employee_id, (.15* e.salary) + (.5 * e.commission_pct) + (s.sales_amount * (.35 * e.bonus)) AS CALC_VALUE FROM employees e, sales s

WHERE e.employee_id = s.emp_id;

What will happen if you remove all the parentheses from the calculation? A. The value displayed in the CALC_VALUE column will be lower. B. The value displayed in the CALC_VALUE column will be higher.

C. There will be no difference in the value displayed in the CALC_VALUE column. D. An error will be reported.

Q: 49 Which four are attributes of single row functions? (Choose four.)

A. cannot be nested

B. manipulate data items C. act on each row returned D. return one result per row

E. accept only one argument and return only one value

F. accept arguments which can be a column or an expression

Q: 50 Which view should a user query to display the columns associated with the constraints on a table owned by the user? A. USER_CONSTRAINTS B. USER_OBJECTS

C. ALL_CONSTRAINTS D. USER_CONS_COLUMNS E. USER_COLUMNS

Q: 51 Examine the structure of the EMPLOYEES and NEW_EMPLOYEES tables:

EMPLOYEES ___________

EMPLOYEE_ID NUMBER Primary Key FIRST_NAME VARCHAR2(25) LAST_NAME VARCHAR2(25) HIRE_DATE DATE NEW_EMPLOYEES ________________

EMPLOYEE_ID NUMBER Primary Key NAME VARCHAR2(60)

Which UPDATE statement is valid?

A. UPDATE new_employees SET name = (SELECT last_name|| first_name

FROM employees WHERE employee_id =180)

WHERE employee_id =180;

B. UPDATE new_employees SET name = (SELECT last_name||first_name FROM employees )

WHERE employee_id =180;

C. UPDATE new_employees SET name = (SELECT last_name || first_name

FROM employees WHERE employee_id =180)

WHERE employee_id =(SELECT employee_id FROM new_employees);

D. UPDATE new_employees SET name = (SELECT last_name||

first_name

FROM employees

WHERE employee_id = (SELECT employee_id FROM new_employees)) WHERE employee_id =180;

Q: 52 Which two statements about subqueries are true? (Choose two.) A. A subquery should retrieve only one row. B. A subquery can retrieve zero or more rows.

C. A subquery can be used only in SQL query statements. D. Subqueries CANNOT be nested by more than two levels.

E. A subquery CANNOT be used in an SQL query statement that uses group functions.

F. When a subquery is used with an inequality comparison operator in the outer SQL statement, the column

list in the SELECT clause of the subquery should contain only one column.

Q: 53 You need to modify the STUDENTS table to add a primary key on the STUDENT_ID column. The table is currently empty. Which statement accomplishes this task? A. ALTER TABLE students

ADD PRIMARY KEY student_id; B. ALTER TABLE students

ADD CONSTRAINT PRIMARY KEY (student_id); C. ALTER TABLE students

ADD CONSTRAINT stud_id_pk PRIMARY KEY student_id; D. ALTER TABLE students

ADD CONSTRAINT stud_id_pk PRIMARY KEY (student_id); E. ALTER TABLE students

MODIFY CONSTRAINT stud_id_pk PRIMARY KEY (student_id); Q: 54 You need to change the definition of an existing table. The

COMMERCIALS table needs its DESCRIPTION column changed to hold varying length characters up

to 1000 bytes. The column can currently hold 500 bytes per value. The table contains 20000 rows. Which statement is valid?

A. ALTER TABLE commercials

MODIFY (description CHAR2(1000)); B. ALTER TABLE commercials

CHANGE (description CHAR2(1000)); C. ALTER TABLE commercials

CHANGE (description VARCHAR2(1000)); D. ALTER TABLE commercials

MODIFY (description VARCHAR2(1000));

E. You cannot increase the size of a column if the table has rows. Q: 55 In which case would you use a FULL OUTER JOIN? A. Both tables have NULL values.

B. You want all unmatched data from one table. C. You want all matched data from both tables. D. You want all unmatched data from both tables. E. One of the tables has more data than the other.

F. You want all matched and unmatched data from only one table. Q: 56 Which are DML statements? (Choose all that apply.) A. COMMIT B. MERGE C. UPDATE D. DELETE E. CREATE F. DROP...

Q: 57 Examine the description of the EMPLOYEES table: EMP_ID NUMBER(4) NOT NULL LAST_ NAME VARCHAR2(30) NOT NULL FIRST_NAME VARCHAR2(30) DEPT_ID NUMBER(2) JOB_CAT VARCHAR2(30) SALARY NUMBER(8,2)

Which statement shows the department ID, minimum salary, and maximum salary paid in that

department, only if the minimum salary is less than 5000 and maximum salary is more than 15000?

