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Associate Degree Level ENG001 - Engineering Mathematics (Calculus I) Mathematical induction and the binominal theorem Functions Limits and continuity Derivatives and rules for differentiation Applications of differentiation Integration The definite and indefinite integral Integration of simple functions ENG004 - Engineering Mathematics (Calculus II) Transcendental functions Integration techniques Improper integrals Conic sections Polar co-ordinates Partial derivatives Complex numbers Introduction to matrices and determinants ENG006 - Engineering Mathematics (Advanced Algebra and Differential Applications) Ordinary first order differential equations Linear higher order differential equations Infinite series and Taylor's theorem ENG102 - Applied Computer Programming (Matlab) Introduction to structured programming language Arithmetic and logic Program flow control Sub-program procedures and function procedures Data types - arrays Sets and records Graphics Practical applications to engineering problems Emphasis on modular programming for engineering applications ENG002 - Applied Mathematics (Statics) Vectors Forces Sum of forces at a point Direction cosines and direction angles Components and component vectors Scalar product Vector product Moment of a force Force system on rigid bodies Equivalent force systems Couples Line of action of resultant Equilibrium of a rigid body Trusses Friction Center of mass Kinematics in one dimension ENG005 - Applied Mathematics (Dynamics) Derivatives and integers of vectors Kinematics in one, two and three dimensions Relative velocities The laws of motion in a straight line with constant forces the harmonic oscillator Forces in the plane Parabolic motion in a circle and other plane curves The principle of work and energy Power Conservation laws Energy Momentum and impulse Angular momentum The rigid body Determination of mass and center of mass Rigid body kinematics Momentums of inertia Rigid body translation, rotation about a fixed axis and motion parallel to the plane ENG105 - Applied Mathematics (Statistics and Probability) Coming soon... ENG106 - Applied Mathematics (Linear Algebra) Vectors and matrices Solution of linear equations Vector spaces and subspaces Orthogonality Determinants Eigen-values and eigenvectors Linear transformations Numerical linear algebra ENG103 - Engineering Drawing Projection planes Points Lines and planes in space Trace points of lines and trace lines of planes True lengths and true angles between lines and planes True angles between planes New projection planes Shadows Interpenetrations Developments Isometric projections Works drawings 1st and 3rd angle projections Line alphabet Dimensioning Scale view drawing layout Auxiliary views Hidden detail Sections and cross-hatching ENG003 - Engineering Physics Geometrical optics Principles of mechanics and heat Properties of wave motion and the application thereof to different types of waves Introduction to the microscopical description of matter and the implications of atomic and nuclear structure for properties of matter ENG104 - Engineering Design Philosophy Impact of technology on society Influence of culture on worldview The role of information technology Ethics in engineering Philosophy of science Science and culture ENG201 - Engineering Chemistry Basic principles Atomic structure and chemical bonding reactions in aqueous medium Precipitation and complex formation and redo Gasses Thermo-chemistry Engineering applications of chemical equilibrium and kinetics in corrosion Combustion Welding and water treatment Inorganic and organic polymers EEL104 - Programming for Engineers (Programming in C and C++) Introduction to C programming C programming basics, functions, structures, control, arrays, pointers, characters and strings, input-output, file processing, data structures, processor, classes, classes and data abstraction, operator overloading, streams input-output, and templates Introduction to object orient programming and Java Modular division and debugging of large program systems Internet and web resources TUIC102 - Energy Conversion Heat engines Flow with electromagnetic interaction Plasma electrical conduction of gases Magneto-hydro-dynamics Electro-hydro-dynamic power generation Hear to electricity via free electrons Thermionic power generation Chemical energy to electricity Electro-chemistry Semiconductors Photo electricity Heat to electricity via bound electrons Thermo-electricity MEG007 - Fluid Mechanics I Physical properties of liquids and gasses Fluid statics and manometers Fluid kinematics Fluid dynamics Integral relations of a control volume Introduction to vector analysis Differential relations Continuity, momentum and energy equations Bernoulli and Navier-Stokes equations Steam function Similarity theory, dimensional analysis Laminar and turbulent flow in pipes and closed channels Friction charts Flow in non-round channels Losses in pipe systems Series and parallel pipes Pipe networks System resistance curves Characteristics of fans and pumps Introduction to fluid flow over bodies Drag, flow through packed columns Compressible flow Compressibility and the Mach number Stagnation conditions Isentropic flow Flow with heat addition and with friction Shock phenomena Applications of compressible flow Effect of area change MEG015 - Fluid Mechanics II Physical properties of fluids and gasses Hydrostatic forces Manometers Forces on floating bodies and their stability Center of pressure and meta-center Integral relationship for a control volume Bernoulli and energy equation Conservation of angular momentum Differential relationships for a fluid particle Conservation equations Introduction to vector analysis Stream functions Vorticity and rotation Frictionless and irrotational flows Dimensional analysis MEG122 - Aerodynamics | Revision of the conservation laws for steady incompressible frictionless flow Sources Sinks Potential vortices and doublets Combinations Kutta's hypothesis and Kutta-Joukowski theorem of lift Thin airfoil theory including camber line theory and thickness Three dimensional lifting line theory including Prandtl-Lanchester wing model The monoplane equation and aerodynamic derivatives Axis-symmetric flow Airscrew theory TUIC106 - Introduction to Flight The first aeronautical engineers Fundamental thoughts The standard atmosphere Basic aerodynamics Airfoil, wings and other aerodynamics shapes Elements of airplane performance Principles of stability and control Space flight Propulsion Flight vehicles References ENG202 - Strength of Materials I Basic concepts Axial forces Bending moments and shear forces Stresses and deformations due to axial forces Bending moments and shear stresses Stresses as shear forces and deformations due to torsion of round bars MEG006 - Strength of Materials II Stresses and strains Relationship between stresses and strains Transformation of stresses and strains Bending stresses in initially curved beams Torsion Yield theory Stress concentrations and fatigue 2. Bachelors Degree Level Core Courses: EEL109 - Control Systems I Linear feedback systems Analysis and synthesis Classic and state variable models Mathematical modeling Stability Transient and steady state response Closed loop design methods Root locus Nyquid and Bode plots Compensation techniques EEL114 - Control Systems II Continuous system predictive observers Separation principle Sampled data control systems analysis and design Z-transformation and discrete state variables Pole placing for finite time response TIAE203 - Combustion Engineering Introduction Introduction Space
mission operations TIAE209 - Fundamentals of Astro-dynamics Fundamentals |
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