Engineering Technology Pathway Associate in Arts

If a career in STEM is your goal, the Engineering Technology Pathway as part our Associate in Arts degree can be the first step to help you get there. This pathway will provide an introduction to engineering basics coupled with technology and allow you to complete prerequisite courses for a major in engineering technology or a related field. Once you graduate, you’ll have a firm foundation to continue your education with a bachelor’s degree at Seminole State or at a state university.

Related Programs

Getting Started: Fall Term

Aug. 19:  Application


Aug. 26:  Classes Begin

Other Important Dates »

Why Seminole State?

  • Affordable tuition: Earn a state university education at about half the cost.
  • Small class sizes: With classes of 30 or less, you don’t have to learn in an auditorium.
  • Online degree option: The courses for our A.A. degree are offered in person and online, so you can study when and where you want. 
  • Seamless transition: With your A.A. degree, you can stay at Seminole State to continue your progress toward a bachelor’s degree in a high-demand field.
  • Guaranteed transfer: Earn your A.A. here, and take advantage of guaranteed admission to UCF or one of Florida’s other state universities for your bachelor’s.
  • More than 100 University Transfer Pathways: Take prerequisite courses for majors in various fields from accounting to theater.

Additional Information

Engineering Technology Pathway
Type: Associate in Arts
Major Code: ENG-AETBS
CIP: 1192401010

Program Description

Available Course Course Not Offered Spring 2025
This course covers the basic concepts of computer programming. Students use a structured approach using the Java programming language to design and program logic techniques such as iteration, initialization, conditional processing, accumulation and sequencing. Also considered are programming style and program efficiency. Logic techniques and data formats are illustrated using high level programming languages. This class utilizes classroom lecture and hands-on programming exercises. A working knowledge of the Windows PC including starting programs, saving files and copying files is required. Lab fee required.
This is a fundamental course in DC electric circuits. This course prepares students for EET 1035C and subsequent courses. Classroom lectures supplemented with laboratory projects provide students with hands-on experience in the use of electronics test equipment and proper techniques for data measurements/interpretation, troubleshooting and orderly documentation of test results and conclusions.
This is an introductory course in basic electricity intended for the engineering technology programs. It consists of the concepts, laws and definitions encountered in AC and DC electric circuits.
This course is an introduction to computer software applications involving engineering spreadsheets (Excel) and symbolic processing (MATLAB) in order to solve a variety of engineering-related problems.
This course is an introduction to the techniques of drawing for three-dimensional spatial relationships, visualization, sketching and graphical presentation. Engineering drawing, descriptive geometry and graphical solution techniques using both manual and computer methods will be emphasized. Lab fee required.
This course will introduce the student to the role of the engineer as a creative design professional. Emphasis will be on understanding the creative process and the factors that influence it. The student will participate in engineering orientation and make case studies of selected engineering fields.
The purpose of this course is to help drafting students develop the knowledge, skills and attitudes required to work at an entry-level job in such positions as CAD technician trainee, CAD system operator or CAD technician. This course is designed for students who have already received in-depth training in one or more application areas. Lab fee required. Students must complete this course with a grade of "C" or higher.
This course is an introduction to Mechanical 3D solid modeling and parametric design principles using Solidworks. Topics include various tools used to create solid models, creating multi-part assemblies and generating mechanical drawings from part and assembly models. Lab fee required.
This course will prepare the student for the field of Engineering Technology and/or related sciences. The course will focus on specialized practical knowledge related to the mathematical, scientific or technical aspects of mathematics, science and engineering. Fundamental principles of statics, co-planar and non-co-planar force systems including concurrent and non-concurrent forces will be covered. Additional focus will be placed on both friction and non-friction systems. Stress and strain evaluations on columns, beams, trusses and foundation systems will also be addressed.

ETG 2502 must be completed with a grade of "C" or higher.

