EGR 100 Engineering Technology Orientation (1 cr.) Focuses on the roles and responsibilities of the engineering team, professional ethics, problem solving with hand calculator and computer applications. Laboratory 2 hours per week.

EGR 115 Engineering Graphics (2 cr.) Applies principles of orthographic projection, and multi-view  drawings. Teaches descriptive geometry including relationships of points, lines, planes and solids. Introduces sectioning, dimensioning and computer graphic techniques. Includes instruction in Computer Aided Drafting. Lecture 1 hour. Laboratory 3 hours. Total 4 hours per week.

EGR 120 Introduction to Engineering (1 cr.) Introduces the engineering profession, professional concepts, ethics, and responsibility. Reviews hand calculators, number systems, and unit conversions. Introduces the personal computer and operating systems. Includes engineering problem solving techniques using computer software. Lecture 1 hour per week.

EGR 123 Introduction to Engineering Design (2 cr.) Introduces the fundamental knowledge and experience needed to understand the engineering design process through the basics of electrical, computer, and mechanical systems. Includes the completion of a project in which a specific electromechanical robot kit will be analyzed, assembled, and operated. Lecture 1 hour. Laboratory 2 hours. Total 3 hours per week.

EGR 126 Computer Programming for Engineers ( 3 cr.) Introduces computers, their architecture and software. Teaches program development using flowcharts. Solves engineering problems involving programming in languages such as FORTRAN, PASCAL, or C++. Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week.

EGR 127 Introduction to Computer Programming (2 cr.) Introduces programming in a higher level language such as FORTRAN, BASIC or PASCAL, or C++ on the microcomputer. Uses the operating system,  packaged software and peripheral devices. Emphasizes engineering program problem solving. Includes instruction in basic computing concepts, components, and operations and in the use of an integrated software package. Lecture 1 hour. Laboratory 2 hours. Total 3 hours per week.

EGR 135 Statics for Engineering Technology (3 cr.) Introduces Newton’s Laws, resultants and equilibrium of force systems, analysis of trusses and frames. Teaches determination of centroids, distributed loads and moments of inertia. Covers dry friction and force systems in space. Lecture 3 hours per week.

EGR 136 Strength of Materials for Engineering Technology (3 cr.) Presents concepts of stress and strain. Focuses on analysis of stresses and deformations in loaded members, connectors, shafts, beams, columns  and combined stress. Prerequisite: EGR 135. Lecture 3 hours per week.

EGR 140 Engineering Mechanics - Statics ( 3 cr.) Introduces mechanics of vector forces and space, scalar mass and time, including S.I. and U.S. customary units. Teaches equilibrium, free-body diagrams, moments, couples, distributed forces, centroids, moments of inertia analysis     of two- force and multi-force members and friction and internal forces. Lecture 3 hours per week.

EGR 190 Coordinated Internship (1 cr.) Supervises on-the- job training in selected business, industrial or service firms coordinated by the college. Credit/practice ratio not to exceed 1:5 hours.

EGR 245 Engineering Mechanics - Dynamics (3 cr.) Presents approach to kinematics of particles in linear and curvilinear motion. Includes kinematics of rigid bodies in plane motion. Teaches Newton’s second law, work-energy and power, impulse and momentum, and problem solving using computers. Lecture 3 hours per week.

EGR 246 Mechanics of Materials ( 3 cr.) Teaches concepts of stress, strain, deformation, internal equilibrium, and basic properties of engineering materials. Analyzes axial loads, torsion, bending, shear and combined  loading.  Studies stress transformation and principle stresses, column analysis and energy principles. Lecture 3 hours per week.

EGR 248 Thermodynamics for Engineering ( 3 cr.) Studies formulation of the first and second law of thermodynamics. Presents energy conversion, concepts of energy, temperature, entropy, and enthalpy, equations of state of fluids. Covers reversibility and irreversibility in processes, closed and open systems, cyclical processes and  problem solving using computers. Lecture 3 hours per week.