Syllabus, Teaching and Examination schedule

Syllabus, Teaching and Examination schedule

B. Architecture I Year (I Semester)

English EN-101

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

A- Reading and study skills including reference skills and note taking:

1. Ten passages in modern English prose to be used for

 Developing comprehension and interpretative skills.

 Development of vocabulary drawn from scientific register.

2 Supplementary reading for self-study. The aim of this component is:

 To develop students Independent reading ability.

 To expose them to the variety of English used in the contemporary life through function or drama.

B- Writing Skill:

 How to express condition, casualty, comparison, possibility, probability, preference, plan, Invitation, request, promise and suggestion.

 Paragraph with emphasis on the cohesive links within and across the sentence.

 Precise writing.

 Composition of about 400 words on topics familiar to the students.

The following grammatical items shall constitute teaching-learning targets in:

Comprehension as well as written English, Sentence types: declarative, Imperative, Question Tenses. Form and Function. Simple Present; Present Perfect; Perfect Continuous; Future with temporal, conditionals, reported speech, Active and Passive, Voice, relatives, Adverbs; Adjectives; Article, Preposition; Phrasal Verbs.

C-Speech Training:

 Consonants, Vowels

 Word stress, sentences stress Unit-wise distribution of marks is as follows:

Unit-I Text: Comprehension question, summary type as well as short answer type and Questions on Vocabulary from 10 passages for the Basic Scientific English By Ewer & Lattorre (Longman) 20%

Units are 1, 2, 3, 4, 5, 8, 11 from main Book and Passages 4, 1, 13, 17 from the supplement.

Unit-II : Comprehension questions, summary or short-answer type from the following Supplementary Readers 10%

- Animal farm by George Orwell

- The Time Machine by H.G. Wells retold by Margery Gree (Macmillan)

Unit-III: Note taking and note making exercises, report and process writing 10%

Unit-IV: Precise Writing 05%

Unit V: Composition & Spoken English 15%

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit I

Concepts of Ecology: Ecosystem, Energy and nutrient flow in ecosystem, Food chain, Environmental Segments:

Atmospheric Structure, Classification of air pollutants, sources of air pollution and their effects on human health and property. Atmospheric chemistry, Photochemical Smog, Ozone depletion.

Unit II

Air Quality and Standards, Meteorological phenomena and their influence on Air Quality, Lapse rates, Dispersion of Pollutants.

Air Pollution Control: Introduction to Particulate and Gaseous pollutant control.

Unit III

Water Quality: Physical, Chemical and Biological parameters. Water quality standards, Biochemical (BOD) and Chemical Oxygen Demand (COD). BOD/COD Calculations

Environmental Analyses: pH, Alkalinity, Conductivity, Ammonia, Fluoride, Sulphate, Chloride. Analysis and measurement of gaseous pollutants.

Unit IV

Water purification processes in natural systems: Dissolved Oxygen (DO), Impact of wastewater discharge on streams, Oxygen Sag Curve.

Introduction to Water Treatment Technologies: Sedimentation, Coagulation and Flocculation, Hardness Reduction, Filtration and Disinfection.

Unit V

Wastewater Characteristics, Introduction to wastewater treatment technologies. Primary Treatment: Screening, Grit Removal, Flow measurement, Flow equalization. Secondary Treatment: Microbial growth curve, Suspended and Attached growth systems.

Unit VI

Solid Waste: Classification, Sources and Characteristics.

Waste Management: Solid Waste Generation, Collection, Processing and Disposal Methods.

Resource Recovery in Waste Management, Biological and Thermal Conversion Processes.

Note: Units I and III shall be taught by the Department of Applied Chemistry.

Units II and VI shall be taught by the Department of Chemical Engineering.

Units IV and V shall be taught by the Department of Civil Engineering.