This course is the first in a two-part series intended for non-physics majors, offering an algebra and trigonometry approach to topics such as kinematics, dynamics, energy, momentum, rotational motion, fluid dynamics, oscillatory motion, and waves. The course fosters analytical and critical thinking skills to promote a scientific understanding of the real world. Lab fee required. This course satisfies the General Education State Core Natural Science requirement for degree seeking students.
This course involves the practical uses of applied mathematics in the areas of engineering technology, design and construction. Trigonometric functions are covered as well as law of sines, law of cosines and basic vector mechanics.
This course is a calculus preparatory course in trigonometry with emphasis upon functions. The topics include angular measure, right triangle and unit circle trigonometry, trigonometric (circular) and inverse trigonometric functions and their graphs, trigonometric identities, conditional trigonometric equations, solution of right and oblique triangles, vectors, complex numbers in trigonometric form, applications, polar coordinates and graphs and parametric equations and graphs. The use of graphing calculators will be incorporated throughout the course.
or higher level mathematics course
This course is a study of Differential and Integral Calculus of algebraic, exponential and logarithmic functions with applications to business analysis. It is designed to provide the student of business and social sciences a course in applied calculus. This course is not intended for the student who is required to complete the calculus series.
or higher level mathematics course
In this course, students will utilize descriptive and inferential statistical methods in contextual situations, using technology as appropriate. The course is designed to increase problem-solving abilities and data interpretation through practical applications of statistical concepts. This course is appropriate for students in a wide range of disciplines and programs. Topics include descriptive statistics, probability and probability distributions, estimation, confidence intervals, hypothesis testing, two-sample inferences, and correlation and regression. This course satisfies the General Education State Core Mathematics requirement for degree seeking students and is the gateway course for majors in the Statistical Reasoning pathway. It is recommended that students without college-level math credits have completed a secondary-level course in Geometry, Algebra 2, Precalculus, Calculus, or Statistics with a grade of a “B” or higher before taking this course.
In this course, students will develop problem solving skills, critical thinking, computational proficiency, and contextual fluency through the study of limits, derivatives, and definite and indefinite integrals of functions in one variable, including algebraic, exponential, logarithmic, and trigonometric functions, and applications. Topics will include limits, continuity, differentiation and rates of change, optimization, curve sketching, and introduction to integration and area. A graphing calculator will be used throughout the course. This course satisfies the General Education State Core Mathematics requirement for degree seeking students.
or higher level mathematics course
This course is a continuation of MAC 2311. Selected topics include conics, translation and rotation of axes, techniques of integration, arc length and other applications of the definite integral, polar coordinates, indeterminate forms and improper integrals, infinite sequences and series and Taylor's Formula. A graphing calculator will be used throughout the course. Students should ask the instructor which calculator will be used.
Total Credits: 60

Gen Ed Core   Denotes that a class is a State of Florida General Education Core Course.

Beginning in the 2022-23 academic year and thereafter, students entering associate in arts, associate in science or associate in applied science, or baccalaureate degree programs must complete at least one (1) course from each of the general education subject areas listed in this section prior to the awarding of their degree. Please refer to this catalog's Graduation Requirements section for specific requirements on the General Education Core Courses .

Civic Lit   Denotes that a class counts toward the course Civic Literacy Requirement.

The State of Florida requires that all students graduating from Seminole State College of Florida and other institutions in the Florida College System (FCS), as well as from any State University System (SUS) institution, fulfill a Civic Literacy Competency requirement prior to submitting an Intent to Graduate form in the term they plan to graduate. Requirements vary based on admit term and program. Please refer to this catalog’s Graduation Requirements section for specific requirements on the Civic Literacy Proficiency Requirement.

Foreign Language Proficiency

Per Florida Statute 1007.25, "Beginning with students initially entering a Florida College System institution or state university in 2014-2015 and thereafter, coursework for an associate in arts degree shall include demonstration of competency in a foreign language." Please refer to this catalog's Graduation Requirements section for specific requirements on Foreign Language Proficiency.

Your tuition shouldn’t go against your intuition.

Your pursuit of higher education is admirable. So why struggle with high tuition in the process? Here we make life’s next steps affordable. Whether you’re seeking a university transfer (A.A.) degree, a four-year bachelor’s, an Associate in Science degree or even earning a college credit certificate, you’ll find reasonable tuition and great value. And to us, that’s scholarly.

In fact, a full-time college education at Seminole State is more than $10,000 less each year than most state universities.

Go For Less.


Tuition and Fee Comparison*

 Seminole StateUFFSUUCF
Tuition and Fees$3,131$6,380$5,666 $5,954 
Room and Board-0-$12,120
$13,474 $12,542 
Books and Supplies$1,000$1,260$1,200$1,200
Total$4,131$19,760$20,340$19,696

For more information on Seminole State's tuition and fees, please see the current fee schedule.

* Tuition costs are based on the current academic year for in-state students living on campus. Dorm fees, meal plans and book expenses are estimates based on cost of attendance information provided by the State University System of Florida. Lab fees and other fees that may be assessed at the time of registration may be viewed in the College fee schedule. As Seminole State is a commuter college with no residence halls on its campuses, costs for room and board are not calculated.