ADME ENGINEERING CURRICULUM (INTERNATIONAL PROGRAM)

Computer Programming

Introduction to computer systems; problem-solving using computers; programming in high-level languages; program structure programming style and convention, control statements,data handling ​and processing; subprograms; classes and objects. 

Computer Programming Laboratory

Computer programming in Engineering; reviews of computer programming concepts; hands-on experience on computer programming using contemporary engineering tools. 

Calculus I

Limits; continuity; differentiation; applications of differentiation; integration; applications of definite integral; transcendental functions; techniques of integration; improper integrals; first-order differential equations.  

General Chemistry Laboratory     

Standard solution preparation; qualitative analysis; titration; electrochemistry; pH metric titration; spectroscopy; calculation and evaluation of data; calibration curve; introduction to polymer.

Chemistry for Engineers

Structure of atoms; chemical bonding: ionic bonding, covalent bonding, valence bond theory, hybridization- interaction coordination, intermolecular forces, molecular movement; state of matter: gases, structure of solid, liquid, and solutions; chemical reactions; interaction of matters with electromagnetic radiation and electrical energy; chemical thermodynamics.  

Physics for Engineers

Mechanics of particles and rigid bodies; properties of matter; fluid mechanics; heat; vibrations and waves; elements of electromagnetism; optics; modern physics.  

Physics Laboratory for Engineers               

Measurement and precision; experiments on simple harmonic motion; radius of gyration; dynamics of rotation; velocity of sound; viscosity of fluids.  

Communicative English I

Practice language skills in acquiring information and knowledge from different sources and media in subjects of students' interest under selected themes; collecting information, summarizing and presenting important issues.              

Exploring Engineering World       

Engineering Graphics      

Lettering; orthographic projections; sketching and drawing; pictorial drawing; dimensioning' tolerancing and geometrical tolerancing; section; working drawing; mechanical parts drawing; introduction to CAD.  

Engineering Materials

Important engineering materials: metals, plastics, asphalt, wood and concrete; phase diagram and its interpretation; testing and meaning of various properties; macroscopic and microscopic structure which are correlating with properties of the engineering materials; production process of products from engineering materials.

Calculus II          

Sequences and infinite series; convergence tests; power series; Taylor series; lines ; planes, and quadric surface in three-dimensional space; calculus of vector-valued functions; line integrals; limits and continuity of functions of several variables; partial derivatives; directional derivatives and gradients; Lagrange multipliers; multiple integrals.

Physics and Electronics for Engineers       

Electricity; DC circuits; AC circuits; basic electronics; solid state devices; electrical actuators.

Physics and Electronics Laboratory for Engineers

Resistance and electromotive force measurements; experiments on ampmeter; voltmeter; oscilloscope; AC circuit; transistor; lenses and mirrors; polarization; interference; diffraction.  .

Communicative English II

 

Manufacturing Process for Automotive Engineering I

Introduction to the principles of manufacturing as related to automotive engineering; relationship between manufacturing process, material properties and structure; fundamentals of bulk deformation, sheet metal forming processes; fundamentals of solidification processing; fundamentals of metal joining; principles of heat treatment and surface modification.

Statics

Force systems; resultants; equilibrium; structure; distributed force; friction; virtual work; stability.

Thermodynamics              

Basic concepts; thermodynamic state and process; properties of pure substances and ideal gases; energy; the first law of thermodynamics and the first law analysis for isolated, closed, and open systems; entropy;  the second law of thermodynamics and the second law analysis for isolated, closed, and opens systems; gas power cycles: Carnot, Otto, and Brayton cycles; refrigeration cycle; introduction to gas mixtures; introduction to combustion.

Automotive Engineering Workshop

Hand-on study of automotive systems and components; names and functions of components and parts; basic mechanical parts; engine; electronic systems; power train; brake systems; steering mechanism; basic diagnosis.

Introduction to Automotive Engineering

Basic principles of automotive systems, components, and design; internal combustion engine; transmission; chassis; suspension; steering; brake; body; vehicle aerodynamics and automotive  electronics; basic vehicle dynamics; performance and handling.

Probability and Statistics for Automotive Engineering

Engineering basis in statistics and probability; discrete and continuous probability distribution; joint probability distribution; parameter estimation: estimator, bias, consistency; point estimation; interval estimation; automotive engineering applications in measurement and uncertainty, linear regression, introduction to random process; integration of statistics in automotive engineering applications; case studies.

Differential Equations

Existence and uniqueness theorem of solution of first order equations; initial value problem; Laplace transform; Taylor series expansion of elementary functions; numerical methods; general linear equations;  solution in series; linear partial differential equations boundary value problems.

Engineering First

Basic skills in engineering; problem solving, communication skills, team work skills through small class projects; dissection skills. 

Manufacturing Process for Automotive Engineering II                       

Metal removal and machining processes; processes of non-metallic materials: glass, polymers, and ceramics; surface and tribological characteristics; application of automation and computer-integrated manufacturing systems in automotive part manufacturing; fundamentals of automotive part designs and technology management; supply chains and structure of automotive part manufacturing.

