Home » Courses » Engineering & Technology

Courses

Engineering & Technology

Electrical Engineering
  • ECE 20400 Introduction to Electrical and Electronic Circuits (4 cr.) P: or C: Physics 25100 with a minimum grade of D- if taken as a prerequisite and MATH 26100 with a minimum grade of C- if taken as a prerequisite. Students will learn basics of electrical and electronic circuits including introduction to analog and digital electronic circuits. Measurement of electrical signals using meters, probes, and oscilloscopes are covered in the laboratory component of the course. Circuits are designed for minimum hardware with emphasis on understanding analog and digital electronics with particular use of digital and analog microchips. Non-ECE majors who complete this course can continue the digital course sequence offered by the ECE department including microprocessor systems and interfacing, and digital signal processing.
Mechanical Engineering
  • ENGR 12500 FIRST-YEAR SEMINAR FOR ENGINEERING MAJORS (1 cr.) This course offers new and prospective engineering majors strategies for success in college.  Students work with an instructional team to develop the necessary skills to successfully transition to the university environment.
  • ENGR 19500 FIRST-YEAR ENGINEERNG PROJECTS (3 cr.) Selected topics in general or interdisciplinary engineering. 
  • ENGR 19600 Introduction to Engineering (3 cr.) P: or C: MATH 15400 or MATH 15900 (all with a minimum grade of D- if taken as prerequisite). An overview of the engineering profession and methodologies of engineering design. Students develop skills using computer aided design and simulation software for engineering systems. Projects and homework are implemented and tested in a laboratory environment. The course also introduces the students to standard computer application software and university network and software resources. 
  • ENGR 19700 Introduction to Programming Concepts (2 cr.) P: or C: MATH 16500 with a minimum grade of D- if taken as a prerequisite. Basic concepts and applications of software programming for solving engineering problems. Topics include techniques for developing structured algorithms, data input and output, conditional statements, loops, recursion, functions, arrays and elementary concepts in mathematical programming. Examples, homework and applications of programming concepts make extensive use of the C programming language. 
  • ENGR 29700 COMPUTER TOOLS FOR ENGINEERING (1 cr.) P: ENGR 19700 with a minimum grade of C- or ECE 26300 with a minimum grade of D-. Introduction to the use of Matlab for solving engineering problems.  Topics include computational methods, data input and output, plotting and curve fitting, functions, conditional statements, loops, and introduction to Matlab toolboxes.
  • ME 20000 Thermodynamics I (3 cr.) P: PHYS 15200 C: MATH 26100, CHEM C105, and C: ME 22501. First and second laws, entropy, reversible and irreversible processes, properties of pure substances. Applications to engineering problems.
  • ME 25001 Mechanical Engineering Laboratory II (1 cr.) C: ME 26201. Experiments on data analysis, hands-on programming with devices and  fabrication.
  • ME 26200 Engineering Design, Ethics, and Entrepreneurship (3 cr.) P: ENGR 19600 with a minimum grade of C- and admission into the IUPUC ME program. C: COMM R110, ENG W131, ENGR 29700, ME 25001, and ME 27000. Basic concepts of the design process. Innovative engineering design of real life applications. Engineering ethics topics. Fundamentals of Entrepreneurship. Design projects focus on open-ended problems. Design modeling, simulation, documentation and communication. Implementation and use of modern computer tools in solving design problems and completing team design projects in the area of Mechanical Engineering. 
  • ME 26201 Design, Ethics & Entrepreneurship (2 cr.) P: ENGR 19600 C: COMM R110, ENG W131, ENGR 29700, ME 25001, and ME 27000. Basic concepts of the design process. Innovative engineering design of real life applications. Engineering ethics topics. Fundamentals of Entrepreneurship. Design projects focus on open-ended problems. Design modeling, simulation, documentation and communication. Implementation and use of modern computer tools in solving design problems and completing team design projects in the area of Mechanical Engineering.
