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DescriptionFilter
  
Review of complex variables and Laplace transform .Poles and
element transfer function and block diagram. Modeling of physical
systems; electrical, mechanical, hydraulic and pneumatic systems.
Linearization of nonlinear systems. System representations.
Thermal, System block diagrams and signal flow graphs. Overall
transfer function, block diagrams reduction techniques and
Mason’s gain formula. Time response analysis and performance
indices of first and second order systems. Dominate poles of high
order systems. Routh-hurwitz stability criterion. Stability analysis
using root locus. Bode diagrams and Nyquist stability criterion.
Introduction to analysis using state-space equations.
Fourth Year
  
Mechanical behavior and forming of metals, different types of mechanical behavior and main factors affecting it. Yield criteria, representative stress and representative strain, work due to plastic deformation, classification of forming processes with respect to strain rate and temperature. Temperature rise in dynamic forming. Bulk deformation processes: forging, extrusion, rolling, rod and wire drawing. Sheet forming processes: blanking, deep-drawing and bending.
Third Year
  
Second Year
  
  
A systematic development of programming via flowcharts and pseudo
codes; The course highlights include: assignment, repetition, decision
making, arrays, file processing and subprograms in program construction.
Program design includes: algorithm design, procedures and data program
structure, module design, programming standards, program
documentation, testing, debugging, verification and validation, file
organization and processing, array processing, abstract data structures,
data driven programs and simulation. Matlab language will be used.
Homework problems
Second Year