Electrical Circuit              

DC circuit analysis; Kirchhoff’s laws; Thevenin’s and Norton’s theorem; semiconductor devices; op-amps; digital circuit; DC motor.

Electrical Circuit Laboratory        

Electronic instruments; multimeter; oscilloscope; DC circuit; voltage regulators; filter circuit; transistor amplifier circuit; op-amp circuits; digital circuits; DC motor.

Mechanics of  Materials

Force and stress; stresses and strains relationship; Hooke's law; modulus of elasticity; stresses in beams; shear force; bending moment diagrams; deflection of beams; torsion; buckling of columns; Mohr's circle; combined stresses; failure criterion; safety factors.

Dynamics            

Kinematics of three-dimensional curvilinear motion of a particle; kinetics of a particle: force and acceleration, work and energy, impulse and momentum; kinematics of planar motion of a rigid body: absolute and relative motion analysis; kinetics of planar motion of a rigid body: force and acceleration, work and energy, impulse and momentum; introduction to kinematics and kinetics of three-dimensional motion of a rigid body.

Communication and Presentation Skills

Practice using English for social communication and giving oral presentation on engineering-
related topics

Electronics and Instrumentation for Automobile

Introduction to digital circuits; introduction to microprocessors and microprocessors based systems; basic instrumentation; application of different types of instrumentations to automotive systems.

Fluid Mechanics               

Basic concepts in physics: physical quantity and physical quantity relations, dimensions of physical quantity and the principle of dimensional homogeneity, dimensionless variables; basic concepts in fluid mechanics: continuum assumption, methods of description: Lagrangian and Eulerian descriptions, field quantity and classification of flow fields; geometric and kinematics of fluid motion: pathlines, streamlines, and streaklines; forces and stresses in fluids: pressure and pressure force, shear stress and shear force; convection flux and Reynold’s transport theorem; physical laws of finite control volume: conservations of mass, linear momentum, and energy; conservation of angular momentum with application to turbomachines; physical laws of infinite control volume: conservation of mass and linear momentum, introduction to Navier-Stokes and Euler’s equations; Bernoulli’s equation from momentum and conservation of mechanical energy viewpoints; introduction to vorticity and vortex; dimensional analysis: Buckingham’s PI theorem, similarity, and model testing; internal viscous flows, energy consideration in pipe flows and piping system; external flows, boundary layer, and aerodynamic force and moment; applications: turbomachines, model testing, piping and pumping system, aerodynamic force and moment.

Mechanical Engineering Laboratory

Experimentation and basic concepts; error and uncertainty analysis; measurement and instrumentation; data analysis; interpretation of experimental results; reporting of experimental results; basic experiments in solid mechanics, thermodynamics, fluid mechanics and basic engine testing.

Automotive Instrument Laboratory

Basic electronics; electronic systems in automobiles; engine performance testing; basic automotive diagnosis.

Mechanics of Machinery               

Basic mechanisms; gear trains; displacements; velocity and acceleration in machines; statics and dynamics force analysis; balances of rotating and reciprocating masses; gyroscopic effects.

Product Development Process

Product requirements and specifications; reverse engineering; use of CMM; product design by CAD.

Technical Writing            

Practice in writing summaries composing different types and styles of writing in the field of engineering and writing reports of studies and experiments.

Vehicle Dynamics

Dynamics of motor vehicles; properties of pneumatic tire; suspension and steering mechanism; vehicle longitudinal dynamics; linear bicycle models; stability; linear engine models; pleasure in driving.

Heat Transfer

Modes of heat transfer; general forms of heat conduction equations; steady one-dimensional heat conduction; steady two-dimensional heat conduction, transient one-dimensional heat conduction; introduction of convection and boundary layer; external flow; internal flow; free convection; heat exchangers; introduction of radiation of black body and gray surfaces; view factors; radiation exchange between gray, diffuse surfaces in an enclosure.

CAD/CAM/CAE

Introduction to CAD/CAM/CAE, 3D solid modeling, design concepts and implementation; link to manufacturing interface.

Mechanical Engineering Design  

Fundamentals of mechanical engineering design; properties of materials; theory of failure; fatigue; design of basic machine elements; design project of a simple mechanical machine.

Engineering Management

Detail Detail Detail

General Education

 

Industrial Training           

Engineering practice in related areas under supervision of experienced engineers in private sectors  or government agencies.

Automotive Engineering Pre-Project

Preliminary study for automotive engineering; project formulation and proposal.

Internal Combustion Engine

Internal combustion engines; basic principles; fluid flow; thermodynamics; fuels and combustion; ideal fuel air cycle; heat transfer; friction and lubrication; efficiency and emission; different types of engines: spark-ignition and compression-ignition; ignition systems; supercharging and scavenging; performance and testing.

Motor Vehicle Design

Systematic approach to automotive design; space defining components; ergonomics; automotive safety and legal regulations.

Approved Elective           

 

Approved Elective           

 

General Education            

 

General Education            

 

Free Elective

 

Automotive Engineering Project

Group or individual project on a subject related to automotive engineering and manufacturing.

Approved Elective

 

General Education            

 

Free Elective