  • ME 27000 BASIC MECHANICS 1 (3 cr.) P: PHYS 15200 C: MATH 26100. Fundamental concepts of mechanics, force systems and couples, free body diagrams, and equilibrium of particles and rigid bodies. Distributed forces; centroids and centers of gravity of lines, areas, and volumes. Second moment of area, volumes and masses. Principal axes and principal moments of inertia. Friction and the laws of dry friction. Introduction to kinematics of particles. Application to structures and machine elements, such as bars, beams, trusses, and friction devices.
  • ME 27200 Mechanics of Materials (3 cr.) P: ME 27000. Analysis of stress and strain; equations of equilibrium and compatibility; stress-strain laws; extension, torsion, and bending of bars; membrane theory of pressure vessels; elastic stability; selected topics. Laboratory experiments include testing of mechanical properties and failure analysis.
  • ME 27400 BASIC MECHANICS 2 (3 cr.) P: ME 27000 C: MATH 26600. Kinematics of particles in rectilinear and curvilinear motion. Kinetics of particles, newton second law, energy and momentum methods. System of particles. Kinematics and plane, motion of rigid bodies, forces and accelerations, energy and momentum methods. Kinetics, equations of motion, and energy and momentum methods for rigid bodies in three-dimensional motion. Application to projectiles, gyroscopes, machine laments, and other engineering systems.
  • ME 31000 Fluid Mechanics (4 cr.) P: ME 20000, ME 27400, MATH 26600, or EEN 24000 (all with a minimum grade of C-) and admission into the IUPUC ME program. Continuum, velocity field, fluid statics, basic conservation laws for systems and control volumes, dimensional analysis. Euler and Bernoulli equations, viscous flows, boundary layer, flow in channels and around submerged bodies, and one dimensional gas dynamics. 
  • ME 31002 Fundamentals of Fluid Mechanics (3 cr.) P: ME 20000, ME 27400, MATH 26600. Continua, velocity field, fluid statics, basic conservation laws for systems and control volumes, dimensional analysis. Euler and Bernoulli equations, viscous flows, boundary layer, flow in channels and around submerged bodies, and one dimensional gas dynamics.
  • ME 31400 Heat and Mass Transfer (4 cr.) P: ME 31000 with a minimum grade of C- and admission into the IUPUC ME program. Fundamental principles of heat transfer by conduction, convection, and radiation; mass transfer by diffusion and convection. Application to engineering situations.
  • ME 31401 Fundamentals of Heat and Mass Transfer (3 cr.) P: ME 31002 or EEN 31000. Fundamental principles of heat transfer by conduction, convection, and radiation; mass transfer by diffusion and convection. Application to engineering situations.
  • ME 33000 Modeling and Analysis of Dynamic Systems (3 cr.) P: ECE 20400 and MATH 26600 (all with a minimum grade of C-) and admission into the IUPUC ME program. Introduction to dynamic engineering systems; electrical, mechanical, fluid and thermal components; linear systems response; Fourier series and Laplace transform.
  • ME 34000 Dynamic Systems and Measurements (3 cr.) P: ME 33000 and STAT 35000 (all with a minimum grade of C-) and admission into the IUPUC ME program. Modeling and formulation of differential equations for dynamic systems, including mechanical vibratory systems, thermal systems, fluid systems, electrical systems, and instrumentation systems. Analysis of dynamic systems and measuring devices including transient response and frequency response techniques, mechanical systems, transducers, and operational amplifiers. Consideration of readout devices and their responses to constant, transient, and steady-state sinusoidal phenomena. Calibration and data analysis techniques are introduced. Both analog and digital computation are included.
