More About Wunderlich-Malec Engineering - Engineering Solutions

Style and analysis of control charts. Process capability research study. Tolerance. Measurement system analysis. Correlation. Regression analysis. Independent t-test and paired t-test. Style and analysis of two-level factorial experiments. Fractional factorial experiments. Reaction model building. Taguchi techniques. Case research studies. (Course Profile) 406 Biomechanics for Engineering Students. Prerequisites: MECHENG 320 and MECHENG 382.

Topics include mechanics of the cytoskeleton, biological motor particles, cell motility, muscle, tissue and bio-fluid mechanics, blood rheology, bio-viscoelasticity, biological ceramics, animal mechanics and locomotion, biomimetics and effects of scaling. Private subjects will be covered on a case by case research study basis. (Course Profile) 412 Advanced Strength of Products Requirement: MECHENG 311.

(Course Profile) 420 Fluid Mechanics II Requirement: MECHENG 320. (3 credits) Use of commercial CFD bundles for fixing practical fluid mechanics and heat transfer problems of practical interest. Introduction to fit together generation, mathematical discrimination, stability, merging, and precision of mathematical techniques. Applications to separated, rough and two-phase flows, circulation control and flows including heat transfer.

(Course Profile) 424 Engineering Acoustics Requirement: Math 216 or Physics 240. (3 credits) Vibrating systems; acoustic wave equation; aircraft and spherical waves in fluid media; reflection and transmission at interfaces; proliferation in lossy media; radiation and reception of acoustic waves; pipes, cavities and waveguides; resonators and filters; noise; chosen topics in physiological, ecological and architectural acoustics.

(3 credits) Intro to combustion procedures; combustion thermodynamics, response kinetics and combustion transportation. Domino effect, ignition, quenching and flammability limits, detonations, deflagrations and flame stability. Intro to turbulent premixed combustion. Applications in IC engines, heaters, gas turbines, and rocket engines. ( Look At This Piece ) 433 Advanced Energy Solutions Prerequisite: MECHENG 235. (3 credits)Introduction to the difficulties of power generation for a global society using the thermodynamics to understand standard concepts and technology limitations.

(4 credits) Analytical technique to the engineering problem and efficiency analysis of internal combustion engines. Research study of thermodynamics, combustion, heat transfer, friction and other factors affecting engine power, effectiveness and emissions. Style and operating attributes of different kinds of engines. Computer projects. Engine labs. (Course Profile) 440 Intermediate Dynamics and Vibrations Requirement: MECHENG 240.

Linear complimentary and forced actions of one and two degree of liberty systems and simple constant systems. Applications to engineering systems including vibration isolation, rotating imbalance and vibration absorption. (Course Profile) 450 Style and Production III Requirement: MECHENG 320, MECHENG 350, MECHENG 360, and either MECHENG 395 or AEROSP 305.