Sample Course Plan for B.S. in Engineering Technology at ·¬ÇÑÖ±²¥app

Click here for the Engineering Curriculum Checklist and Engineering Brochure (REPP)

Specialty Courses for Engineering Majors

The REPP program usually requires more than four years to complete the degree.

ENGR 2200 Statics

Elements of statics in two- and three- dimensions; forces and moments; particles, objects, and structures in equilibrium; centroids; distributed forces and beams; friction.

ENGR 2310 Into to Signal Processing

Introduction to signal processing for discrete-time and continuous-time signals. Filtering, frequency response, Fourier Transform, Z Transform. Laboratory emphasizes computer-based signal processing.

ENGR 2500 Engineering Graphics for Design

Introduction to engineering design and three-dimensional visualization; geometric construction; graphical projection and sketching; introduction to descriptive geometry; computer graphics.

ENGR 3210 Dynamics

Kinematics and kinetics of particles; kinematics and kinetics of rigid bodies in plane motion; kinematics and kinetics of rigid bodies in three-dimensional motion.

ENGR 3220 Mechanics of Deformable Bodies

Definition and analysis of strain and stress, applications to axially loaded elements, torsion of circular shafts and bending of beams, introduction to simple plasticity and column stability.

ENGR 3320 Circuit Analysis

Introduction to the basic concepts of DC and AC circuit theory and analysis.

ENGR 2320 Intro to Computer Engineering

Computer system and digital design principles; architectural concepts, software, Boolean algebra, number systems, combinational datapath elements, sequential logic, and storage elements; design of DRAM control and I/O bus.

ENGR 4950 Directed Study

Study in an area or subject related to engineering not normally found in established courses offered by the program. May also allow student to explore in more depth an area of subject offered by the program.

ENGR 2001 Principles and Applications of Engineering Materials

A treatment of structures, properties, processing and performance of engineering materials and their relationships.

ENGR 4310 Thermodynamics

Principles of classical engineering thermodynamics which includes open and closed systems for both steady state and transient processes.