A. SELECT dept_id, MIN(salary), MAX(salary) FROM employees

WHERE MIN(salary) < 5000 AND MAX(salary) > 15000; B. SELECT dept_id, MIN(salary), MAX(salary) FROM employees

WHERE MIN(salary) < 5000 AND MAX(salary) > 15000 GROUP BY dept_id;

C. SELECT dept_id, MIN(salary), MAX(salary) FROM employees

HAVING MIN(salary) < 5000 AND MAX(salary) > 15000; D. SELECT dept_id, MIN(salary), MAX(salary) FROM employees GROUP BY dept_id

HAVING MIN(salary) < 5000 AND MAX(salary) > 15000;

E. SELECT dept_id, MIN(salary), MAX(salary) FROM employees

GROUP BY dept_id, salary

HAVING MIN(salary) < 5000 AND MAX(salary) > 15000;

Q: 58 Which four statements correctly describe functions that are available in SQL? (Choose four.)

A. INSTR returns the numeric position of a named character.

B. NVL2 returns the first non-null expression in the expression list.

C. TRUNCATE rounds the column, expression, or value to n decimal places. D. DECODE translates an expression after comparing it to each search value. E. TRIM trims the heading or trailing characters (or both) from a character string. F. NVL compares two expressions and returns null if they are equal, or the first expression if they are not equal.

G. NULLIF compares two expressions and returns null if they are equal, or the first expression if they are not equal.

Q: 59 Which iSQL*Plus feature can be used to replace values in the WHERE clause?

A. substitution variables B. replacement variables C. prompt variables

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D. instead-of variables

E. This feature cannot be implemented through iSQL*Plus. Q: 60 Which is an iSQL*Plus command? A. INSERT B. UPDATE C. SELECT D. DESCRIBE E. DELETE F. RENAME

Q: 61 The EMP table contains these columns: EMPLOYEE_ID NUMBER(4) EMPNAME VARCHAR2 (25) SALARY NUMBER(9,2) HIRE_DATE DATE

You query the database with this SQL statement: SELECT empname,hire_date HIREDATE, salary FROM EMP

ORDER BY hire_date;

How will the results be sorted? A. randomly

B. ascending by date C. descending by date

D. ascending alphabetically E. descending alphabetically

Answer: B

Q: 62 Click the Exhibit button and examine the data from the ORDERS and CUSTOMERS tables.

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Evaluate the SQL statement: SELECT * FROM orders

WHERE cust_id = (SELECT cust_id FROM customers

WHERE cust_name = 'Smith');

What is the result when the query is executed? Q: 63 What is true about updates through a view? A. You cannot update a view with group functions.

B. When you update a view group functions are automatically computed.

C. When you update a view only the constraints on the underlying table will be in effect.

D. When you update a view the constraints on the views always override the constraints on the underlying tables.

Q: 64 What does the FORCE option for creating a view do? A. creates a view with constraints

B. creates a view even if the underlying parent table has constraints C. creates a view in another schema even if you don't have privileges D. creates a view regardless of whether or not the base tables exist Q: 65 The EMPLOYEES table contains these columns: EMPLOYEE_ID NUMBER(4) LAST_NAME VARCHAR2 (25) JOB_ID VARCHAR2(10)

You want to search for strings that contain 'SA_' in the JOB_ID column. Which SQL statement do you use?

A. SELECT employee_id, last_name, job_id FROM employees

WHERE job_id LIKE '%SA\\_%' ESCAPE '\\'; B. SELECT employee_id, last_name, job_id FROM employees

WHERE job_id LIKE '%SA_';

C. SELECT employee_id, last_name, job_id FROM employees

WHERE job_id LIKE '%SA_' ESCAPE \D. SELECT employee_id, last_name, job_id FROM employees

WHERE job_id = '%SA_';

Q: 66 Examine the structure of the EMPLOYEES table: EMPLOYEE_ID NUMBER NOT NULL EMP_NAME VARCHAR2(30)

JOB_ID VARCHAR2(20) DEFAULT 'SA_REP' SAL NUMBER

COMM_PCT NUMBER MGR_ID NUMBER

DEPARTMENT_ID NUMBER

You need to update the records of employees 103 and 115. The UPDATE statement you specify should

update the rows with the values specified below:

JOB_ID: Default value specified for this column definition. SAL: Maximum salary earned for the job ID SA_REP.

COMM_PCT: Default value specified for this commission percentage column, if any.

If no default value is specified for the column, the value should be NULL.

DEPARTMENT_ID: Supplied by the user during run time through substitution variable.

