ENGR 1020 – Introduction to Engineering & Technology - 3 Credits

An introduction to the various fields of engineering and technology and the relationship of the engineer to the technician. Various analytical tools such as dimensional analysis, statistical and graphical analysis, and digital and analog computers are introduced along with methods of solving and presenting practical problems. (Prerequisite: Concurrent enrollment in MATH 0600 or 1700 or 1800 or 1900 or 1910 or consent of instructor) Lecture: 3 hours

ENGR 1030 – Engineering Graphics - 3 Credits

A study of the theory of orthographic projection and the principles of descriptive geometry, construction of exact drawings of three-dimensional objects including auxiliary views, cross-sections, dimensioning, pictorial drawings and free-hand sketching. Lecture: 2 hours, Lab: 3 hours

ENGR 2050 – Engineering Mechanics-Statics - 3 Credits

A basic course built around solutions and applications of Newton’s laws of forces in equilibrium. Systems of particles and rigid bodies are studied using standard scalar and vector methods. (Prerequisite: MATH 1910 or equivalent) Lecture: 4 hours

ENGR 2060 – Engineering Mechanics-Dynamics - 3 Credits

A study of the application of Newton’s law of motion, to include kinematic and kinetic studies of the motion of systems of particles and rigid bodies, acted upon by unbalanced forces. (Prerequisites: ENGR 2050 and MATH 1920) Lecture: 4 hours

ENGR 2150 – Introduction to Electrical Engineering - 3 Credits

A basic course in electrical engineering. Topics include static, electric and magnetic fields, Coulomb’s laws, capacitance and inductance, electrical charges in stationary and moving fields, electric and mechanical concepts and theorems. (Prerequisites: MATH 1910 and PHYS 1100 or equivalent) Lecture: 3 hours

ENGR 2151 – Introduction to Electrical Engineering Lab 1 Credit

Laboratory exercises to reinforce the theory learned in the Introduction to Electrical Engineering course. The use of various electronic instruments to make measurements will be an important part of the lab. (Prerequisite: Concurrent enrollment in ENGR 2150) Lab: 3 hours

ENGR 2160 – Introduction to Engineering Analysis - 2 Credits

The student will be introduced to analytical methods employed in engineering problem solving using computer software. (Prerequisite: ENGR 2050 and MATH 1920) Lecture: 3 hours

ENGR 2320 – Digital Electronics - 4 Credits

A study of logical building blocks and functional building blocks such as registers, counters, adders, D/A converters, A/D converters, decoders, encoders and multiplexers. Number systems and codes, arithmetic processes and machine logic are also studied. Input, output, memory, control and arithmetic functional units are developed using functional building-blocks. Engineering students should consult department academic advisor. (Prerequisites: MATH 1810) Lecture: 3 hours, Lab: 3 hours

ENGR 2520 – Microprocessor & Microcomputers - 4 Credits

The student will obtain a hands-on familiarization with computer and microprocessor software and hardware. Computer architecture and interfacing with input and output devices is studied. The student will develop an understanding of how the computer is used to control electronic and mechanical devices. (Prerequisite: ENGR 2320) Lecture: 3 hours, Lab: 3 hours

ENGR 2530 – Advanced Microprocessors - 4 Credits

A study of 16 bit and 32 bit microprocessors with emphasis on the 8086 series of processors. In the lab, the students will get hands on experience using computers to control electro-mechanical devices and using debuggers. (Prerequisite: ENGR 2320 and 2520 or equivalent) Lecture: 3 hours, Lab: 3 hours

ENGR 2540 – Mechanics of Materials for Engineering - 3 Credits

A basic study of the theory of stresses and strains in beams, columns and thin-walled cylinders including combined bending and direct stresses. (Prerequisites: ENGR 2050 or MEET 1510 and MATH 1810) Lecture: 3 hours

ENGR 2560 – Mechanical Engineering Laboratory - 1 Credit

A laboratory course in the theory of stresses, strains, and physical properties of engineering materials. (NOTE: For students electing ENGR 2540, Mechanics of Materials) Lab: 3 hours

ENGR 2620 – Linear Electrical Systems and Circuit Theory for Engineers - 3 Credits

A study of electrical linear circuit theorems, Kirchhoff's Laws, DC resistive networks, dependent sources, natural and forced response of first and second order circuits, sinusoidal steady-state response, A.C. power. (Prerequisite: ENGR 2150 and MATH 1920) Lecture: 4 hours

ENGR 2621 – Linear Circuits Lab -  2 Credits

D.C. measurements, natural and step response of first and second order circuits, A.C. measurements, impulse and frequency response, operations amplifiers. (Prerequisite: ENGR 2150 and concurrent enrollment in ENGR 2620) Lecture: 1 hour, Lab: 3 hours

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