Course Outline Semester 2007

8/3/2019 Course Outline Semester 2007

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Course Outline for Semeste r Syste m

1st Semester

Course # Title/Subject Credit Hours

Th. Pr.CE-101 Engineering Mechanics 3 1

HS-103 Communication skills 0 1CS-105 Computer Fundamentals 2 1

GS-107 Mathematics-I 3 0

HS 109/111 Islamic Studies / Ethics 2 0CE-113 Construction Materials 3 1

Total 17

2nd Semester


Th. Pr.CE-102 Civil Engineering 2 2

Drawing

CE-104 Surveying-I 2 1

GS-106 Mathematics-II 3 0HS-108 Pakistan Studies 2 0

EE-110 Applied Electrical 1 1Engineering

ME-112 Applied Mechanical 1 1Engineering

Total 16

3rd Semester

Course # Title/Subject Credit HoursTh. Pr.

CE-201 Mechanics of Solids-I 3 1CE-203 Surveying-II 2 1

CE-205 Fluid Mechanics-I 3 1GS-207 Mathematics-III 3 0

CE-209 Engineering Geology 2 1

Total 17

4th Semester


Th. Pr.CE-202 Elementary Theory of 3 1

StructuresCE-204 Geotechnical 3 1

Engineering-I

CE-206 Civil Engineering Practice 2 1CE-208 Civil Engineering 1 2

Construction & GraphicsHS-210 Technical Report Writing

and Presentations 1 1.GS-212 Numerical Analysis 3 0

Total 19


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5th Semester


Th. Pr.CE-301 Structural Analysis 3 1CE-303 Geotechnical Engineering-II 3 1

CE-305 Steel Structures 3 1

CE-307 Construction Planning

& Management 2 1

CE-309 Engineering Hydrology 2 1

Total 18

6th Semester


Th. Pr.CE-302 Mechanics of Solids-II 3 1

CE-304 Plain & ReinforcedConcrete-I 3 1

CE-306 Fluid Mechanics-II 3 1CE-308 Environmental

Engineering-I 2 1CE-310 Engineering Economics 2 0

and Management

Total 17

7th Semester


Th. Pr.CE-401 Water Resources &

Irrigation Engineering 3 1

CE-403 Plain & Reinforced 3 1Concrete-II

CE-405 Transportation Engineering 3 1CE-407 Environmental

Engineering-II 2 1CE-409 Design of Structures 2 2

CE-411 Final Year Project 0 1(Part A)*

Total 20

8th Semester

Course # Title/Subject Credit HoursTh. Pr.

CE-402 Structural Engineering 3 1CE-404 Hydraulic Engineering 3 1

CE-406 Pavement & Foundation 3 1CE-408 Computer Aided

Analysis & Design 1 2

CE-410 Final Year Project 0 3(Part B)*

Total 18

Final Year Project is splited in 7th and 8th semester. In 7th semester only a time slot is given but marks

will be awarded in 8th semester.


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1st

Semester

Course No. Subject

CE-101 Engineering MechanicsBasic concept of space, time, mass, velocity, acceleration and force.Scalar and vector quantities. Newtons laws of motion, law of gravitation.

Units of measurement for space, time, mass and force. SI and FPSsystems of units.

Resultant and resolution of co-planer forces using parallelogram, triangleand polygon, law of funicular polygon. Simple cases of resultant andresolution of forces in space.

Condition of equilibrium of co-planer forces, analytical and graphical

formulations. Free body concept, conditions of support and attachment to

other bodies. Degree of restraint and static determinacy. Staticallydetermined problems especially of civil engineering importance.Work energy and power. Virtual work formulation of equilibrium of

coplanar forces. Potential energy, energy criterion for equilibrium,

stability of equilibrium, application to simple cases.

Geometrical properties of plane areas, first moment of area, centroid,second moment of area, principal axes, polar second moment of area andradius of gyration.

Friction, coulombs theory of friction. Problems involving friction on flat

and curved surfaces.

HS-103 Communication SkillsTechnical report writing and study of English to enable the students toexpress his ideas verbally and in writing presentation skills.

Suggested text: Proposed by faculty.

CS-105 Computer ProgrammingIntroduction to personal computer setup. Introduction to DOS and

Windows operating systems. Basics of computer programming. Programstructures and flow charts.

Basic language, arithmetic operations and functions, input/output

statements, decision making statements and loops. Functions andsubroutines. Data and data files.Fundamentals of Visual Programming, introduction to visual basic,

programming of simple and elementary civil engineering problems.

GS-107 Mathematics-IApplication of Derivative: Rate, speed and acceleration, tangents and

normals, maxima and minima of a function of single variable. curvature

and radius of curvature Polar curves.

