iBerry

mathematical modeling techniques used in the design of electronic systems, Systems are defined as mappings on signals, notion of the state, Feedback systems and automata, equivalence of automata and concurrent composition. Hybrid systems, Difference and differential equations, frequency domain models for signals and frequency response for systems, Sampling, Applications (communications systems, audio, video, and image processing systems & control systems): Resources, Instructor guide

iron-carbon diagram in detail, Steels, non-ferrous alloys, composites, non-metallic materials, corrosion and the principles underlying the selection of materials in mechanical design, processes taking place during heat treatment of metallic alloys and how they influence their microstructures and properties

root-finding, elementary numerical linear algebra, solving systems of linear equations, curve fitting, numerical quadrature and numerical solution to ordinary differential equations

• Applied Fluid Mechanics and Thermodynamics - flow systems encountered in engineering
  design, viscous flow in pipes, external & compressible flow, turbomachines (pumps), thermodynamics
  of gas mixtures, psychometrics and air-conditioning processes

• Thermal Management Measurements - laboratory techniques for diagnosing and documenting thermal management problems in electronic equipment, design of thermal management solutions (air-cooled systems)

responses exhibited by solid engineering materials when subjected to mechanical & thermal loadings, introduction to physical mechanisms associated with design-limiting behavior of engineering materials (stiffness, strength, toughness, durability), basic mechanical properties of engineering materials, testing procedures, ways in which properties characterize material response: readings, labs, course download

Mechanical systems design, System simulation, control, and optimization, Design optimization and system performance evaluation, Design case studies, Equipment for overall system design,lab excercises: Course Outline, Supplemental Notes

probability theory & statistics with applications to engineering problems primarily chosen from areas of communications, control, signal processing & computer engineering: syllabus, books, exams, slides

focuses on use of modern computational & math, linear systems as basic computational unit in scientific computing, methods for solving sets of nonlinear algebraic equations, ordinary differential equations, differential-algebraic (DAE) systems, probability in physical modeling, statistical analysis of data & parameter estimation, finite difference & finite element techniques for converting partial differential equations: syllabus, readings, tools

slides, labs: courses (electric & magnetic circuits, waves, fields & optics, discrete linear systems & applied IT, instrumentation & design, instrumentation lab, optical systems & materials, electric & magnetic circuits, computer tools, heat, kinetic theory & thermodynamics, mechanics, modern physics, electronics, electric & magnetic field theory)

slides, labs: courses (engineering, mechanics, probability & statistics, mechanics of materials, oral & written communication, engineering economics, calculus, mechanics, materials, economics, theory and practice of persuasion, engineering in society)