ENGR Engineering

ENGR   1121   Computing Applications in Mechanical Engineering

0,2 Credit Hours.   0,2 Lecture Hours.   0,4 Lab Hours.

This is an introductory level computing and application course for Mechanical Engineering students. It is intended for students to develop their technical computing skill using platforms that are current and widely used in the professional world. Standard mathematical functions and applications including logical expression, data input/output, arrays, and statistical functions will be introduced. Specific mechanical engineering applications are utilized to introduces students to basic problem solving logic, flow charting, and programming.

Prerequisite(s): Minimum grade of "C" or concurrent enrollment in MATH   1441.

Cross Listing(s): ENGR   1121H.

ENGR   1121H   Computing Applications in Mechanical Engineering

0,2 Credit Hours.   0,2 Lecture Hours.   0,4 Lab Hours.

This is an introductory level computing and application course for Mechanical Engineering students. It is intended for students to develop their technical computing skill using platforms that are current and widely used in the professional world. Standard mathematical functions and applications including logical expression, data input/output, arrays, and statistical functions will be introduced. Specific mechanical engineering applications are utilized to introduces students to basic problem solving logic, flow charting, and programming.

Prerequisite(s): Minimum grade of "C" or concurrent enrollment in MATH   1441.

Cross Listing(s): ENGR   1121.

ENGR   1133   Engineering Graphics

0,3 Credit Hours.   0,2 Lecture Hours.   0,3 Lab Hours.

This course develops and improves student visualization and spatial skills, free-hand sketching, design consideration of fabrication processes, and parametric solid modeling. The interpretation of drawings, a working understanding of technical terminology and participation in group engineering activities are the major highlights of this course. It is expected that the students will gain fundamental abilities in the use of commercial solid modeling tools and techniques.

Cross Listing(s): ENGR   1133H.

ENGR   1133H   Engineering Graphics

0,3 Credit Hours.   0,2 Lecture Hours.   0,3 Lab Hours.

This course develops and improves student visualization and spatial skills, free-hand sketching, design consideration of fabrication processes, and parametric solid modeling. The interpretation of drawings, a working understanding of technical terminology and participation in group engineering activities are the major highlights of this course. It is expected that the students will gain fundamental abilities in the use of commercial solid modeling tools and techniques.

Cross Listing(s): ENGR   1133.

ENGR   1731   Computing for Engineers

0,3 Credit Hours.   0,2 Lecture Hours.   0,2 Lab Hours.

Foundations of computing with an introduction to design and analysis of algorithms and an introduction to design and construction of programs for engineering problem-solving.

Prerequisite(s): Prior or concurrent enrollment in MATH   1441.

Cross Listing(s): ENGR   1731H.

ENGR   1731H   Computing for Engineers

0,3 Credit Hours.   0,2 Lecture Hours.   0,2 Lab Hours.

Foundations of computing with an introduction to design and analysis of algorithms and an introduction to design and construction of programs for engineering problem-solving.

Prerequisite(s): MATH   1441.

Cross Listing(s): ENGR   1731.

ENGR   1732   Program Design for Engineers

3 Credit Hours.   2 Lecture Hours.   2 Lab Hours.

This course will introduce engineering students to applications for engineering problem-solving and object-oriented programming principles in Electrical and Computer Engineering using standard (ANSI) C and C++. An introduction to interfacing with FORTRAN is also given.

Prerequisite(s): A minimum grade of “C” in ENGR   1731.

Cross Listing(s): ENGR   1732H.

ENGR   1732H   Program Design for Engineers

3 Credit Hours.   2 Lecture Hours.   2 Lab Hours.

This course will introduce engineering students to applications for engineering problem-solving and object-oriented programming principles in Electrical and Computer Engineering using standard (ANSI) C and C++. An introduction to interfacing with FORTRAN is also given.

Prerequisite(s): A minimum grade of “C” in ENGR   1731.

Cross Listing(s): ENGR   1732.

ENGR   2112   Solid Modeling and Analysis

0,1 Credit Hours.   0 Lecture Hours.   0,3 Lab Hours.

Students will develop advanced proficiency using parametric solid modeling software, such as SolidWorks. In addition to creating solid models (advanced parts, advanced assemblies, surfacing, and weldments), students will develop a basic proficiency in structural analysis, flow simulation, surface modeling, NC programming, Manufacturing Constraints and Design for Additive Manufacturing.