Function of several variables: coordinates in space, partial differential

coefficient, partial differentiation of an implicit function, total differential.Sensitivity and error estimates. Linearization, chain rules, maxima and

minima of functions of two independent variables.

Vectors: Addition and scalar multiplication of vectors. Scalar and vector

products. Triple products. Differentiation and integration of vectors.Algebra and matrices and determination and their use in solving,simultaneous equations. Eigen value and eigen vectors.

Motion: Motion along a straight line with uniform acceleration, motion

along a curved path. Tangential and normal components of acceleration.

Simple harmonic motion, projectiles. Momentum and conservation of


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work and energy.

HS-109/111 Islamic Studies (Compulsory for Muslim Students)

Ethics (for non-Muslim Students)

CE-113 Construction MaterialsCements, Ceramics and Refractories: Manufacture, properties and

applications of lime, cement, ceramics, bricks and asbestos.Hydration of lime and cement, mortar and concrete, effect of various

chemicals on cement and concrete, types and properties of polymerconcrete and fiber reinforced concrete.

Plastics: Manufacture of plastics, comparison of different types ofplastics and their use in civil engineering.

Glass: Main types of glass, chemical and physical properties of glass,

fiber glass manufacturing, techniques and properties.Wood: Different types of wood available in Pakistan, seasoning and

preservation of wood, laminated materials, gluing and joining techniques.Elastic properties of Pakistani woods.

Paints and Varnishes: Composition and manufacture of oil paints,

plastic emulsion paints, distempers, varnishes, lacquers and enamels,methods of application.

Metals: Composition, properties and manufacture of ferrous and non-ferrous metals used in civil engineering. Hot rolled and cold worked

steels, effect of various heat treatments on the properties of steel and its

alloys, structural failures induced by corrosion, brittle failure of steel,methods of corrosion control. Thermometry: Heat transfer, steady and

unsteady states, conductivity and diffusitivity, properties of thermalinsulation and acoustical materials for use in building.


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2nd

Semester / Spring Semester

CourseNo.

Subject

CE-102 Civil Engineering DrawingIntroduction to the subject and drawing equipment.

Lettering and dimensioning, graphic symbols, free hand sketches andisometric views. Method of sections including assembly sections.

Orthographic projection, orthogonal projections of simple solids in simple

position, oblique and auxiliary planes.Isometric and pictorial projections of solid figures, making of free hand

sketches from solid objects and from orthographic projections. Intersectionof surfaces. Development of surfaces.

Introduction to civil engineering drawing, preparation of plan, elevation andsections for simple buildings. Introduction to computer graphics.

CE-104 Surveying-IIntroduction to land surveying, definitions, branches and their applications,instruments used in reconnaissance.

Chain Surveying:Type of tapes, chains, methods of chain surveying.Levelling: reduction of levels, temporary and permanent adjustment of

levels, precise leveling.Theodolite: Types, use, temporary and permanent adjustments. Traversingwith compasses and theodolite.

Tacheometry with staff and subtense bar.Plane table surveying Parts and accessories, Methods of plane table survey,

two and three point problems.Contouring: Methods and applications.

Area and Volumes: Computation by various methods, cross section and L-

section of roads, Layout of buildings and Structures.Field and drawing office work based on above.

GS-106 Mathematics-IITechniques of Integration: Application of integration in finding area,

volume and surface area of a solid of revolutions, length of arc. Centroid etc.Theorem of Pappus and Gladinus.Double Integration and its application to find volume, centroid andmoment of inertia.

Differential Equations: Solution of various types of first order equations.

Orthogonal trajectories, Application in physical problems. Linear

differential equations of second order. Complementary function andparticular integral. Method of undetermined coefficients. Variation ofparameters. Simultaneous differential equations. Solution of differential

equations in series.

Three Dimensional Anaylytical Geometry: of three dimensions.

Cartesian, cylindrical and spherical coordinates, equation of plane.Directions cosines. Equations of straight lines. Orthogonality equation ofsphere.

Multiple Integration: Volume, center of mass, moment of inertia.

HS-108 Pakistan Studies

EE-110 Applied Electrical EngineeringNature of electricity, electric circuits and their analysis by different methods.

Electromagnetism, system of units. Basics of reading and understanding

electrical circuits. Alternating currents, alternating currents circuits,

electrical resonance.


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ME-112

Machines using ac. Principles of electronics and their applications to

measuring instruments. Principles of measuring physical quantities byelectrical methods. Introduction to single phase transformers, applications,

improvements, introduction to alternator. Introduction to lasers and fiber

optics, their uses and converters. The induction motor.Introduction to direct current machines and their working. Latest trends.

