IT 240 Introduction to Databases

David Calascibetta

Office: CDM 432
Winter 2020-2021
Class number: 28117
Section number: 801
Tu 5:45PM - 9:00PM
OLSYN CH000 Online Campus
Course homepage:


This course will introduce students to the design, implementation and use of desktop databases. Major topics include: modeling using ER diagrams, creating and maintaining a database using a PC based application, compose and use queries in Structured Query Language, create and customize forms and reports, and integrate databases with other sources of data and applications.


Database Concepts, 9th Edition

Database Concepts, 9th Edition, by David M. Kroenke, David J. Auer, Scott L. Vandenberg, Robert C. Yoder. Prentice Hall, 2020. ISBN-13: 978-0-13-518814-9

eTextbook: Database Concepts, CourseSmart eTextbook, 9th Edition, ISBN-13: 978-0-13-516002-2




  • Homework: 40%
  • Midterm: 30%
  • Final Exam: 30%
  • Note: Requests for makeup midterm exams must be requested before the midterm date. Requests after the exam date will not be honored.



Learning Domain Description

IT 240 Introduction to Databases is included in the Liberal Studies program as a course with credit in the Scientific Inquiry domain. Courses in the Scientific Inquiry domain are designed to provide students with an opportunity to learn the methods of modern science and its impact on the world around us. Courses are designed to help students develop a more complete perspective about science and the scientific process, including: an understanding of the major principles guiding modern scientific thought; a comprehension of the varying approaches and aspects of science; an appreciation of the connection among the sciences; the fundamental role of mathematics in practicing science; an awareness of the roles and limitations of theories and models in interpreting, understanding, and predicting natural phenomena; and a realization of how these theories and models change or are supplanted as our knowledge increases.

Learning Domain Outcomes

  • Students will understand the major principles guiding modern scientific thought. Students will demonstrate a mastery of the science content knowledge of their SID courses.
  • Students will know that science, technology, and math serve as mechanisms for inquiry into the nature of the universe. Students will:dentify questions that can be answered through scientific investigations;
    • design and conduct a scientific investigation to test a scientific hypothesis;
    • use appropriate tools and techniques together, analyze, and interpret data to support or refute a scientific hypothesis;
    • develop descriptions, explanations, predictions, and models using evidence;
    • describe relationships between evidence and explanations using critical and logical thinking;
    • recognize and analyze alternative explanations and predictions;
    • communicate scientific procedures and explanations;
    • use mathematics in all aspects of scientific inquiry.
  • Students will understand and appreciate the interrelationships among science, technology and math. Students will:
    • use technology and mathematics to identify a problem or design a solution to a problem;
    • give examples of how science and technology inform and influence each other.
  • Students will understand and appreciate the role of science in society and in their lives. Students will:
    • Provide examples of how science and technology impact our lives, and how social needs and concerns impact our development of technology and scientific investigation;
    • develop positive attitudes towards science, technology, and mathematics;
    • establish an ongoing experiential/service-learning interest in science, technology, and mathematics.
  • Students will understand understand the nature of science, technology, and mathematics. Students will:
    • provide examples of the abuse of science, including the representation of unfalsifiable claims as science and other forms of pseudoscience;
    • explain the strengths and limits of scientific inquiry;
    • explain the difference between evidence and inference, and the ?provisional nature of scientific explanations by providing examples of how our understanding of the workings of the world has changed in the past;
    • explain the difference between evidence and inference, and the ?provisional nature of scientific explanations by providing examples of how our understanding of the workings of the world has changed in the past;

How Learning Outcomes Will Be Met:

  • identify the ubiquitous use of databases in everyday life
  • demonstrate the effects of redundancy, inconsistencies and lack of integrity when databases are poorly designed
  • apply Boolean logic, set theory, and relational algebra concepts in the construction of Structured Query Language (SQL) requests for retrieval of data
  • predict and confirm results using empirical evidence from publicly accessible data
  • create an Entity Relationship Diagram to graphically model user database requirements
  • construct and maintain a database within a domain that implements the constraints of the relational database model.

Writing Expectation

Writing is integral for communicating ideas and progress in science, mathematics and technology. The form of writing in these disciplines is different from most other fields and includes, for example, mathematical equations, computer code, figures and graphs, lab reports and journals. Courses in the SI domain must include a writing component where that component takes on the form appropriate for that course (eg, lab reports, technical reports, etc.)

How Writing Expectations Will Be Met

Students will complete a project in which they will design, create, and maintain a database system. They will write SQL commands to create and maintain the database. Assignments will contain prompts in which students will demonstrate understanding of the course material through writing.

School policies:

Changes to Syllabus

This syllabus is subject to change as necessary during the quarter. If a change occurs, it will be thoroughly addressed during class, posted under Announcements in D2L and sent via email.

Online Course Evaluations

Evaluations are a way for students to provide valuable feedback regarding their instructor and the course. Detailed feedback will enable the instructor to continuously tailor teaching methods and course content to meet the learning goals of the course and the academic needs of the students. They are a requirement of the course and are key to continue to provide you with the highest quality of teaching. The evaluations are anonymous; the instructor and administration do not track who entered what responses. A program is used to check if the student completed the evaluations, but the evaluation is completely separate from the student’s identity. Since 100% participation is our goal, students are sent periodic reminders over three weeks. Students do not receive reminders once they complete the evaluation. Students complete the evaluation online in CampusConnect.

Academic Integrity and Plagiarism

This course will be subject to the university's academic integrity policy. More information can be found at If you have any questions be sure to consult with your professor.

Academic Policies

All students are required to manage their class schedules each term in accordance with the deadlines for enrolling and withdrawing as indicated in the University Academic Calendar. Information on enrollment, withdrawal, grading and incompletes can be found at

Students with Disabilities

Students who feel they may need an accommodation based on the impact of a disability should contact the instructor privately to discuss their specific needs. All discussions will remain confidential.
To ensure that you receive the most appropriate accommodation based on your needs, contact the instructor as early as possible in the quarter (preferably within the first week of class), and make sure that you have contacted the Center for Students with Disabilities (CSD) at:
Lewis Center 1420, 25 East Jackson Blvd.
Phone number: (312)362-8002
Fax: (312)362-6544
TTY: (773)325.7296