Which UPDATE statement meets the requirements? A. UPDATE employees SET job_id = DEFAULT

AND Sal = (SELECT MAX(sal) FROM employees

WHERE job_id = 'SA_REP') AND comm_pct = DEFAULT AND department_id = &did

WHERE employee_id IN (103,115); B. UPDATE employees SET job_id = DEFAULT AND Sal = MAX(sal)

AND comm_pct = DEFAULT OR NULL AND department_id = &did

WHERE employee_id IN (103,115) AND job_id = 'SA_REP';

C. UPDATE employeesC.UPDATE employees SET job_id = DEFAULT, Sal = (SELECT MAX(sal) FROM employees

WHERE job_id = 'SA_REP'), comm_pct = DEFAULT, department_id = &did

WHERE employee_id IN (103,115);

D. UPDATE employeesD.UPDATE employees

SET job_id = DEFAULT, Sal = MAX(sal),

comm_pct = DEFAULT, department_id = &did

WHERE employee_id IN (103,115) AND job_id = 'SA_REP'; E. UPDATE employees SET job_id = DEFAULT, Sal = (SELECT MAX(sal) FROM employees

WHERE job_id = 'SA_REP'),

comm_pct = DEFAULT OR NULL,

department_id = &did

WHERE employee_id IN (103,115);

Q: 67 Click the Exhibit button to examine the structures of the EMPLOYEES and

TAX tables.

You need to find the percentage tax applicable for each employee. Which SQL statement would you use?

A. SELECT employee_id, salary, tax_percent FROM employees e JOIN tax t

ON e.salary BETWEEN t.min_salary AND t.max_salary; B. SELECT employee_id, salary, tax_percent FROM employees e JOIN tax t

WHERE e.salary > t.min_salary AND < t.max_salary; C. SELECT employee_id, salary, tax_percent FROM employees e JOIN tax t ON (MIN(e.salary) = t.min_salary AND MAX(e.salary) = t.max_salary);

D. You cannot find the information because there is no common column between the two tables.

Q: 68 Examine the description of the CUSTOMERS table: CUSTOMER_ID NUMBER(4) NOT NULL

CUSTOMER_NAME VARCHAR2(100) NOT NULL STREET_ADDRESS VARCHAR2(150) CITY_ADDRESS VARCHAR2(50) STATE_ADDRESS VARCHAR2(50)

PROVINCE_ADDRESS VARCHAR2(50) COUNTRY_ADDRESS VARCHAR2(50) POSTAL_CODE VARCHAR2(12)

CUSTOMER_PHONE VARCHAR2(20)

The CUSTOMER_ID column is the primary key for the table.

Which statement returns the city address and the number of customers in the cities Los Angeles or San

Francisco?

A. SELECT city_address, COUNT(*) FROM customers

WHERE city_address IN ('Los Angeles', 'San Francisco'); B. SELECT city_address, COUNT(*) FROM customers

WHERE city_address IN ('Los Angeles', 'San Francisco') GROUP BY city_address;

C. SELECT city_address, COUNT(customer_id) FROM customers

WHERE city_address IN ('Los Angeles', 'San Francisco') GROUP BY city_address, customer_id;

D. SELECT city_address, COUNT(customer_id) FROM customers

GROUP BY city_address IN ('Los Angeles', 'San Francisco');

Q: 69 You need to perform certain data manipulation operations through a view called EMP_DEPT_VU, which you previously created. You want to look at the definition of the view (the

SELECT statement on which the view was created.) How do you obtain the definition of the view?

A. Use the DESCRIBE command on the EMP_DEPT_VU view. B. Use the DEFINE VIEW command on the EMP_DEPT_VU view. C. Use the DESCRIBE VIEW command on the EMP_DEPT_VU view.

D. Query the USER_VIEWS data dictionary view to search for the EMP_DEPT_VU view.

E. Query the USER_SOURCE data dictionary view to search for the EMP_DEPT_VU view.

F. Query the USER_OBJECTS data dictionary view to search for the EMP_DEPT_VU view.

Q: 70 Examine the structure of the EMPLOYEES table: EMPLOYEE_ID NUMBER NOT NULL EMP_NAME VARCHAR2(30) JOB_ID VARCHAR2(20) SAL NUMBER

MGR_ID NUMBER

DEPARTMENT_ID NUMBER

You want to create a SQL script file that contains an INSERT statement. When the script is run, the

INSERT statement should insert a row with the specified values into the EMPLOYEES table. The

INSERT statement should pass values to the table columns as specified below: EMPLOYEE_ID: Next value from the sequence EMP_ID_SEQ

EMP_NAME and JOB_ID: As specified by the user during run time, through substitution variables

SAL: 2000

MGR_ID: No value

DEPARTMENT_ID: Supplied by the user during run time through substitution variable. The INSERT statement should fail if the user supplies a value other than 20 or 50.