  • ME 34001 Instrumentation and Measurement Systems (2 cr.) P: ME 33000. Modeling and formulation of differential equations for dynamic systems, including mechanical vibratory systems, thermal systems, fluid systems, electrical systems, and instrumentation systems. Analysis of dynamic systems and measuring devices including transient response and frequency response techniques, mechanical systems, transducers, and operational amplifiers. Consideration of readout devices and their responses to constant, transient, and steady-state sinusoidal phenomena. Calibration and data analysis techniques are introduced. Both analog and digital computation are included.
  • ME 34400 Introduction to Engineering Materials (3 cr.) P: CHEM C105. Introduction to the structure and properties of engineering materials, including metals, alloys, ceramics, plastics, and composites. Characteristics and processing affecting behavior of materials in service.
  • ME 35001 Mechanical Engineering Laboratory IV (1 cr.) C: ME 31401 and ME 37200. Experiments on testing of Dynamic Systems, Heat & Mass transfer, and Materials.
  • ME 37200 Design of Mechanisms (3 cr.) P: ME 26201, ME 27200, and ME 27400. Kinematic and dynamic analysis of linkages and mechanical systems. Analytical and graphical approaches to analysis. Vector loop and relative velocity/acceleration solutions. Design and analysis of cams and gears. Static and dynamic balancing. Design documentation report writing and communication.
  • ME 39700 Selected Topics in Mechanical Engineering (1 cr.) P: ME 27200 with a minimum grade of D- and admission into the IUPUC ME program. Topics of contemporary importance or of special interest in Mechanical Engineering.
  • ME 40500 Seminar & Fundamentals of Engineering Review (1 cr.) P: ME 34400, ME 37200 (all with a minimum grade of C-), Senior Standing, and admission into the IUPUC ME program. P or C: ME 48200 (with a minimum grade of D- if taken as a prerequisite). A seminar series on mechanical engineering career options and guidance, professional development and licensing, and preparation for the Fundamental of Engineering (FE) examination.
  • ME 40600 Robust Design, Standards and Contemporary Issues (1 cr.) P: ME 37200 P: or C: ME 34001 The role of standards, robust design and lifelong learning in engineering design. Application to contemporary issues.
  • ME 41400 Thermal-Fluid Systems Design (3 cr.) P: ME 26201 and STAT Elective C: ME 31401. Application of basic heat transfer and fluid flow concepts to design of thermal-fluid systems. Emphasis on design theory and methodology. Design experience in thermal-fluid area such as piping systems, heat exchangers, HVAC, and energy systems. Design projects are selected from industrial applications and conducted by teams.
  • ME 43000 Power Engineering (3 cr.) P: ME 20000. Energy, combustion, energy cycles, steam power plants, fuel-bed and suspension firing, steam generators, heat exchangers, draft, prime movers, pumps and piping, water supply and conditioning, the variable load problem, station performance, energy rates.
  • ME 43300 Principles of Turbomachinery (3 cr.) P: ME 20000 and ME 31002. Unified treatment of the principles underlying fluid mechanic design of gas, vapor, and hydraulic turbines, pumps, fans, and compressors. Fluid mechanic design of stator and rotor blades, nozzles, and diffusers. Inspection trip to an industrial plant required.
  • ME 46200 Capstone Design (3 cr.) P: ME 34400 and ME 37200. C: (ME 41400 or ME 45310) and ME 48200. Introduction to the concurrent engineering design process. Emphasis on the application of the design process. Mechanical engineering as well as multi-disciplinary design projects performed by student teams. Lectures are supplemented by guest speakers.
  • ME 48200 Control System Analysis and Design (3 cr.) P: ME 34000. Classical feedback concepts, root locus, Bode and Nyquist techniques, state-space formulation, stability, design applications.
  • ME 49700 Mechanical Engineering Projects (3 cr.) Projects or special topics of contemporary importance or of special interest that are outside the scope of the standard undergraduate curriculum can be studied under the Mechanical Engineering Projects course.
  • ME 22501 Mechanical Engineering Laboratory I (1 cr.) C: ME 20000. Experiments in thermodynamics, parametric design and component fabrication.