Reference Books:

Syllabus, Teaching and Examination schedule

B. Architecture I Year (I Semester)

Applied Physics AP- 111

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit – I (10 Periods)

Hygrometry and Heat Transfer:

(a) Hygrometry: The dew point, Relative humidity, Absolute humidity, Dryness and Dampness, The hygrometers (Regnault’s hygrometer. Wet and dry bulb hygrometer. Hair hygrometer), Psychrometric charts and their use. Condensation of atmospheric moisture.

(b) Heat Transfer and Air Conditioning : Heat transfer : Heat flow, Heat flow rate, Density of heat flow rate, Conductivity, Relevance of density, Conductance, Multilayered body, Surface Conductance, Transmittance, avities, Convection, Effects of surface films on heat transfer, Radiation, Sol-air temperature, Solar gain factor, Ideal radiator (or black body), Radiometer, Theory of exchange, Rate of radiation, Stefan Boltzmann law Newton’s law of cooling, Planck quantum theory of radiation (qualitatively), Spectral distribution of black body radiation, Wien’s displacement law, Planck’s formula for spectral radiancy of a black body (without derivation).

Air-Conditioning: Introduction, Recommendation of the American Society of Heating and Ventilating.

Engineers (ASHVE). Essential factors to be controlled for air conditioning, Summer Air-conditioning and winter Air-conditioning.

Unit II: (10 Periods)

Sound Waves and Acoustics:

(a) Sound Waves: Natural of Sound waves, Noise and musical sound, Values of Velocity of sound in some typical media. Power and intensity of sound, Inverse square law for intensity of sound, human ear’s sensitivity, Sound level scale (or decibal scale) Frequency spectra, Effects of noise, Noise in free in enclosed spaces, sound transmission paths in buildings.

(b) Acoustics: essential requirements of good acoustics of an auditorium, Reverberation and reverberation time, Absorption of sound, Absorption coefficient and total absorption, Sabine’s formula and its derivation. Optimum reverberation time for music and speech, measurement of absorption coefficient, Absorption coefficients of some typical materials, Factors influencing acoustical properties of buildings, Noise and its insulation.

Unit-III (10 Periods) Illumination and Colour:

(a) Illumination: Introduction, Definition of photometric terms, (luminous efficiency, luminous flux, luminous intensity and illumination or illuminance, oblique illumination and Lambert’s cosine law, brightness or luminance), Standards and units, Artificial lighting of a room, Levels of illumination good for present day practice, Photometers, lighting of a room, Photometers, (Bunsen’s grease-spot photometer and Lummer Brodbun photometer).

3. College Physics: D.B. Sinha and J.M. Das Sarma, Modern Book Agency Pvt. Ltd. Calcutta.

4. Physics of the Atom: Wehr, Richards and Adair.

Syllabus, Teaching and Examination schedule

B. Architecture I Year (I Semester)

Applied Mathematics-I AM- 111

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit-1 Rank of a matrix with applications to consistency of a system of linear equations, Equations, Eigen- values and Eigen vectors of a matrix, Cayley – Hamilton Theorem.

Unit-2 Angle between radius vector and tangent, Angle between polar curves, Centre and radius of curvature, Asympototes and simple curve tracing.

Unit-3 Successive Differentiation, Leibnitz’s Theoram, Infinite series and its convergenge by ratio test, Comparosion test and root test. Taylor and Maclaurin series with remainder terms.

Unit-4 Applications of integration to lengths of curves, surfaces and volumes of solids of revolution.

Unit-5 Solution of exact differential equations, Linear differential equations of second and higher order with constant coefficients, Homogeneous differential equations. Simultaneous linear differential equations, Aplication to physical problems.

Books:

- A first course of Mathematics – Chandrika Prasad.

- Mathematics for Engineers – Chandrika Prasad.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 2 0 0 4 15 25 60 3

Contents:

Unit 1 Analysis of stress and strains; Elastic and plastic behavior of engineering materials; Mechanical properties; Analysis of simple state of stress and strain; Elastic constants, Examples of the state of tension, compression and shear.