Prerequisite(s): A minimum grade of "C" in ENGR   1133.

Cross Listing(s): ENGR   2112H.

ENGR   2112H   Solid Modeling and Analysis

0,1 Credit Hours.   0 Lecture Hours.   0,3 Lab Hours.

Students will develop advanced proficiency using parametric solid modeling software, such as SolidWorks. In addition to creating solid models (advanced parts, advanced assemblies, surfacing, and weldments), students will develop a basic proficiency in structural analysis, flow simulation, surface modeling, NC programming, manufacturing constraints and design for additive manufacturing.

Prerequisite(s): A minimum grade of "C" in ENGR   1133.

Cross Listing(s): ENGR   2112.

ENGR   2131   Electronics and Circuit Analysis

0,3 Credit Hours.   0,2 Lecture Hours.   0,2 Lab Hours.

This course introduces electric circuit elements, electronic devices, digital systems, and analysis of circuits containing such devices in order to provide students with the fundamental knowledge of electrical engineering principles and applications. Basic concepts of laboratory practice and instruments in the analysis of elementary electrical circuits will be covered in this course.

Prerequisite(s): A minimum grade of "C" in PHYS   2212 and prior or concurrent enrollment in MENG   2139.

Cross Listing(s): ENGR   2131H.

ENGR   2131H   Electronics and Circuit Analysis

0,3 Credit Hours.   0,2 Lecture Hours.   0,2 Lab Hours.

This course introduces electric circuit elements, electronic devices, digital systems, and analysis of circuits containing such devices in order to provide students with the fundamental knowledge of electrical engineering principles and applications. Basic concepts of laboratory practice and instruments in the analysis of elementary electrical circuits will be covered in this course.

Prerequisite(s): PHYS   2212 and PHYS 1114 or Permission of Instructor.

Cross Listing(s): ENGR   2131.

ENGR   2137   Introduction to Renewable Energy

0-3 Credit Hours.   0-2 Lecture Hours.   0-2 Lab Hours.

This course will serve as an introduction to Renewable Energy sources and systems basic design and operation, with environmental and socio-economic impacts considered.

Prerequisite(s): A minimum grade of "C" in CHEM   1147 or CHEM   1146.

ENGR   2231   Engineering Mechanics I

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Fundamental concepts of mechanics. Statics of particles. Moments and equivalent systems of forces on rigid bodies; equilibrium of rigid bodies. Distributed forces-controids and centers of gravity. Analysis of trusses, frames and machines. Internal normal and shearing forces, bending moments, and torque. Shear and bending moment diagrams, relations between distributed load, shear, and bending moment. Friction. Distributed forces area moments of inertia.

Prerequisite(s): MATH   2242 and PHYS   2211.

Cross Listing(s): ENGR   2231H.

ENGR   2231H   Engineering Mechanics I

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Fundamental concepts of mechanics. Statics of particles. Moments and equivalent systems of forces on rigid bodies; equilibrium of rigid bodies. Distributed forces-controids and centers of gravity. Analysis of trusses, frames and machines. Internal normal and shearing forces, bending moments, and torque. Shear and bending moment diagrams, relations between distributed load, shear, and bending moment. Friction. Distributed forces area moments of inertia.

Prerequisite(s): MATH   2242 and PHYS   2211.

Cross Listing(s): ENGR   2231.

ENGR   2232   Dynamics of Rigid Bodies

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Kinematics and dynamics of particles and rigid bodies in one, two, and three dimensions using Newton's Second Law Method, Work-Energy and Impulse-Momentum methods. Mass moments of inertia and products of inertia.

Prerequisite(s): A minimum grade of "C" in ENGR   2231.

ENGR   2323   Digital Design Lab

0,2 Credit Hours.   0,1 Lecture Hours.   0,3 Lab Hours.

Design and implementation of digital systems, including a team design project. CAD tools, project design methodologies, logic systems, and assembly language programming.

Prerequisite(s): A minimum grade of “C” in all of the following: ENGR   1732, ENGR   2332.

ENGR   2332   Introduction to Computer Engineering

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Computer systems 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.

Prerequisite(s): A minimum grade of "C" in ENGR   1731 or Equivalent.

ENGR   2334   Circuit Analysis

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

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

Prerequisite(s): A minimum grade of "C" in all of the following: PHYS   2212 or prior or current enrollement in ENGR   2341 and prior or current enrollment in MATH   3230.