Principles of house and industrial wiring, grounding with applications,methods and their relative advantages, circuit diagrams and load calculation.

Illumination of spaces.

Applied Mechanical Engineering

1. Basics of thermodynamics:Thermodynamics systems, Laws of thermodynamics, laws of perfect gases,

Energy equations; properties of steam; thermodynamics processes. Internal

energy, enthalpy and entropy of the working fluids. Heat engine cycle.

2. Prime Movers:i) Internal combustion engine; types working principle,

characteristics and application with special emphasis in

their use in civil engineering. Introduction to gas turbines.

ii) Steam Engines: General description, hypothetical steamengine, Indicator diagram, Diagram factor, steam engine

governing. Compound steam engine.iii) Steam turbines: Working principle, types. Impulses and

reaction turbines. Work done and efficiency.

3. Air-Conditioning:Heat and cooling load and its calculation. Comfort charts. Outline of A.C.

system. Consideration for air conditioning in building construction. Ductingand its design. Insulating materials.


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3rd

Semester / Fall Semester

CourseNo.

Subject

CE-201 Mechanics of Solids-ITypes of stresses and strains, stress-strain behavior of ductile and brittle

materials. Statically determinate and indeterminate problems, compoundbars. Temperature stresses.

For determinate beams for general loading. Principle of superposition,

relationship between load, shear force and bending moment.Differential equation of beam. Singular function moment area and conjugate

beam methods. Strain energy due to direct loads, shear and bending.Castiglianos theorems and their application to find deflections and

rotations.Combined bending and axial stresses. Columns, types of columns, stability

of columns, Euler and other formulae for elastic critical load, eccentrically

loaded short columns.Torsion of solid and hollow circular sections. Strain energy due to torsion

and impact loads.

CE-203 Surveying-IIIntroduction to advanced surveying and its application. /triangulation.

Trilateration, field procedures and application. EDM, strength of figure.Computation and plotting.

Theory of Errors and Weights: quality of observations. Weighted

observations, distribution and adjustment of errors, Most probable value.Curves: Various types of curves with application, simple circular curve,

compound curves, transition curves, vertical curve and reverse curves.Design and layout of curves.

Tunnel Surveying: use of gyroscope.

Hydrographic Surveying: Horizontal and vertical contours, submarinesurface contours, discharge measurement, reservoir capacity calculation.

Field Astronomy: Solar and stellar observations for position and azimuthdetermination.

Photogrammetry: Introduction, definition and application of aerial and

terrestrial photogrammetry.Modern positioning systems, use of GPS, Computation and plotting, use of

computer and plotter.

CE-205 Fluid Mechanics-IIntroduction: Fluid mechanics, hydrostatics, kinematics, hydrodynamics.

Hydraulics, solids, fluids, liquids and gases. Units and dimensions. Physicalproperties of fluids, density, specific weight, specific volume, specificgravity, surface tension, compressibility. Viscosity, units of viscosity,

measurement of viscosity. Newtons equation of viscosity.

Fluid Statics: Pressure intensity and pressure head; pressure-specific

weight relationship, absolute and guage pressure, measurement of pressure,Piezo-meter, manometer, pressure transducers, differential manometer andBorden gauge.

Forces on Submerged planes and curved surfaces and their applications,

buoyancy and floatation, equilibrium of floating and submerged bodies.

Fluid Kinematics: Steady and unsteady flow, laminar and turbulent flow,uniform and non-uniform flow, Path line, streamlines and stream tubes.Velocity and discharge. Equation of continuity for compressible and

incompressible fluids.

Hydrodynamics: Different forms of energy in a flowing liquid, head,Bernoullis equation and its application, E.L. & H.G.L., free and forcedvortex.


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Flow Measurement: Orifices and mouthpieces, sharp-crested weirs and

notches, Pitot tube and Pitot static tube. Venturi-meter, salt velocity method,color velocity method, radio-isotope methods.

Steady flow through pipes: Darcy-Weisbach equation for flow in pipes.

Losses in pipe lines, hydraulic grade lines and energy lines. Pipes in seriesand parallel. Transmission of energy through pipes. Introduction to

computer aided analysis of pipe networks.Uniform flow in open channels: Chazys and Mannings equations.

Bazins and Kutters most economical rectangular and trapezoidal sections.


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CE-207 Mathematics-IIIStatistics: Frequency distribution, histogram, polygon, ogive. Measures ofdispersion; mean, mode, median, standard deviation, variance, and

characteristic strength. Correlation, rank correlation.

