Undergraduate Courses Offered

Introduction to engineering design, problem solving, and computer application skills. Orients students to college programs, academic advising, student services, professional societies, ethics, and engineering careers. A background in trigonometry is strongly recommended.

Credit(s): 2

For students concurrently enrolled in ENGR 1000. Laboratory builds skills in using the HP48G/GX calculator to solve engineering problems; the use of word processors for report writing; spreadsheets to solve engineering problems; MathCAD for engineering problem solving; an introduction to Pro Engineer for engineering design; an introduction to Access for data base management; and power point for engineering presentations. Mainly hands-on, team learning is emphasized as well as team writing and presentation skills. Students should gain an appreciation for the skills needed to solve engineering problems and prepare engineering communications.

Credit(s): 1

Students work as undergraduate research assistants under a faculty mentor. Through the course, students will learn and apply data collection, analysis, synthesis, and presentation skills specific to the research project.

Credit(s): 1

This introductory engineering course aims to help prospective and early undergraduate students to develop professional insights (e.g., professional functions, ethics) as well as strategies (e.g., time management) to succeed in their degree. The course culminates in an end-of-semester project.

Credit(s): 1

Designed for incoming female freshman engineering students. Speakers selected from practice share their knowledge and experience about the many career options available in engineering. Discussions center on ways in which women balance their professional and personal lives. Provides information and strategies for the academic and interpersonal skills needed for women to succeed in engineering. (F)

Credit(s): 1

This course covers force and position vectors; equilibrium of particles; rigid bodies; equivalent system of forces; equilibrium; free body diagrams; static analysis of trusses, frames, and machines; centroids and centers of gravity; friction; and moments of inertia.

Credit(s): 0–3

This course covers equations of motion, kinetics of particles, kinetics of rigid bodies, work and energy, impulse and momentum, three-dimensional kinematics, and vibrations.

Credit(s): 3

Stress, strain, and deflection due to axial loads; moment and torsion; shear and moment diagrams; and equations of equilibrium and compatibility.

Credit(s): 3

This course covers the study and application of DC and AC concepts, circuit fundamentals, circuit design, construction and analysis of AC/DC circuits, the use of measuring instruments, power supplies, and signal generators. It is not available for majors in ECE.

Credit(s): 0–3

Numerical analyses applied to engineering problems, including simultaneous solutions of linear and nonlinear equations, optimization, curve fitting, numerical differentiation and integration, and numerical solutions of differential equations.

Credit(s): 0–3

Lab course covering more computer software and, Math, such as Linear Programming, Fourier Series, Eigenvalues and Non-Linear Optimization.

Credit(s): 1

Independent or group student study of engineering problems not covered in regular course offerings.

Credit(s): 1–18

This course provides an on-the-job experience for students majoring in engineering technology. Positions with manufacturing, design, and technology may be available. Students are expected to meet with the instructor or internship coordinator and employer at the beginning and periodically during the course to determine and evaluate objectives, hours to be worked, and credit.

Credit(s): 1–3

Designed to meet the changing needs of students in Engineering.

Credit(s): 1–3

The goal of this course is to prepare engineering students with the foundational research, individual and collaborative technical writing, teamwork, and presentation skills necessary to be effective technical and professional communicators in academic and professional settings.

Credit(s): 3

The formulation and solution of practical or theoretical problems are addressed in a specified topic within the general field of engineering as determined by the faculty.

Credit(s): 1–3