Which INSERT statement meets the above requirements? A. INSERT INTO employees

VALUES (emp_id_seq.NEXTVAL, '&ename', '&jobid', 2000, NULL, &did); B. INSERT INTO employees

VALUES (emp_id_seq.NEXTVAL, '&ename', '&jobid', 2000, NULL, &did IN (20,50)); C. INSERT INTO (SELECT * FROM employees

WHERE department_id IN (20,50))

VALUES (emp_id_seq.NEXTVAL, '&ename', '&jobid', 2000, NULL, &did); D. INSERT INTO (SELECT * FROM employees

WHERE department_id IN (20,50) WITH CHECK OPTION)

VALUES (emp_id_seq.NEXTVAL, '&ename', '&jobid', 2000, NULL, &did);

E. INSERT INTO (SELECT * FROM employees

WHERE (department_id = 20 AND department_id = 50)

WITH CHECK OPTION )

VALUES (emp_id_seq.NEXTVAL, '&ename', '&jobid', 2000, NULL, &did);

Q: 71 Which three are DATETIME data types that can be used when specifying column definitions? (Choose three.) A. TIMESTAMP

B. INTERVAL MONTH TO DAY C. INTERVAL DAY TO SECOND D. INTERVAL YEAR TO MONTH

E. TIMESTAMP WITH DATABASE TIMEZONE

Q: 72 Examine the structure of the EMPLOYEES table: EMPLOYEE_ID NUMBER NOT NULL, Primary Key EMP_NAME VARCHAR2(30) JOB_ID NUMBER SAL NUMBER

MGR_ID NUMBER References EMPLOYEE_ID column

DEPARTMENT_ID NUMBER Foreign key to DEPARTMENT_ID column of the DEPARTMENTS table

You created a sequence called EMP_ID_SEQ in order to populate sequential values for the

EMPLOYEE_ID column of the EMPLOYEES table.

Which two statements regarding the EMP_ID_SEQ sequence are true? (Choose two.)

A. You cannot use the EMP_ID_SEQ sequence to populate the JOB_ID column.

B. The EMP_ID_SEQ sequence is invalidated when you modify the EMPLOYEE_ID column.

C. The EMP_ID_SEQ sequence is not affected by modifications to the EMPLOYEES table.

D. Any other column of NUMBER data type in your schema can use the EMP_ID_SEQ sequence.

E. The EMP_ID_SEQ sequence is dropped automatically when you drop the EMPLOYEES table.

F. The EMP_ID_SEQ sequence is dropped automatically when you drop the EMPLOYEE_ID column.

Q: 73 Examine the structure of the EMPLOYEES table: EMPLOYEE_ID NUMBER Primary Key FIRST_NAME VARCHAR2(25) LAST_NAME VARCHAR2(25) HIRE_DATE DATE

You issue these statements:

CREATE table new_emp ( employee_id NUMBER, name VARCHAR2(30)); INSERT INTO new_emp SELECT employee_id , last_name from employees; Savepoint s1;

UPDATE new_emp set name = UPPER(name); Savepoint s2;

Delete from new_emp; Rollback to s2;

Delete from new_emp where employee_id =180; UPDATE new_emp set name = 'James'; Rollback to s2;

UPDATE new_emp set name = 'James' WHERE employee_id =180; Rollback;

At the end of this transaction, what is true? A. You have no rows in the table.

B. You have an employee with the name of James.

C. You cannot roll back to the same savepoint more than once.

D. Your last update fails to update any rows because employee ID 180 was already deleted.

Q: 74 Which two tasks can you perform using only the TO_CHAR function? (Choose two.)

A. convert 10 to 'TEN' B. convert '10' to 10 C. convert 10 to '10' D. convert 'TEN' to 10

E. convert a date to a character expression

F. convert a character expression to a date

Q: 75 You need to create a table named ORDERS that contains four columns: 1. an ORDER_ID column of number data type 2. a CUSTOMER_ID column of number data type

3. an ORDER_STATUS column that contains a character data type 4. a DATE_ORDERED column to contain the date the order was placed

When a row is inserted into the table, if no value is provided when the order was placed, today's date should be used instead.

