BSET-MIT degree Courses

Manufacturing / Industrial Engineering Technology Course Outline:

E T 2140 Computer Graphics
(Lct: 2;Lab: 2) Cr. 3. Prereq: E T 1140, CSC 1050. Material fee as indicated in Schedule of Classes. Solution of drafting problems and development of graphics presentations using computerassisted drafting techniques; use of programming techniques for direct solution of drafting/graphic problems and available software routines. Introduction to the use of computer plotters, CRTs, digitizers, etc.

E T 2200 Engineering Materials
(Lct: 3) Cr. 3. Coreq: CHM 1020. Application and characteristics, both physical and chemical, of metallic and nonmetallic materials, polymers and composites used in industry. The primary process involved in producing these materials.

E T 3030 Statics
(Lct: 3) Cr. 3. Prereq: PHY 2130, E T 1140 Coreq: E T 3430.
The analytical and graphical techniques for determining the forces acting upon and within a body or structural component under static load. Centroids and center of gravity. Moments of inertia.

E T 3050 Dynamics
(Lct: 3) Cr. 3. Prereq: MAT 3430, E T 3030. Kinematics; kinetics of particles; translation and rotation of rigid bodies; relative motion; use of equations of plane motion. Application of impulse and momentum principles; work and efficiency.

E T 3430 (MAT 3430) Applied Differential and Integral Calculus
(Lct: 4) Cr. 4. Prereq: MAT 1800. No degree credit in College of Liberal Arts. Limits, derivatives, applications of derivatives, definite integrals and their applications, trigonometric function.

E T 3450 (MAT 3450) Applied Calculus and Differential Equations
(Lct: 4) Cr. 4. Prereq: MAT 3430. No degree credit in College of Liberal Arts. Continuation of MAT 343 including logarithmic and exponential functions; first and second order ordinary differential equations, vectors, polar coordinates, Laplace transforms. Taylor series, Fourier series.

E T 3850 Reliability and Engineering Statistics
(Lct: 3) Cr. 3. Coreq: E T 3430. Probability; hypergeometric, binomial, Poisson, and normal probability distributions;
confidence intervals; inferences concerning means; linear regression; introduction to statistical quality control and reliability; use of computers.

E T 3870 Engineering Economic Analysis
(Lct: 3) Cr. 3. Prereq: MAT 1800. Techniques to economically evaluate major engineering projects, rate of return and present worth, interest formulae, federal taxes, risk, inflation and noneconomic constraints.

E T 4999 Senior Project
(Lab: 3;Dsc: 2) Cr. 3. Prereq: English Proficiency Exam, Speech, last semester graduating student. Student designs, builds and tests product; philosophy of design. Project proposal to be submitted by second week; progress reports, formal written report and oral presentation required.

EET 2000 Electrical Principles
(Lct: 3) Cr. 3. Prereq: MAT 1800, Coreq: PHY 2140. Kirchhoff's laws, D.C. and A.C. circuit analysis, impedance, phasers, power and power factor correction, mutual coupling. Power transformers, D.C. and A.C. generators and motors, motor controls.

EET 3010 Instrumentation
(Lct: 1;Lab: 3) Cr. 3. Prereq: PHY 2140, EET 2000. Material fee as indicated in Schedule of Classes. Theory and use of various instruments and measurement techniques; power supplies, bridges, potentiometers, oscilloscopes; transducers for temperature, pressure, flow, strain, thermocouples, etc., signal conditioning.

MIT 3350 Applied Human Factors
(Lct: 3) Cr. 3. Introduction to human physiological and psychological functions and capabilities from an engineering
viewpoint, sensory information processing and motor abilities, machine-human design aspects.

MIT 3510 Manufacturing Processes
(Lct: 2;Lab: 3) Cr. 3. Prereq: CHM 1020, E T 1140, E T 2200. Material fee as indicated in Schedule of Classes. Study of
manufacturing processes including machining, welding, and forming. Manual and CNC tools. Fabrication of common
materials, manufacturing sequence and mechanization. Selection of tooling and machining parameters. Calibration and part set-up.

MIT 3600 Process Engineering
(Lct: 3) Cr. 3. Prereq: MIT 3510. Processing functions. Methods of manufacturing analysis. Manufacturing sequence,
mechanization. Selection of tooling and equipment. Planning the process of manufacture.

MIT 4220 Methods Analysis and Time Study
(Lct: 3) Cr. 3. Prereq: MIT 3510. Development of the fundamental concepts and approaches of time and motion study;
application of the principles of motion economy.

MIT 4320 Production & Inventory Management
(Lct: 3) Cr. 3. Prereq: E T 3850, MIT 3510. Basic production scheduling and inventory management. Production planning,
project management, inventory functions and inventory costs.

MIT 4700 Computer-Aided Design and Manufacturing
(Lct: 2;Lab: 2) Cr. 3. Prereq: E T 2140, MIT 3510. Material fee as indicated in Schedule of Classes. Fundamentals of computeraided manufacturing using computer software. Two and three dimensional applications programming, numerical control and programming.

MIT 4800 Quality Control
(Lct: 4) Cr. 4. Prereq: E T 3850. Introduction to total quality systems design and to basic analytical techniques for quality control.

MCT 3100 Mechanics of Materials
(Lct: 2;Lab: 3) Cr. 3. Prereq: E T 3030, Coreq: E T 3430. Material fee as indicated in Schedule of Classes. The elastic
behavior of load bearing materials. Tension, compression, shear, combined stress, bending and columns. Failure analysis.

MCT 3150 Applied Thermodynamics
(Lct: 3;Lab: 2) Cr. 4. Prereq: E T 3430, PHY 2130, CHM 1020. Material fee as indicated in Schedule of Classes. The first and second laws of thermodynamics; power and refrigeration cycles, gas and vapor mixtures, nozzle and blade passage flow, combustion. Introduction to compressible flow, direct energy conversion.

MCT 3180 Fluid Mechanics
(Lct: 3;Lab: 2) Cr. 4. Prereq: E T 3030. Properties of fluids, fundamentals of fluid flow, dimensional analysis and similitude,
and flow measurement techniques. Analysis of hydrostatic equipment, hydrokinetic equipment and systems. Introduction to
network analysis and calculation.

MCT 3410 Kinematics and Dynamics of Machines
(Lct: 2;Lab: 2) Cr. 3. Prereq: E T 2140, E T 3030. Velocity and acceleration of moving parts in machine elements and
mechanisms; cam, gear, and gear train design; static and inertial forces, balancing and gyroscopic effects, and critical speeds.

MCT 4210 Heat Transfer
(Lct: 3;Lab: 2) Cr. 4. Prereq: PHY 2140, Coreq: MAT 3450. Basic modes of heat transfer and their applications. Steady state condition in one and two dimensions, and transient conduction. Numerical and graphical methods. Heat exchangers. Condensation and boiling heat transfer. Introduction to mass transfer.

MCT 4230 Heating, Ventilation and Air Conditioning
(Lct: 3) Cr. 3. Prereq: MCT 3150, MCT 3180, or MCT 4210. Psychrometry-air humidity calculations; heat transfer and transmission coefficients; heating and cooling loads; physiological considerations; air distribution systems; building energy use optimization and ASHRAE standard.

MCT 4400 Design of Machine Elements
(Lct: 3) Cr. 3. Prereq: MCT 3100, MCT 3410. Fundamental concepts in the design of separate elements which compose the machine; application of properties and mechanics of materials modified by practical considerations.