Lines of regression, least square method, probability, theorems of additionand multiplication.

Laplace Transformation: Laplace transforms of elementary functions.Basic properties. Inverse transform. Application in solution of initial value

problems. Convolution theorem. Unit step function, transforms of periodicfunctions.Fourier Series: Periodic functions. Even and odd functions. Fourier series

of functions of period, Arbitrary period, half range series. Complex form ofFourier series.

Partial Differential Equations: Wave, heat and Laplace equations.Solution of partial differential equations by product method. DAlemberts

solution of wave equation. Laplacian in polar coordinates. Solution of

partial differential equation by Laplace transforms. Application of Fourierseries.

Complex Analysis: Algebra of complex numbers. Polar form. D Moivres

theorem. Nth roots of a number. Complex functions. Complex exponentialtrigonometric and logarithmic functions. Complex functions as a

transformation. Analytic functions. Cauchy-Riemann Equations. Complexintegration. Cauchys fundamental theorem. Cauchys integral formula.

Contour integration, residual theorem. Integration of real integrals.

CE-209 Engineering GeologyThe fundamentals of general/structural geology, importance of geology for

civil engineers, introduction to engineering geology. Engineering propertiesof geological materials and rocks and their correlation with civil engineering

projects. Classification of rock masses, discontinuation of rocks and

determination of shear strength of rock discontinuity. Determination ofelastic properties of rocks, wave propagation through rocks.

Surface Investigation: Drilling, sampling and in-situ testing of subsurface

geological materials, collection of geophysical data., planning and

supervision of geophysical investigations. Behavior of sub-surface ofgeological materials under static and dynamic loading. Definition andimportance of damping for the design of civil engineers structures,

introduction to tectonic plates, causes of earthquake, determination of shear

wave modulus and construction of response spectrum.Stability of Rock Slope: various types of rock failures and factors affecting

the stability of rock slopes, analysis and calculation of safety factors, causesof landslides and remedial measures.

Engineering Geology of Dams: Identification and determination of

geological parameters required in dam design and selection of dam sites,case histories of dam sites in Pakistan.

Engineering Geology of Tunnels: geological survey prior to tunneling,lining of tunnels and its section, selection of tunnel site and its requirements

case histories.Ground Subsidence: effect of alteration of fluid levels. Mines.Practical Work: examination and interpretation of geological maps.

Logging of rock core for engineering purposes. Testing of rocks for theirelastic properties. Identification of rocks and their physical properties.


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4th


Course

No.Subject

CE-202 Elementary Theory of Structures

Introduction to structures and analysis. Types of structures, structuralidealization and loads. Redundancy and stability of structures.

Analysis of determinate in jointed structures: By method of joints,

method of sections, method of moment and shears and graphical method.Analysis of Statically Determinate Rigid Jointed Plane Frames: Shear

force, bending moment and axial force diagrams for these structures.Temperature stresses in structures.

Moving Loads: Influence lines for reactions, shear force and bendingmoment in statically determinate beams and paneled girders, influence lines

for member forces in pin jointed frames. Calculations of maximum stress

function (reaction, shear bending moment, axial force) in these structures.Three Hinged Arches, Cables and Suspension Bridges: Basic

considerations in analysis and design, moving loads on three hinged archesand suspension bridge.

Deflection and Rotations: Castiglianos second theorem. Rotation and

deflection of beams. Plane trusses and frames, principle of virtual work, unit

load method, graphical method.Three moment equation for analysis of statically indeterminate beams.

CE-204 Geotechnical Engineering-ISignificance, soil rock and their types and formation. Physical properties of

soil; water content, voids ratio, porosity, degree of saturation, specificgravity, unit weight and their determination, mass-volume relationships.

Soil classification: Importance of classification tests. Atterberg limits,

grain size distribution, Stokes lab classification systems.Geotechnical investigation: soil exploration, purpose and methods of soil

exploration. Probing, test trenches and pits, auger boring, rotary drilling andgeophysical method, soil samplers, disturbed and undisturbed samples.Introduction to geotechnical report writing.

Permeability and Seepage: Darcys law, factors affecting permeability,laboratory and field determination of permeability, capillary and its effects.

Seepage force. Introduction to flow net. Estimation of seepage quantity.Quick sand condition. Sand boiling filters.

Compaction: Fundamentals, moisture-density relationship, compaction

standards, factors affecting compaction, field control and measurements ofin-situ density. Field compaction equipment.

Consolidation: Mechanics of consolidation, theory of one dimensionalconsolidation, assumptions and validity. Odometer test and graphical

representation of data, compression index, co-efficient of compressibility,

time factor, coefficient of volume change and degree of consolidation,primary and secondary consolidation. Normal and pre-consolidated soils.