Unit 2 Analysis of two and three-dimensional stresses and strains; Analytical and graphical methods; Principal stress and strain; Introduction to failure criteria

Unit 3 Analysis of determinate structures; Bending moment and shear force for single span, Overhanging and cantilever beams, Relationship between rate of load, bending moment and shear force.

Unit 4 Stresses in beams; Bending stresses in symmetrical sections, solid thin walled and composite sections, Efficiency of shapes, Shearing stress in symmetrical sections; unsymmetrical sections, solid thin walled and composite section.

Unit 5 Torsion; Relation between twisting moment, shear stress and angle of twist, Torsion in circular shaft, Torsion in non circular sections, Engineer’s approach; Unsymmetrical bending and shear center.

Text/Reference books

1. Popov, E., “Engineering Mechanics of Solids”, PHI, Delhi, India.

2. Timoshenko, S. and Young, D. H., “Elements of Strength of Materials”, DVNC, New York.

3. Kazmi, S. M. A., ‘Solid Mechanics” TMH, Delhi, India

Syllabus, Teaching and Examination schedule

B. Architecture I Year (I Semester)

Principles & Philosophy of Architecture AR-112

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 2 0 0 4 15 25 60 3

Contents:

 Introduction: Architecture as a discipline and profession.

 Need and understanding of the discipline in present day situation and its scope.

 Architecture and Allied disciplines.

 Various definitions /understanding of the term Architecture.

 Elements & Principles of Design and its application. Philosophies and Concepts of trend setting Architects (Indian and foreign).

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 2 4 40 20 40 3

Contents:

 Introduction to nature, scope and application of this Course, familiarization with drafting tools and accessories, drawing instruments and their uses, sheet format.

 Lines: Types of lines, line thickness, dimension lines

 Lettering: Exercises in drafted and free hand architectural lettering.

 Scales: Graphical scale, Representation Factor(RF), scales for drawing

 Representation of Materials, human figures, vegetation, automobiles, etc.

 Orthographic projects

 Rendering of sheets composed of ZD pattern forms.

 Surface development of solids.

 Isometric views of solids and composition of solids.

Syllabus, Teaching and Examination schedule

B. Architecture I Year (I Semester)

Manufacturing Process Lab ME-194

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

0 1 2 0 2 60 - 40 -

Contents:

Group I

Basic carpentry operations and tools used, with practical exercises. Exercises on metal working, Forging operations like drawing upsetting and bending, Metal joining, Introduction to different welding processes.

Manual metal: arc welding equipment and techniques and preparation of different types of joints. Introduction to sheet metal work and soldering. Surface treatment and electroplating.

Group II

Introduction to common machining operations on Lathe, Shaper, Drilling, Slotter, milling and grinding and boring with selected exercises. Introduction to metal casting, moulding, preparation of a mould of a given pattern, casting of a simple pattern. Exercises in bench working and fitting.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit-1

 Review of de circuit and theorems.

 Single phase ac circuits.

 Concept of phase or and phase diagram

 RLC series and parallel circuits.

 Power and power factor.

 3 phase ac circuit, star, delta balanced connections.

Unit-2

 Review of magnetic circuits, magnetization curve.

 Hysteresis effect and losses.

 Eddy current effect and losses.

 Series and series parallel magnetic circuits.

 Constructions of 1-phase transformer

 Equivalent circuit of I-phase transformer.

 Losses and efficiency of I-phase transformer.

Unit-3

 Dynamic emf equation, force on current carrying conductor.

 Construction and principle of operation of 3-phase alternator.

 Construction of 3-Phase induction motor.

 Production of rotating magnetic field.

 Principle of operation of 3-phase induction motor.

 Starting methods of I-phase induction motor.

Unit-4

 Basic elements of an instrument-defection, control and damping.

 MC and MI ammeter and Voltmeter.

 Dynamometer type wattmeter and Induction energy meter.

Unit-5

 Elements of power system, power generation systems layout of power generation systems.

 Thermal ,Hydro, Nuclear and Gas power plants.

 Non Conventional (solar, wind etc.) sources of energy.