Which statement accomplishes this? A. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8), order_status VARCHAR2 (10), date_ordered DATE = SYSDATE); B. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8), order_status VARCHAR2 (10),

date_ordered DATE DEFAULT SYSDATE); C. CREATE OR REPLACE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8), order_status VARCHAR2 (10),

date_ordered DATE DEFAULT SYSDATE); D. CREATE OR REPLACE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8), order_status VARCHAR2 (10), date_ordered DATE = SYSDATE); E. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8), order_status NUMBER (10),

date_ordered DATE = SYSDATE);

F. CREATE TABLE orders ( order_id NUMBER(10), customer_id NUMBER(8), order_status NUMBER (10),

date_ordered DATE DEFAULT SYSDATE);

Q: 76 In which three cases would you use the USING clause? (Choose three.) A. You want to create a nonequijoin.

B. The tables to be joined have multiple NULL columns.

C. The tables to be joined have columns of the same name and different data types.

D. The tables to be joined have columns with the same name and compatible data types.

E. You want to use a NATURAL join, but you want to restrict the number of columns in the join condition.

Q: 77 The EMP table contains these columns: LAST_NAME VARCHAR2 (25) SALARY NUMBER (6,2)

DEPARTMENT_ID NUMBER (6)

You need to display the employees who have not been assigned to any department. You write the SELECT statement:

SELECT LAST_NAME, SALARY, DEPARTMENT_ID FROM EMP

WHERE DEPARTMENT_ID = NULL; What is true about this SQL statement ?

A. The SQL statement displays the desired results.

B. The column in the WHERE clause should be changed to display the desired results. C. The operator in the WHERE clause should be changed to display the desired results.

D. The WHERE clause should be changed to use an outer join to display the desired results.

Q: 78 Examine the SQL statement that creates ORDERS table: CREATE TABLE orders

(SER_NO NUMBER UNIQUE, ORDER_ID NUMBER,

ORDER_DATE DATE NOT NULL, STATUS VARCHAR2(10)

CHECK (status IN ('CREDIT', 'CASH')), PROD_ID NUMBER

REFERENCES PRODUCTS(PRODUCT_ID), ORD_TOTAL NUMBER,

PRIMARY KEY (order_id, order_date));

For which columns would an index be automatically created when you execute the above SQL statement? (Choose two.) A. SER_NO B. ORDER_ID C. STATUS D. PROD_ID E. ORD_TOTAL

F. composite index on ORDER_ID and ORDER_DATE Q: 79 Examine the description of the MARKS table: STD_ID NUMBER(4)

STUDENT_NAME VARCHAR2(30)

SUBJ1 NUMBER(3) SUBJ2 NUMBER(3)

SUBJ1 and SUBJ2 indicate the marks obtained by a student in two subjects. Examine this SELECT statement based on the MARKS table: SELECT subj1+subj2 total_marks, std_id FROM marks

WHERE subj1 > AVG(subj1) AND subj2 > AVG(subj2) ORDER BY total_marks;

What is the result of the SELECT statement?

A. The statement executes successfully and returns the student ID and sum of all marks for each student who

obtained more than the average mark in each subject. B. The statement returns an error at the SELECT clause. C. The statement returns an error at the WHERE clause. D. The statement returns an error at the ORDER BY clause. Q: 80 The CUSTOMERS table has these columns: CUSTOMER_ID NUMBER(4) NOT NULL

CUSTOMER_NAME VARCHAR2(100) NOT NULL CUSTOMER_ADDRESS VARCHAR2(150) CUSTOMER_PHONE VARCHAR2(20)

You need to produce output that states \customer_name data

values come from the CUSTOMER_NAME column in the CUSTOMERS table. Which statement

produces this output?

A. SELECT dear customer, customer_name, FROM customers;

B. SELECT \FROM customers;

C. SELECT 'Dear Customer ' || customer_name ',' FROM customers;

D. SELECT 'Dear Customer ' || customer_name || ',' FROM customers;

E. SELECT \FROM customers;

F. SELECT 'Dear Customer ' || customer_name || ',' || FROM customers;

Q: 81 Examine the description of the STUDENTS table: STD_ID NUMBER(4)

COURSE_ID VARCHAR2(10) START_DATE DATE END_DATE DATE

Which two aggregate functions are valid on the START_DATE column? (Choose two.)

A. SUM(start_date) B. AVG(start_date) C. COUNT(start_date)

D. AVG(start_date, end_date) E. MIN(start_date)

F. MAXIMUM(start_date)

Q: 82 Click the Exhibit button and examine the data in the EMPLOYEES table. On the EMPLOYEES table, EMPLOYEE_ID is the primary key. MGR_ID is the ID of managers and

refers to the EMPLOYEE_ID. The JOB_ID column is a NOT NULL column. Evaluate this DELETE statement: DELETE employee_id, salary, job_id FROM employees

WHERE dept_id = 90;

Why does the DELETE statement fail when you execute it? A. There is no row with dept_id 90 in the EMPLOYEES table.