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CE-206 Civil Engineering PracticeIntroduction to Engineering Economics: Inflation, escalation, indexation,economic evaluation, financial planning, value, utility, depreciation,

arbitration and litigation. Demand and supply analysis, theory of pricing,

theory of production and laws of return.Construction Specifications: Role of specifications on cost of project.

Contracts: Types and conditions of contracts, work contracts and tendering.Estimating: Need for estimates, rough cost and detailed estimates.

Preparation of bill of quantities. Scheduled and non-scheduled rates.Analysis of rates, abstracts of costs. Preparation of estimates from drawings.Use of proper planning. Introduction to critical path method.

Safety and Environmental management at construction sites.Technical Report Writing: Qualities of a good report, main parts, scope

and functions, Logical sequence, numbering system and use of suitable

heading and subheadings. Formats of title page, table of contents,bibliography, footnote.

Oral Presentation: Basic principles of good oral presentation.

CE-208 Civil Engineering Construction & GraphicsCivil engineering projects.Masonry Construction: Types of stone, brick and block masonry, bondsin brick masonry.

Dampness in buildings: Causes and remedial measures.

Various types of floor finishes, interior and exterior finishes, scaffolding

and form work. Expansion and construction joint, factors affecting theirlocation.

Concrete Construction: Batching, mixing, transportation and compactionof concrete. Pre-cast concrete, concrete construction. Quality control in

concrete construction.

Wood work in building construction.Defects in building construction. Principal defects, diagnosis causes and

remedial measures.Stone crushers, Machines for cleaning and grading of aggregates. Concrete

mixers, vibrators and pneumatic tools.

Types of Civil Engineering Drawings: preparation of plans, elevations andsections. Working drawings of a residential building. Computer graphics.

Application of architectural planning and rendering in civil engineeringprojects.

HS-210 Technical Report Writing and PresentationsBusiness English: Writing formal and business letters, writing formal

memos, drafting notices and munites of meetings, draftins tender notices,theoretical knowledge, comprehension of contracts and agreements,

preparing proposals and technical reports, conducting and writing a projectreport on a mini research.

Engineering Ethics: Introduction to business laws, code of conducts.

CE-212 Numerical AnalysisComputer Calculations: Binary arithmetic representation of numbers incomputer, errors in arithmetic operations, errors in computational methods.

Solution of non-linear equations: Simple iteration. Bisection method,Newtons method, Secant method, method of false position, comparison of

these methods.

Finite Differences: Different operations and tables, difference ofpolynomials, Newtons and Gauss interpolating techniques for equallyspaced data, simple theorems on divided differences, Newtons formulations


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for unequal intervals. Lagranges formulations of interpolation, curve

fittings by the method of least squares.Numerical differentiation and integration with civil engineering

applications.

Solution of Linear Simultaneous Equations: Gauss elimination method.Jacobis method. Gauss-Siedel method, sparse matrices, solution of ordinary

differential equations, initial value problems, Euler and modified Eulermethods, Runge-Kutta and Kutta-Merson methods.

Eigen-values and Eigen-vectors: Interactive and transformation methods,Eigen-values of tri-diagonal matrix.Solution of Polynomial Equations: Polynomial arithmetic, finding initial

approximations and complete solution of polynomial regression analysis.

Course

No.

5th


Subject

CE-301 Structural Analysis.Force Method: Methods of least work and consistent deformation,application to statically indeterminate beams, frames, grids, trusses and two

hinged arches.Displacement Method: Slope deflection method, moment-distribution

method, application to indeterminate beams and frames.Column Analogy Method: Application to prismatic members. Stiffness and

carry over factors of straight members of variable moment of inertia.

Analysis of portal frames with one axis of symmetry, without axis ofsymmetry. Analysis of gable frames, closed frames and portal frames. Effect

of axial force on stiffness and carry over factors and stability of simpleframeworks.

ILD for Indeterminate Members: Clark Maxwell and Bettis theorems.

Influence lines for moment and reaction in popped cantilever, fixed endedand two and three span continuous beams. ILD for shear force and bending

moment at any section in an indeterminate beam.Introduction to Plastic Theory: Application to continuous beams and

portal frames.

CE-303 Geotechnical Engineering-II.Shear Strength: Concept, parameters, Coulombs law, shear strength of

cohesive and non-cohesive soils. Factors affecting shear strength of soil and

its applications in engineering. Laboratory and field tests for determination

of shear strength.Stress Distribution in Soils: Geo-Static stresses, total stress and pore

pressure, effective stress, vertical stresses induced due to structural loads;Westergard and Boussineqs theories. Pressure bulb stress distribution

diagram on horizontal and vertical planes.Stress at a point outside the loaded area. Newmarks influence charts,

Fadum, Steinnbrenner charts.

