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Common
Engineering Courses 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 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... 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 TUIC450 - Architectural Professional Practice Basic facts about ethics The ethical nature of architecture More in-depth look at ethical concepts Business, professions and ethical obligations Ethical reasoning Ethics and architectural practices A look at being an architect Closer look at making architecture Closer look at doing architecture Making ethical judgements Case studies TUIC451 - Architecture Background to architectural practices Organization and business side of architectural practices Architectural practitioners and the law Technical information General office practice Design office practice Design constraints Design procedures generally Pre-contract procedures Contract procedures Standard documentation, Words, phrases and abbreviations TUIC420 - Architectural Drafting Part I: Tool fundamentals Orthographic and paraline drawing Linear perspective drawing Perspective view development Light, shade and shadow Delineating and rendering entourage Diagramming and conceptual sketching Presenting formats Conventional and computerized representation in color Drawing exercises and solutions. Part II: Drawing formats Lettering and typefaces Types of drawings Presentation drawings CAD applications Construction drawings and documents Scale drawings Architectural symbols Dimensioning Drawing schedules Sections Architectural details Landscaping details References TUIC421 - Structural Engineering Part I: Simple stresses and strains Principal stresses and strains Centroid of inertia Bending stresses Combined direct and bending stresses Shear stresses in beams Thin shells Thick shells Riveted and welded joints Torsion o circular and non circular shafts Springs Strain energy and deflection due to shear and bending Columns and struts Analysis of framed structures Theories of failure Rotating discs and cylinders Bending of curved bars Unsymmetrical bending Material testing experiments Part II: Introduction Structural basics - general, loads and forces, structural systems Wood - general, beams, floor and roof systems, columns, bracing and connections Steel - general, beams, trusses, columns, walls, bracing connections and footings Masonry - general, non-reinforced masonry, reinforced masonry and earth construction Other structure - aluminum, plastic fabric structure and seismic design Design - general, land use, fire safety, accessibility, waste handling and computer-aided design Useful references TUIC422 - Building Technology Definitions and physical properties - building, enclosures, forces, environmental factors, means of support, envelope, elements of interior space, services, pressure, movement, force and factors, methods of assembly, site-assembled enclosure, tolerances and clearances, resistance to fire, acoustics and sound Units of - measure, heat, heat flow and heat transfer, temperature, variations, temperature gradients Corrosion of metals Water vapor mitigation Air and water penetration Solar radiation Daylighting - preliminary selection Shading Solar design Bioclimate design Environmental impact of construction Foundations - soils and foundations Sub-surface moisture conditions Structure and materials - cement and concrete, stone and masonry, metals, wood and wood products, Exterior wall assemblies - insulation, waterproofing and damping, Exterior walls Bearing walls Curtain walls Wall facings Glass and plastics Windows Entrances and doors Coatings and sealants Roofing assemblies - roofing Skylights, Interiors, Interior partition systems Staircases Interior systems and finishes - ceilings Flooring Services Conveying systems Plumbing HVAC Fire protection Electrical services References TUIC423 - Architectural Planning and Specifying The role of specifications Relationship between drawings and specifications Organization of specifications Concept of the technical section Arrangements of the technical section Types of specifications Systems building performance specifications Specifications writing techniques Bidding procedures Bidding requirements Bonds Guarantees Warranties Conditions of contract General conditions and supplements General requirements Procedures Specifying materials Specification language Specification reference sources Master texts and systems Physical format and style References TUIC424 - Soil Science Introduction Basic terminology and interrelations Properties of soil Soil classification systems Soil formation and soil structure Soil water and effective stress Permeability Seepage analysis Stress distribution in soil mass Compaction Consolidation Shear strength of soils Stability of slopes references. TUIC425 - Land and Site Surveying Mathematics
for site engineering TUIC426 - Urban Planning Context of urbanization Classic texts of urban history and design Principles and practices of urban design Regional and urban-wide scale Elements of the city Urban design details Case studies in urban design TUIC427 - Environmental Planning Heat and human comfort Thermal balance of buildings Hydronic heating Electric heating Air systems Heating and cooling Testing, adjusting and balancing Principles of plumbing Water supply Distribution and fire suppression Drainage and wastewater disposal Introduction to electricity Branch circuits and outlets Building electric circuits How to light behaves Residential electric work Non-residential electric work. TUIV428
- Landscaping and Design Evolution
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