B. You cannot delete the JOB_ID column because it is a NOT NULL column. C. You cannot specify column names in the DELETE clause of the DELETE statement.

D. You cannot delete the EMPLOYEE_ID column because it is the primary key of the table.

Q: 83 Which three statements about subqueries are true? (Choose three.) A. A single row subquery can retrieve only one column and one row. B. A single row subquery can retrieve only one row but many columns.

C. A multiple row subquery can retrieve multiple rows and multiple columns. D. A multiple row subquery can be compared using the \E. A single row subquery can use the IN operator. F. A multiple row subquery can use the \

Q: 84 Examine the description of the EMPLOYEES table: EMP_ID NUMBER(4) NOT NULL

LAST_NAME VARCHAR2(30) NOT NULL FIRST_NAME VARCHAR2(30) DEPT_ID NUMBER(2)

Which statement produces the number of different departments that have employees with last name Smith?

A. SELECT COUNT(*) FROM employees

WHERE last_name='Smith'; B. SELECT COUNT(dept_id) FROM employees

WHERE last_name='Smith';

C. SELECT DISTINCT(COUNT(dept_id)) FROM employees

WHERE last_name='Smith';

D. SELECT COUNT(DISTINCT dept_id) FROM employees

WHERE last_name='Smith'; E. SELECT UNIQUE(dept_id) FROM employees

WHERE last_name='Smith';

Q: 85 Which view should a user query to display the columns associated with the constraints on a table owned by the user? A. USER_CONSTRAINTS B. USER_OBJECTS

C. ALL_CONSTRAINTS D. USER_CONS_COLUMNS E. USER_COLUMNS

Q: 86 You need to design a student registration database that contains several tables storing academic information.

The STUDENTS table stores information about a student. The STUDENT_GRADES table stores

information about the student's grades. Both of the tables have a column named STUDENT_ID. The

STUDENT_ID column in the STUDENTS table is a primary key. You need to create a foreign key on the STUDENT_ID column of the STUDENT_GRADES table that

points to the STUDENT_ID column of the STUDENTS table. Which statement creates the foreign key?

A. CREATE TABLE student_grades (student_id NUMBER(12), semester_end DATE, gpa NUMBER(4,3),

CONSTRAINT student_id_fk REFERENCES (student_id) FOREIGN KEY students(student_id)); B. CREATE TABLE student_grades (student_id NUMBER(12), semester_end DATE, gpa NUMBER(4,3),

student_id_fk FOREIGN KEY (student_id) REFERENCES students(student_id)); C. CREATE TABLE student_grades (student_id NUMBER(12), semester_end DATE, gpa NUMBER(4,3),

CONSTRAINT FOREIGN KEY (student_id) REFERENCES students(student_id)); D. CREATE TABLE student_grades

(student_id NUMBER(12), semester_end DATE, gpa NUMBER(4,3),

CONSTRAINT student_id_fk FOREIGN KEY (student_id) REFERENCES students(student_id));

Q: 87 Click the Exhibit button and examine the data in the EMPLOYEES and DEPARTMENTS tables.

You want to retrieve all employees, whether or not they have matching departments in the departments table. Which query would you use? A. SELECT last_name, department_name

FROM employees NATURAL JOIN departments; B. SELECT last_name, department_name FROM employees JOIN departments ; C. SELECT last_name, department_name FROM employees e JOIN departments d ON (e.department_id = d.department_id); D. SELECT last_name, department_name FROM employees e

RIGHT OUTER JOIN departments d ON (e.department_id = d.department_id); E. SELECT last_name, department_name FROM employees FULL JOIN departments ON (e.department_id = d.department_id); F. SELECT last_name, department_name FROM employees e LEFT OUTER

JOIN departments d ON (e.department_id = d.department_id); Q: 88 Evaluate the set of SQL statements: CREATE TABLE dept (deptno NUMBER(2), dname VARCHAR2(14), loc VARCHAR2(13)); ROLLBACK; DESCRIBE DEPT

What is true about the set?

A. The DESCRIBE DEPT statement displays the structure of the DEPT table.

B. The ROLLBACK statement frees the storage space occupied by the DEPT table. C. The DESCRIBE DEPT statement returns an error ORA-04043: object DEPT does not exist.

D. The DESCRIBE DEPT statement displays the structure of the DEPT table only if there is a COMMIT

statement introduced before the ROLLBACK statement. Q: 89 Evaluate the SQL statement: TRUNCATE TABLE DEPT;

Which three are true about the SQL statement? (Choose three.)