Settlement Analysis: Definition, total settlement, differential settlement,

angular distortion, consolidation settlement, elastic or immediate settlement.Settlement calculations, Primary and secondary consolidation settlements,


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Immediate settlement of cohesive and non-cohesive soils, Causes of

settlement and methods of controlling settlement, Limits of allowable totaland differential settlement.

Earth Pressures: Definition, pressure at rest, active and passive earthpressures, Coulombs and Rankines theories. Trial wedge and Culmanns

method. Earth pressure diagrams for different configurations loading.

Bearing Capacity of Soils: Definition of ultimate and safe bearingcapacities, allowable bearing capacity, gross and net bearing capacities,

methods of obtaining bearing capacity: Presumptive values from codes: merits and demerits.

From plate load test.

Bearing capacity theories.

Bearing capacity from SPT and CPT data.

Introduction to Foundation Engineering:Slope Stability: Types of slopes. Factors affecting stability and remedies.

Types of failure methods of analysis: Swedish circular method. Taylors

slope stability number and Bishops methods.

Earth and Rock Fill Dams: Definition of an earth dam, types of earth and

rock fill dams, components of an earth dam and their functions. Generaldesign consideration and typical cross-sections.


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CE-305 Steel Structures.Introduction to steel as a structural material, hard rolled, cold formed and

built up sections. Objectives of designers and selection of design criteria.

Introduction to various methods of design.Fundamental of working stress method: Strength analysis and design of

simple tension, compression and flexural members.LRFD Method of Design: Factor of safety, loads and load combination.

Concept of load and resistance factors, plastic design and limits on design.Analysis and design of tension members, calculation of net area. Analysisand design of columns. Lacing and stay plates. Residual stresses, local andoverall stability, Eulers buckling load in columns. Analysis and design ofbeams, compact, non-compact and slender sections, lateral torsion buckling.

Beam-column and axial-flexure interaction, second order effects, moment

magnification. Plate girder proportioning and stiffener design includingdrawings. Welded, bolted and riveted truss connections, brackets, moments

and shear connections. Design and drawing of a truss, purlin, roof sheet, endbearing plate. Uplift of truss due to wind.

CE-307 Construction, Planning & Management.History of construction management. The nature and characteristics of the

construction industry. General principles of construction management.

Construction project life-cycle. Organization structures. Constructioncontracts and their procurement.

Project Planning and Budgeting: Project monitoring and control.

Introduction to construction productivity analysis; definition factors

affecting construction productivity analysis (On-site and Off-site).Application of Engineering Economics Concepts. Interest and present

worth calculations, comparison of alternatives, replacement, depreciationand depletion; tax, effect of inflation. Application of engineering economics

in construction equipment management.

Use of software in construction management and planning. Application ofISO 9000 to construction management and planning. Total quality

management.

CE-309 Engineering Hydrology.

Introduction: Hydrology, hydrological cycle and the hydrologic equation,practical uses of hydrology, importance of hydrology.Meteorology: the atmosphere and its composition, relative humidity, dew

point and their measurements devices. Saturation deficit. Solar radiation as a

source of heat, adiabatic changes and the lapse rate, air temperature,

seasonal and diurnal variation of air temperature. The general circulation ofwind system, the monsoons and western disturbances. Measurement of airtemperature, relative humidity, radiation, sunshine and atmospheric

pressure.

Precipitation: Types of precipitation, factors necessary for the formation of

precipitation, measurement of precipitation, interpretation of precipitationdata.

Evaporation and Transpiration: Factors affecting evaporation,

measurement of evaporation evapo-transpiration.Stream Flow: Water stage and its measurement, selection of site for storage

record, selection of control and metering section, methods of measurementof stream flow, interpretation of stream flow data.

Runoff: Factors affecting, estimating the volume of storm runoff.Hydrographs: Characteristics of Hydrographs, components of a

hydrograph, hydrograph separation, estimating the volume of direct runoff,

introduction to unit hydrograph concept, S-curve. Application of probabilityin determining maxima/minima of discharge. Types of histrograms &

distribution.


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Stream Flow Routing: Introduction to flood frequency and duration

analysis. Reservoir routing, channel routing.Ground Water Flow: Introduction, sources and discharge of ground water.

Water table and artesian aquifer. The Theis formula and its application to

aquifer tests. Reservoir sedimentation. Factors controlling erosion, sedimentrating curves. Sediment yield of a catchment, sedimentation in reservoirs.