 Recent trends in generation.

References:

- *V.Del Toro, “Electrical Engg. Fundamentals”, Prentice Hall (India) Ltd. New Delhi.

Syllabus, Teaching and Examination schedule

B. Architecture I Year (2^nd Semester)

Construction and Materials-I AR-102

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 0 0 2 4 40 20 40 3

Contents:

Construction:

 Basic Tools: Introduction to basic tools used by masons and carpenters

 Brick Work: Technical terms used in masonry, Header, Stretcher, Closer, Joints etc.

 Bonding: Types of bonds, English, single & double Flemish, Rat-rap etc

 Quoins: Squint Quoins, tee & cross junctions for various thickness, attach piers, coping etc.

 Stone masonry: Dressing of stone, Random Rubble, Coursed Rubble, Ashlar etc.

 Timber support structure like shoring, timbering of trenches, shuttering, scaffolding etc.

Materials:

 Introduction, scope and classification of engineering materials & their properties

 Stones: Common building stones, their composition, properties, uses and occurrence. Characteristics of good building stones. Uses of stones and their selection. Preservation & Deterioration of stones.

 Bricks and clay products:

Classification of bricks, Qualities of Good bricks, Constituents of brick earth, harmful ingredients in brick earth. Building Tiles, Earth ware & Stone ware.

 Timber and Timber Products:

Characteristics of good timber, structures and growth of trees, Defects in timber, Seasoning of timber, Decay of timber. Timber trees of India and their selection criteria. Veneers, ply woods & boards etc.

Methodology:

 Practice in brick bonds (with dry models/actual with mortar)

 Studio assignments/preparation of sheet

 Site visit/practical demonstration and material survey reports.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 0 0 4 6 40 20 40 3

Contents:

 Definitions of perspective terminology (picture plane, station point, vanishing point etc.), and their role in perspective drawing.

 Angular and One point perspective.

 Bird’s eye view.

 Rendering of perspective.

 Sciagraphy in plan and elevation.

Syllabus, Teaching and Examination schedule

B. Architecture I Year (2^nd Semester)

Arts & Graphics AR-106

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 0 2 3 40 20 40 3

Contents:

 Introduction in relation to the functional and emotional values of art in Architecture.

 The basic language of art and Aesthetic

 Expressive forms, additive and subtractive forms, composition and assemblage.

 Surface division- Mural and Collage design exercises.

 Volume creation, plastic modulation and fundamental attitudes in treating materials, with reference to colour, texture and form.

 Outdoors sketching.

Methodology

Lectures and Exercises on the above topics

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 2 4 50 10 40 6#

Objectives:

 Orientation of mindset towards architectural profession with a focus on creativity and implementation basic principles of architecture in the design.

 Sensitizing students to be more observant to their surroundings and promoting it as a basic instinct in the students.

Contents:

 Introduction to human activity and space required for different activities: Study of anthropometrics and their relationship with the dimensions of objects of daily use, such as common use furniture, equipments and building components.

 Determining space for activities such as living, dining, sleeping and conveniences.

 Detailing of residential components as bathroom, kitchen, bedroom etc.

 Time, Space, Activity relationship

 Design of Unicellular Activity Space such as chowkidars post, bus stop, cycle stand, dhaba, advertisement booth, cyber cafe, gates etc.

 Design of repetitive units such as small public library, Primary Health Centre etc.

 Simple circulation/flow diagrams for small building projects.

Methodology

 Lectures and studio exercises

 Site visits/ Case studies

Text and Reference Books

1. Time saver standards Building Type by De Chiara

2. Neufert Architects Data edited by Bousmaha Baiche and Nicolas Walliman 3. Form Space and Order By D K Ching

Syllabus, Teaching and Examination schedule

B. Architecture I Year (2^nd Semester)

Computers Programming Lab CO-191

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

0 1 2 0 2 60 - 40 -

Contents:

Unit I: Introduction to Computers:

Computer Hardware-Classification (Microcomputer, Minicomputer, Mainframe, Supercomputer), Components of Modern Computer Systems, Personal Computer (PC).