A. It releases the storage space used by the table.

B. It does not release the storage space used by the table.

C. You can roll back the deletion of rows after the statement executes.

D. You can NOT roll back the deletion of rows after the statement executes.

E. An attempt to use DESCRIBE on the DEPT table after the TRUNCATE statement executes will display an error.

F. You must be the owner of the table or have DELETE ANY TABLE system privileges to truncate the DEPT table.

Q: 90 For which two actions can you use the TO_DATE function? (Choose two.) A. convert any date literal to a date B. convert any numeric literal to a date C. convert any date to a character literal D. format 'January 10 1999' for input

E. format '10-JAN-99' to 'January 10 1999'

Q: 91 Click the Exhibit button to examine the data of the EMPLOYEES table. Evaluate this SQL statement:

SELECT e.employee_id \m.employee_id \FROM employees e JOIN employees m ON (e.mgr_id = m.employee_id) AND e.salary > 4000; What is its output?

Q: 92 A subquery can be used to ___. A. create groups of data

B. sort data in a specific order

C. convert data to a different format

D. retrieve data based on an unknown condition

Q: 93 In which scenario would an index be most useful? A. The indexed column is declared as NOT NULL. B. The indexed columns are used in the FROM clause. C. The indexed columns are part of an expression.

D. The indexed column contains a wide range of values.

Q: 94 Which SQL statement displays the date March 19, 2001 in a format that appears as \A. SELECT

TO_CHAR(TO_DATE('19-Mar-2001', 'DD-Mon-YYYY'), 'fmDdspth \FROM dual; B. SELECT

TO_CHAR(TO_DATE('19-Mar-2001', 'DD-Mon-YYYY'), 'Ddspth \FROM dual;

C. SELECT

TO_CHAR(TO_DATE('19-Mar-2001', 'DD-Mon-YYYY'), 'fmDdspth \YYYY HH:MI:SS AM') NEW_DATE FROM dual; D. SELECT

TO_CHAR(TO_DATE('19-Mar-2001', 'DD-Mon-YYYY'), 'fmtDdspth \YYYY fmtHH:MI:SS AM') NEW_DATE FROM dual;

Q: 95 Evaluate the SQL statement:

SELECT ROUND(TRUNC(MOD(1600,10),-1),2) FROM dual;

What will be displayed? A. 0 B. 1 C. 0.00

D. an error statement

Q: 96 Which three statements correctly describe the functions and use of constraints? (Choose three.)

A. Constraints provide data independence. B. Constraints make complex queries easy. C. Constraints enforce rules at the view level. D. Constraints enforce rules at the table level.

E. Constraints prevent the deletion of a table if there are dependencies. F. Constraints prevent the deletion of an index if there are dependencies. Q: 97 Evaluate this SQL statement: SELECT ename, sal, 12*sal+100 FROM emp;

The SAL column stores the monthly salary of the employee. Which change must be made to the above

syntax to calculate the annual compensation as \bonus of $100, multiplied by 12\

A. No change is required to achieve the desired results. B. SELECT ename, sal, 12*(sal+100) FROM emp;

C. SELECT ename, sal, (12*sal)+100 FROM emp;

D. SELECT ename, sal+100,*12 FROM emp;

Q: 98 Click the Exhibit button and examine the data from the EMP table. The COMMISSION column shows the monthly commission earned by the employee.

Which two tasks would require subqueries or joins in order to be performed in a single step? (Choose two.)

A. listing the employees who earn the same amount of commission as employee 3 B. finding the total commission earned by the employees in department 10

C. finding the number of employees who earn a commission that is higher than the average commission of the company

D. listing the departments whose average commission is more than 600

E. listing the employees who do not earn commission and who are working for department 20 in descending order of the employee ID

F. listing the employees whose annual commission is more than 6000

Q: 99 Click the Exhibit button and examine the data from the ORDERS and CUSTOMERS tables.

Which SQL statement retrieves the order ID, customer ID, and order total for the orders that are placed

on the same day that Martin placed his orders? A. SELECT ord_id, cust_id, ord_total FROM orders, customers WHERE cust_name='Martin'

AND ord_date IN ('18-JUL-2000','21-JUL-2000'); B. SELECT ord_id, cust_id, ord_total FROM orders

WHERE ord_date IN (SELECT ord_date FROM orders

WHERE cust_id = (SELECT cust_id FROM customers WHERE cust_name = 'Martin'));

C. SELECT ord_id, cust_id, ord_total FROM orders

WHERE ord_date IN (SELECT ord_date FROM orders, customers

WHERE cust_name = 'Martin');

D. SELECT ord_id, cust_id, ord_total FROM orders

WHERE cust_id IN (SELECT cust_id FROM customers

WHERE cust_name = 'Martin');

Q: 100 What are two reasons to create synonyms? (Choose two.) A. You have too many tables. B. Your tables are too long.

