Course Outline for Civil Engineering

Statics : General principles of statics, Brief review of Vector addition and subtraction, Vector products and their physical and geometrical meanings, Laws of triangle, Parallelogram and polygon of forces, General conditions of equilibrium, Equilibrium of a rigid body, Free body diagrams, Graphical methods for force analysis, Funicular Polygon, Methods of Joints and Sections for force analysis, Internal forces in Structural members, Introduction to shear force and bending moment.

General Principles of Surveying : Determination and plotting of positions, Scales, Errors and Degree of accuracy required.

Chain Surveying : Chains and tapes, optical square and other instruments, Ranging and chaining lines, errors in chaining, Field Book, Plotting chain survey, Obstacle Surveying.

Compass Surveying : Prismatic and Surveyor’s compasses, Meridians, Bearings, declination and local attraction, Traversing, Adjustment of compass survey.

Theodolite Surveying : Types of theodolites and their structure. Handling and care of instruments, Temporary adjustment of theodolite, Measurement of bearings and horizontal and vertical angles, Use of theodolite as a levelling instrument.

Plane Table Surveying : Plane table and accessories, Adjustment and Orientation, Methods of Plane-table surveying, Merits and demerits of plane tabling, Contouring with tangent clinometer. Two-point and three-point problems.

Box Sextant : Structure, adjustment and use for measuring angles.

Levelling : General principles of levelling, Optics of Surveying telescope and their structure, Types of levels, Temporary and permanent adjustment, Methods of levelling, Level Books, Reduction of levels and checks.

Levelling for longitudinal section and cross-section, plotting precaution in levelling, Sources of error, Corrections for curvature and refraction.

Reciprocal Levelling : Barometers and their uses for determination of altitude. Contours and method of Contouring. Clinometers.

General characteristics, varieties, uses, strength and tests of Building stones, Bricks and tiles: Refractory heat insulating and acoustical materials, Quarrying and redressing of stone, Manufacture and burning of bricks and tiles, Glazed pipe terracotta.
Composition, manufacture, varieties, properties, tests and uses of limes, cement mortars and concretes, Gypsum and Plaster of Paris, Waterproofing materials and surface treatment.

Varieties and uses of important timbers. Method of seasoning and sawing. Defects in timber, Decay and preservation of timber, strength tests, plywood pressed wood and jaxboard.

Composition, varieties, properties and uses of glass, plastics, laminates and adhesives: Properties and uses of asphalt, bitumen, rubber, leather, felt, asbestos, and asbestos products.

Manufacture, characteristics, strength and uses of ferrous and non-ferrous metals and their alloys: Pig-iron, cast-iron, wrought iron, steel, copper, tin, zinc, lead, aluminium, nickel, brass and bronze: Galvanizing, oxidation and painting pipes, plane and corrugated iron sheets and Rolled Steel Sections.

Composition, preparation, properties, tests and uses of paints, plaster, varnishes and distempers.

Axially compressed struts and columns, Euler, Rankine, and other formulae for Buckling load of columns, Eccentrically loaded columns: Torsion in circular shafts, Shearing stress distribution, Angle of twist, Strength and stiffness of shafts.

Long columns under eccentric loads, Combination of lateral and logitudinal load, beams on elastic foundations.

Unsymmetrical bending, Shear flow, shear centre, curved beams.

Analytical & Graphical methods for three dimensional Stresses, Energy methods, Theories of failure.

Statical stability and determinacy of structures, Degree of indeterminacy of rigid frames and Pin-joined structures, Method of joints, method of sections, and Graphical methods for truss analysis, Maxwell and Williot-Mohr diagrams.

Unit load method, Moment Area and Conjugate beam principles, Energy theorems, Castigliano’s Theorem, Method of Consistent Deformations, Three moment equation, Stresses in structure due to misfits, temperature changes and support yielding. Statically determinate and indeterminate space trusses.

FPS and SI Units : Properties of fluids, Density, Specific Weight, Compressibility, Viscosity, Surface tension, Vapour pressure.

Pressure : Absolute and gauge pressures, Measurement of pressure, Manometers, Total pressure on plane areas, Centre of pressure, Buoyancy.

Fluid Flows : Equation of continuity, flow net, Velocity and acceleration, Energy equation. Cavitation, Hydraulic and Energy gradients, Vortex flow.

Basic hydrodynamics : Circulation and vorticity, Basic flow fields, Stream function and velocity potential.

Impulse-momentum : Forces on reducers and bends, Stationary and moving vanes, Torques in rotating machines. Applications.

Similitude and Dimensional Analysis:
Geometric and other similarities; Dimensionless numbers, Models.

Moving load analysis, Influence lines for shear force and bending moment, location and determination of maximum moment and shear force, Absolute maximum bending moment, Influence lines for panelled girders and trusses.

Moment Distribution and Slope Deflection methods of analysis of beams and rigid frames.