ENGR   2341   Introduction to Signal Processing

0,4 Credit Hours.   0,3 Lecture Hours.   0,2 Lab Hours.

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

Prerequisite(s): A minimum grade of "C" in MATH   2242 and ENGR   1731 or Equivalent.

ENGR   2431   Creative Decisions and Design

0,3 Credit Hours.   0,2 Lecture Hours.   0,3 Lab Hours.

Fundamental techniques for creating, analyzing, synthesizing, and implementing design solutions to open-ended problems through team and individual efforts utilizing flexibility, adaptability, and creativity.

Prerequisite(s): A minimum grade of "C" in ENGR   1133 and ENGR   2231, and prior or concurrent enrollment with a minimum grade of "C" in MATH   2430.

ENGR   2890   Introductory Selected Problems in Engineering

1-3 Credit Hours.   0 Lecture Hours.   0 Lab Hours.

Individual and specialized introductory-level study in the areas of engineering projects and research not otherwise covered in the student's curriculum. This experience cannot be used as a substitute for a technical elective in the engineering curriculums.

Prerequisite(s): Identification of a problem or study area and permission of the instructor and department chair.

ENGR   3233   Mechanics of Materials

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Definition and analysis of stress and strain, mechanical properties of materials, axially loaded members, torsion of circular sections, bending of beams, transformation of stress and strain, design of beams, and buckling of columns.

Prerequisite(s): A minimum grade of "C" in ENGR   2231.

Cross Listing(s): ENGR   3233H.

ENGR   3233H   Mechanics of Materials

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Definition and analysis of stress and strain, mechanical properties of materials, axially loaded members, torsion of circular sections, bending of beams, transformation of stress and strain, design of beams, and buckling of columns.

Prerequisite(s): A minimum grade of "C" in ENGR   2231.

Cross Listing(s): ENGR   3233.

ENGR   3235   Fluid Mechanics

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

The course includes fundamentals of fluid statics and fluid dynamics for incompressible fluids, fluid properties, static and dynamic forces, Bernoulli's equation, pipe flow and losses, open channel flow and flow measurement. The course also includes methods, procedures and the use of equipment to measure standard fluid properties and phenomena.

Prerequisite(s): MATH   2243 and MATH   3230 and a minimum grade of "C" in ENGR   2231.

Cross Listing(s): ENGR   3235H.

ENGR   3235H   Fluid Mechanics Honors

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

The course includes fundamentals of fluid statics and fluid dynamics for incompressible fluids, fluid properties, static and dynamic forces, Bernoulli's equation, pipe flow and losses, open channel flow and flow measurement. The course also includes methods, procedures and the use of equipment to measure standard fluid properties and phenomena.

Prerequisite(s): MATH   2243 and MATH   3230 and a minimum grade of "C" in ENGR   2231.

Cross Listing(s): ENGR   3235.

ENGR   3310   Circuit Analysis Lab

1 Credit Hour.   0 Lecture Hours.   2 Lab Hours.

Laboratory experimentations to enhance understanding of analytical principles developed in ENGR   2334 (Circuit Analysis). Design and implementation of analog circuits (DC and AC). Proficiency with standard electronic instrumentation including multimeters, oscilloscopes, dual power supplies, and function generators. Simulation tools are used to verify experimental results.

Prerequisite(s): A minimum grade of "C" in all of the following: ENGR   2334 and prior or concurrent enrollment in EENG   3335 or permission of instructor.

ENGR   3431   Thermodynamics

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Thermodynamic properties, state postulate, work interactions, steady-state and transient energy and mass conservation, entropy and the second law. First and Second Law analysis of thermodynamic systems. Gas cycles and vapor cycles.

Prerequisite(s): A minimum grade of "C" in all of the following: PHYS   2211 and MATH   2242.

Cross Listing(s): ENGR   3431H.

ENGR   3431H   Thermodynamics Honors

3 Credit Hours.   3 Lecture Hours.   0 Lab Hours.

Thermodynamic properties, state postulate, work interactions, steady-state and transient energy and mass conservation, entropy and the second law. First and Second Law analysis of thermodynamic systems. Gas cycles and vapor cycles.

Prerequisite(s): A minimum grade of "C" in all of the following: PHYS   2211 and MATH   2242.

Cross Listing(s): ENGR   3431.