C. Your tables have difficult names.

D. You want to work on your own tables. E. You want to use another schema's tables. F. You have too many columns in your tables.

Q: 101 Which SQL statement generates the alias Annual Salary for the calculated

column SALARY*12?

A. SELECT ename, salary*12 'Annual Salary' FROM employees;

B. SELECT ename, salary*12 \FROM employees;

C. SELECT ename, salary*12 AS Annual Salary FROM employees;

D. SELECT ename, salary*12 AS INITCAP(\FROM employees

Q: 102 A SELECT statement can be used to perform these three functions: 1. Choose rows from a table. 2. Choose columns from a table.

3. Bring together data that is stored in different tables by creating a link between them.

Which set of keywords describes these capabilities? A. difference, projection, join B. selection, projection, join C. selection, intersection, join D. intersection, projection, join E. difference, projection, product

Q: 103 The STUDENT_GRADES table has these columns: STUDENT_ID NUMBER(12) SEMESTER_END DATE GPA NUMBER(4,3)

The registrar requested a report listing the students' grade point averages (GPA) sorted from highest

grade point average to lowest.

Which statement produces a report that displays the student ID and GPA in the sorted order requested by the registrar?

A. SELECT student_id, gpa FROM student_grades ORDER BY gpa ASC; B. SELECT student_id, gpa FROM student_grades

SORT ORDER BY gpa ASC; C. SELECT student_id, gpa FROM student_grades SORT ORDER BY gpa;

D. SELECT student_id, gpa FROM student_grades ORDER BY gpa;

E. SELECT student_id, gpa FROM student_grades

SORT ORDER BY gpa DESC; F. SELECT student_id, gpa FROM student_grades ORDER BY gpa DESC;

Q: 104 Examine the structure of the EMPLOYEES and DEPARTMENTS tables:

EMPLOYEES

EMPLOYEE_ID NUMBER DEPARTMENT_ID NUMBER MANAGER_ID NUMBER

LAST_NAME VARCHAR2(25) DEPARTMENTS

DEPARTMENT_ID NUMBER MANAGER_ID NUMBER

DEPARTMENT_NAME VARCHAR2(35) LOCATION_ID NUMBER

You want to create a report displaying employee last names, department names, and locations. Which query should you use?

A. SELECT e.last_name, d. department_name, d.location_id FROM employees e NATURAL JOIN departments D USING department_id ;

B. SELECT last_name, department_name, location_id FROM employees NATURAL JOIN departments WHERE e.department_id =d.department_id;

C. SELECT e.last_name, d.department_name, d.location_id FROM employees e NATURAL JOIN departments d;

D. SELECT e.last_name, d.department_name, d.location_id FROM employees e JOIN departments d USING (department_id );

Q: 105 Examine the structure of the EMPLOYEES table: EMPLOYEE_ID NUMBER Primary Key FIRST_NAME VARCHAR2(25) LAST_NAME VARCHAR2(25) HIRE_DATE DATE

Which UPDATE statement is valid? A. UPDATE employees SET first_name = 'John' SET last_name ='Smith'

WHERE employee_id = 180; B. UPDATE employees SET first_name = 'John', SET last_name ='Smith'

WHERE employee_id = 180; C. UPDATE employees SET first_name = 'John' AND last_name ='Smith' WHERE employee_id = 180; D. UPDATE employees

SET first_name = 'John', last_name ='Smith' WHERE employee_id = 180;

Q: 106 Which three are DATETIME data types that can be used when specifying column definitions? (Choose three.) A. TIMESTAMP

B. INTERVAL MONTH TO DAY C. INTERVAL DAY TO SECOND D. INTERVAL YEAR TO MONTH

E. TIMESTAMP WITH DATABASE TIMEZONE

Q: 107 The STUDENT_GRADES table has these columns: STUDENT_ID NUMBER(12) SEMESTER_END DATE GPA NUMBER(4,3)

Which statement finds the highest grade point average (GPA) per semester? A. SELECT MAX(gpa) FROM student_grades

WHERE gpa IS NOT NULL; B. SELECT (gpa) FROM student_grades GROUP BY semester_end

WHERE gpa IS NOT NULL;

C. SELECT MAX(gpa) FROM student_grades

WHERE gpa IS NOT NULL GROUP BY semester_end; D. SELECT MAX(gpa) GROUP BY semester_end WHERE gpa IS NOT NULL FROM student_grades; E. SELECT MAX(gpa) FROM student_grades GROUP BY semester_end

WHERE gpa IS NOT NULL;

Q: 108 Click the Exhibit button to examine the structure of the EMPLOYEES,

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