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6th


CourseNo.

Subject

CE-302 Mechanics of Solids-II.Analysis of Stress and Strain at a point due to combined effect of axialforce, shear force, bending and twisting moment. Mohrs circle for stresses

and strains. Relationships between elastic constants.

Experimental stress Analysis, strain rosette solution.

Theories of Yielding/Failure for ductile and brittle materials.Biaxial Bending of symmetrical and unsymmetrical sections , shear stress

distribution in thin walled open sections and shear center.

Thick, Thin and Compound Cylinders.Columns: Stability of columns, conditions of equilibrium, eccentricallyloaded columns, initially imperfect columns.

Introduction to Bending and Buckling of Plates.

CE-304 Plain & Reinforced Concrete-I.Plain Concrete: Constituent materials of concrete and their properties.Hydration of cement. Properties of fresh and hardened concrete and factors

effecting them. Curing of concrete and its significance. Testing of concretefor various properties including physical tests, strength tests. Crushing or

ultimate strain. Modulus of elasticity of concrete, types, tests, determinationand significance. Design of normal concrete mixes, factors affecting theworkability of the fresh and strength and durability of the hardened concrete.

Alkali aggregate reaction, carbonation and sulfate attack. Additives andadmixtures for concrete. Cracks in concrete.

Mechanics of Reinforced Concrete: Basics of composite action of steeland concrete. Stress-strain curves of steel and concrete. Actual, simplifiedand equivalent stress blocks. Behavior of reinforced concrete members

including columns, beams and slabs at working and ultimate loads.Specifications, codes of practice and design loads. Analysis design and

detailing of : Simply supported rectangular and T-beams by ultimatestrength design method, simply supported and continuous one way and twoway slabs. Reinforced concrete members for axial compression and tension.

Tied and spiral columns. ACI Code provisions for design of columns. Shearand diagonal tension in concrete, design and detailing of flexural members

for shear. Corner reinforcement in slabs. Assessment of crack width inflexural members. Introduction to alternate method of design with

applications.Practical: Physical testing of constituent materials for concrete. Acceptancetests for cement. Tests on fresh and reinforced concrete for workability,

compressive strength, tensile strength, modulus of rupture and modulus ofelasticity. Casting of different types of beams and columns and testing to

study the effects of various factors. Detaining of designed elements.

CE-306 Fluid Mechanics-II.Fluid Flow in Pipes: Reynolds number and its significance. Instability of

viscous flow, viscous flow through circular pipes. Turbulent flow through

circular pipes, semi empirical theories of turbulence, velocity profile inturbulent flow, pipe roughness, Nikuradess experiments, Moodys diagram,

branching pipes.Dimensional Analysis: Reyleighs method, Buckinghams PI-theorem andits application.

Hydro-dynamics: Ideal and real fluids, differential equation of continuity,

rotational and irrotational flow, stream function and velocity potential

function, circulation and vorticity, orthogonality of steam lines and equi-potential lines, brief description of flow fields, flow net and its limitations,


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7th


CourseNo.

Subject

CE-401 Water Resources & Irrigation Engineering.Introduction: Definition and types of irrigation, Merits and demerits, Indus

basin irrigation system.Water Resources: Planning and development of water resources projects.

Water resources in Pakistan.

Canal Irrigation: Elementary concept about canal head works. Selection oftheir site and layout, weirs and barrages various components and functions.

Measures adopted to control slit entry into canals slit ejectors and slitexcluders. Design of weirs on permeable foundation street piles and well

foundation, cut off walls. Design of irrigation channels, Kennedys and

Laceys theories. Rational methods for design of irrigation channels.

Comparison of various methods. Computer aided design of irrigation

channels.Irrigation Works: Canal head regulators, falls, meter flumes, canal outlet

types and functions, cross drainage works. Advantages and types.Maintenance of irrigation canals.

Irrigated Agriculture: Water requirements of crops duty of irrigation

water, Delta of crops consumptive use estimation of consumptive use,

methods used for assessment of irrigation water. Irrigation methods andpractices. Management of irrigation systems, participationary irrigationmanagement.

Water Logging and Salinity: Definition, field capacity wilting point,hygroscopic moisture etc. causes and effects of water logging reclamation ofwater logged soils, causes and effects of salinity and alkalintity of lands in

Pakistan.

CE-403 Plain & Reinforced Concrete-II.Introduction to limit states: safety and serviceability provisions. Basics of

bond, development length, curtailment and splicing of bars and ACI codeprovisions.Analysis and design of continuous, rectangular and T-beams. Design and

detailing of one way continuous slabs, two way continuous edge supportedslabs by coefficient and direct design methods. Design of columns supported

slabs by direct design methods. Design and detailing of one way and twoway joist slab floors.