Approximate methods for multistory frame analysis such as Cantilever, Portal and Factor methods.

Introduction : Basic concepts, engineering economy defined Measures of financial effectiveness, Momentary values.

The Economic Environment : Consumer and Producer goods, Measures of economic worth, Price., Supply Demand relationship.

Selections between Alternatives : Present economy, Selection among materials, techniques, designs etc. A basic investment philosophy. Alternatives having identical lives.

Values Analysis : Important cost concepts. Cost-benefit analysis, feasibility studies. Values analysis in designing and purchasing.

Linear Programming : Mathematical statement of linear programming problems, Graphi solution, simplex procedure, Duality problem.

Depreciation and Valuation : Types of Depreciation, Economic life, Profit continuous compounding. Discounting sinking fund problems.

Capital Financing and Budgeting : Types of ownership, types of stock, partnership and joint stock companies. Banking and specialized credit institution.

Theory of Production : Factors of production, Laws of Returns, Break even charts and relationship.

Industrial Relationship : Labour problems, Labour organizations, Prevention and settlement of disputes.

Highway Engineering : Development of various modes of transport in Pakistan. The Role of Highway within a Transport system, Highway Classification, Highway planning and Economic appraisal, Traffic Flow characteristics and Survey methods, Origin and destination studies.

Geometric Design : Fundamental principles, Sight distances, Horizontal and Vertical alignment, Intersection and Rotaries, Pavement design, Flexible and Rigid pavements.

Highway Construction and maintenance : Stabilized road construction, Pavement materials, Highway drainage, Pavement failures, Roadside development and aborriculture, Traffic Engineering, Various traffic controlling devices, Parking characteristics and parking control, Road safety, Accident study, Road signs, Traffic signals, Highway lighting, Segregation of Pedestrian and vehicular traffic.

Design codes, Design loads, Safety factors, Load factors.

Design of tension and compression members, Design of rivetted, bolted and welded connections.

Design of simple beams and compound beams.

Design of Plate girders and Gantry girders.
Analysis and design of roof trusses.

Design of Slopes, Retaining Structures, and Earth Dams using Soil Engineering Principles.

Settlement Analysis of Foundation, foundations under water, Cafferdams, Failure of foundation; Remedial Measures.

Bearing Capacity determination of Buildings, Bridge, Water tower sites, Vibratory and Repetitive Loading of Soils.

Soil Stabilization and Methods of Soil Improvement.

Foundation : Area of foundation, Depth of foundation. Eccentric loads, Inverted Arches, Spread footing.

Masonry Construction : Brick, Stone, and concrete block Masonry, Bonds, and joints. Hollow walls, Bricks and stone arches. Reinforced brick masonry, Tall masonry chimneys.

Wood Construction : Wood Framing, Columns, Beams and partitions, Scaffolding.

Steel Construction : Steel framing stanchions, Beams and Trusses. Erection of Steel Chimneys.

Reinforced Concrete Construction : Framing slabs, beams and columns, reinforcement, form work, curing.

Floor Construction : Various types and methods. Floor finishes. Factory floors, Damp proof courses.

Roof construction : Pitched and flat roof, Galvanized iron sheet and asbestos cement roofing. Water proofing of roof.

Doors and Windows : Wooden and Metal doors and windows.

Stairs : Types and construction, fire-proof stairs, plaster, painting and protective coverings, Bearing wall and framed construction of concrete, Steel and timber for workship and factory building.

Planning of workshops, factories and workman’s quarters, fire proof and earthquake proof construction.

Minor losses, pipe flow problems.

Forces on Immersed Bodies : Drag and Drift, Laminar and turbulent boundary layers.

Steady Flow in Open channels : Equation for uniform flow, Velocity distribution, circular sections, Specific energy and critical depth, Gradually varied flow, Water surface profiles.

Unsteady Flow of Incompressible Fluid : Water hammer.

Hydraulic Machinery : Similarity laws and factors for turbines and pumps.

Reaction Turbines : Construction, Draft Tube, Operation of different speeds, theory of turbines, Cavitation.

Centrifugal Pumps : Classification, Characteristics, Theory of Caitation.

Portland Cement : Manufacture, chemical Composition, Hydrotion, Tests on Physical Properties.

Different Types of Cement : Types of Portland Cement, sulphate resisting cement, Admixtures.

Fresh Concrete : Workability, slump and other tests, Mixing of concrete, Analysis of fresh concrete, Lightweight concrete.

Elasticity, Shrinkage and Creep : Modules of Elasticity, Poisson’s Ratio, Volume, change, swelling and Shrinkage, creep of concrete.

Testing of Concrete : Various types of compression tests, cube test, cylinder test, splitting test, flexure test, ultrasonic pulse test.

Mix Design : Basic considerations, quality control.

Concrete consituent materials, Mix proportions, Water-cement ratio, concrete mix design, Stress-strain curves. Compressive, tensile and shearing strength of concrete, concrete strength under combined stresses, shrinkage and creep of Concrete, Reinforcing Steel, Types of Reinforcement, Strees strain curves, Basic assumptions in reinforced concrete design, Design code, Design loads, safety factors, Load factors.

Definition and scope of soil Mechanics, Historical Survey.

Formation, Structure and physical properties of clay minerals.

Soil identification and classification.

Soil moisture relations, Limits of consistency, Intergranular and pore water pressures. Capillarity, Permeability and Ground Water Movement, Frost-heaving.

Drainage of soils, Seepage and flow nets, Electro-osmosis phenomenon. Wall points.

Shearing resistances of soil, Strees strain-time characteristics of cohesive and cohesionless soils.

Compressibility and consolidation of soil, Compaction of soils, Standard and Modified AASHTO Test. Engineering properties of Water-logged and saline soils.

Soil exploration, sampling and testing: Selection of suitable type of foundation. Bearing capacity of soils for foundation design.

Spread footings, Raft and pile foundations, sheet piling.

Lateral earth pressure, theories of stability of retaining walls, Stability of slopes and earthen structure.

Design of RC Stair cases, Flat Slab, Hollow block and ribbed floors.

Analysis and design of R.C. Retaining Walls, Under ground and overhead water tanks, columns.

Design, of combined and isolated footings, strip footings, Raft foundations, and Pile foundation.

Prestressed concrete, Reinforcing Materials, Advantages, Pressure losses, Flexural and Shear Design of Prestressed concrete beams.

Hydrology : Hydrologic Cycle : Precipitation, Evaporation and Transpiration, Hydrograph analysis, Runoff, Routing.

Ground Water : Occurrence, Groundwater Hydraulics, Wells, Yield, Tube-wells, Water logging, salinity.

Dams : Forces on gravity and earthen dams: Principles of design.

Barrages and Alluvial Canals : Khosla’s and Lacey’s theories, Design of barrage and alluvial canals.

Drainage : Land drainage for reducing groundwater levels. Culverts and Bridges.

Taking out quantities and estimating cost of buildings, Structures of timber, Masonry, Steel, Reinforced concrete, Earth-work, plumbing.
Analysis of rates and specifications for various items in construction.

Management functions, Management tools for construction project management. Types of planners, Transportation Model, Least Cost Technique, Project Management Software.

Historical Development, Egyptian, Asiatic, Greek, Roman Indian, Romanesque, Muslim Architectures, Modern Architecture.

Influences : Geographical, Geological, Climatic, Religious, Social, Historical, Landscape Architecture.

Principles of Architecture : Truth or purpose, Beauty & Truth Qualities, Strength, Vitality, Grace, Breadth, Scale, Factors, Proportion, Colour, Balance.

Use of materials : Stone, Wood, Metals, concrete. General Treatment of Plans of Buildings, Walls, their construction, Openings, their position, character and shapes: Roofs: their development and employment, Columns, their position, or decoration, Moulding, their form and decortion, Ornament as applied to any building.

Town Planning : Purpose and scope, Definitions of town planning, Trends in urban growth, Objectives of sound planning.

Information required : Maps, Population, Natural resources, Economic resources, Legal and administrative problems, Civic survey, City plan, Need and scope of comprehensive plan, Structure plan.

Phases of planning : Principles of planning. Communication plan: Railroad network, Port and Harbour facilities: Elevated railroad and subways, street pattern, Gridiron, ring roads and radial systems, Parkway system. Street traffic and Design.

Use of Land : Residential, Parks and recreation facilities, Location of public and semi-public buildings, Civic Centres, Commercial centres, Local shopping centres, Public schools. Zoning and other land use control.

Environmental Engineering Definition. Environmental Disturbances, Legislations. Water Pollution, Pollution of receiving water, Eutrophication types, Physical Chemical and Biological changes, Control of Eutrophication. Air pollution effects, sources and control. EIA Guidelines, Environmental Management, EIA Definitions, Elements of EIA (Environmental Impact Assessment) process, Design of EIA Case Studies.

Introduction : Irrigation systems, source of water.

Canal Irrigation : Canal head works, wiers and barrages, selection of their sites, their components bais Principles of their Design and Construction. Design examples. Slit Control in Canals Kennedy’s and Lacy’s Theories. Design of irrigation channels, Canal Head Regulators, Falls, Metter Flumes, Outlets and cross drainage works canal lining. Maintenance of Canals, floods and their Control.

Water Requirements of corps, duty of Irrigation water. Delta of crops. Irrigation Methods. Method of minimize water losses.

Water Logging and Salinity. Causes, Effects of Salinity on Irrigation land. Reclamation methods.

Ultimate strength designs of reinforced concrete slabs, beams and columns in a structure.

Analysis and design of reinforced concrete and Steel, Industrial and Commercial type of buildings including Affects of wind and earthquake, Design of Steel and R.C. bridges. Brackets and Corbels.