Analysis design and detailing of eccentrically loaded columns. Introduction

to biaxial bending and design of slender columns. Shear walls.Design of isolated footings for axially and eccentrically loaded columns.

Design of combined and strip footings.Design and detailing of stair cases. Testing of structures in service. Load

testing and non-destructive testing. Strengthening, repair and rehabilitation

of existing structures.

CE-405 Transportation Engineering.Highway Engineering: Elements of typical cross section of road, types of

cross sections. Design speed, lane capacity. Capacity reducing factors.

Horizontal and vertical curves, grade line, super elevation, transition curve,

curve widening, sight distance requirements. Principles of intersectiondesign for at-grade and grade-separated intersections, channelization.Highway construction materials and their tests. Characteristics of drivers,

vehicles and road ways, traffic surveys, traffic controlling devices, highway

illumination, parking and accidents studies.

Runway Engineering: Airport requirements for site selection. Airportclassification, airport characteristics, runway length and runway


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Page 20 of 21

8th

Semester

Course

No.

Subject

CE-402 Structural Engineering.Prestressed concrete: Prestressed Vs reinforced concrete. Types of

prestressing. Losses in prestressing. Analysis and design of simple

prestressed concrete members. Introduction to various prestressing systems.Bridge Engineering: Types of bridges, Selection of site for a bridge. Bridge

loadings. Load distribution on bridge decks. Introduction to design of deckfor a simple concrete bridge.

Advanced Structural Analysis: Definition of matrices and determinants:their properties. Stiffness method, stiffness of springs and their assembly.

Truss element, beam element. Plantation of stiffness sub-matrices of

multiple ended members. Basis of structural dynamics.Introduction to earthquake resistant design.

CE-404 Hydraulic Engineering.Steady flow in open Channels: Specific energy and critical depth. Surfaceprofiles and back water curves in channels of uniform sections. Hydraulic

jump and its practical applications. Flow over humps and throughconstrictions.

Critical depth meter: Broad crested weirs and venturi flumes.

Unsteady flow: Discharge through orifices and over weirs under varyingheads. Unsteady flow through pipe lines, water hammer. Instantaneous and

slow closure of valves. Surges in open channels.Dams and Reservoirs: Types of storage dams. Forces on dams. Design ofgravity dams, Reservoir engineering. Regulation of storage reservoirs.

Methods of determining capacity of a reservoir.Hydraulic Similitude: Similitude in hydraulic model testing. Similitude

requirements. Geometric, kinematics and dynamic similarities. Variousdimensionless numbers and their significance. Physical model techniquesand analysis. Introduction to numerical models.

Hydro Power Engineering: Selection of hydropower sites. Componentsand layout of water power schemes. Power house dimensions.

CE-406 Pavement & Foundation.Pavement Design: Types of pavement. Wheel loads. Equivalent single

wheel load. Repetition and impact factors. Load distribution characteristics.

Highway and airport pavements compared. Design considerations. Methodsof design pavements. Group index, C.B.R. and Westergaurd method.Construction and maintenance. Pavement evaluation and rehabilitation.

Foundation:Introduction: Geotechnical properties, Laboratory Testing, Soil Exploration,

bearing Capacity and settlement. Types of footings, General requirements offoundation, depth of footings, selection of foundation types, geotechnicaldesign of isolated, combined, mat and strap foundations, differential

settlement and cracks, proportioning of footings for given settlement or

equal settlement, dewatering for foundation construction, introduction to

deep foundations, types of piles, load carrying capacity of piles, groupaction, negative skin friction, pile load test.

CE-408 Computer Aided Analysis & DesignComputer Aided Analysis of Structures: Introduction to Stiffness

Method. Analysis of planar structures using Interactive and Black BoxProgramming Techniques.


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Computer Aided Design and Drafting of Structures: Structural systems

for buildings. Integration of analysis, design and codes of practice.Structural design and detailing of one/two storied houses, multistoried RC

and/or steel framed structures for residential, commercial and industrial

uses; liquid-retaining structures, retaining walls. Review of design of astructure.

Application of Microsoft office and other Packages: for preparinganalysis, design and estimate reports.

CE-410 Project B.The project shall consist of design, investigation or literature survey of anyproblem of Civil Engineering.

* Final Year Project is splited in 7th

and 8th

semester. In 7th

semester only a

time slot is given but marks will be awarded in 8th

semester

Documents

Course Outline Semester 2007