Systems Software- Introduction to Operating Systems, File and Directory Structure, Overview of DOS, Windows and UNIX Operating Systems, Introduction to Editors, Basic Features, Different Types of editors (text, graphics etc), Overview of major editors (WordStar, Edit, Turbo C Editor, Notepad and ‘vi’ editor), Graphics Editor.

Unit IInd: Fundamentals of Algorithm and C Programming:

Introduction to Algorithm, Flow chart, Algorithms of simple problems – Determining Minimum, Series computation, Factorial computation, Sorting etc. Fundamentals C programming. Primitive Data Type (int, char, float, long, double), Enumerated type, Constants, Variables input and output functions, Comments.

Unit III: Operator, Expressions and Control Constructs:

Operators, Expressions, Arrays, If-Else, Switch, Loops (For, While, D0-While), Break, Continue, Goto and Labels,

Unit IV: Other Topics in C

Functions and program structure, Scope rules, Variables-(External, Static, Register). Structures, Unions, Pointers, Typedef, File Operations, Library Functions (Mathematical, String, Random Number Generation, Dynamic memory Allocation).

Unit V: Computer Networks and Engineering Application:

Computer Networks- Introduction, LAN, WAN, Internet, Networking Equipment.

Engineering Applications – List of Major Engineering Applications, Overview of some Engineering Applications Software (Math CAD, AutoCAD etc.)

Ref:

1.Gottfried “Theory and Problems of Programming with C” Schaum’s Outline Series, TMC (Text Book).

2.Kerighan and Ritchie “The C Programming Language”, PHI.

3.Peter Norton “Introduction to Computers”, Tata McGraw Hill

Climate & Design AR-211

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 2 0 0 4 15 25 60 3

Contents:

Climatology: - Climate, seasons, tropics, climatic zones, macro and micro climate, elements of climate, sun, temperature, wind and precipitation, diurnal and seasonal variations

Climatological data and equipments needed for planning of Buildings.

Air Temperature: - Factors that influence air temperature – latitude, attitude, sun, season, land, water, wind, atmospheric impurities, green area, inversion of temperature.

Insulation resistance and capacity insulation.

Thermal diffusivity, thermal conductivity and heat transmission through building components.

Wind:- Heating and cooling effects and effect of topography, Effect of Wind on location of industrial areas, airports and other land uses and road patterns, Air pattern within and around buildings, wind eddies, size and position of opening with and without overlays and other architectural elements, wind pressure on buildings.

Effect of winds on design and siting of buildings.

Precipitation: - water vapour, relative humidity, condensation, rain, fog and snow, their impact on buildings.

Human Comfort: - Human heat balance and comfort, thermal, comfort, heat stress, effective temperature, bioclimatic analysis and individual variations.

Solar Radiation: - Direct and indirect insolation, reflectivity and emissivity, method of recording the sun’s position, radiation gain on various walls and roofs in various seasons, solar angles. Application of solar charts in the design of sun control devices.

Day Light: - Glare, colour, amount of light, and sky as a source of light and day light factor. Effect of size and shape of openings in different planes with and without obstructions. Intensity of light spread, penetration, design and setting of building for daylight.

Orientation and Building Techniques: - Application of above principles in design and sitting of buildings and its components, building shapes and fenestration, volume-effect, chimney effect, cavity wall, time lag, evaporative, cooling and ground cooling, passive and active means of climatic control(in brief).

Ventilation of roof spaces and controlled ventilation.

Effect of trees and plants.

Introduction to intelligent building ,sustainable design, energy efficient architecture, green architecture and building energy software tools.

Syllabus, Teaching and Examination schedule

B. Architecture II Year (3rd Semester)

Construction and Materials-II AR-203

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 3 5 40 20 40 3

Contents:

Construction:

To introduce construction techniques, types and materials used for the basic components of the building such as

 Foundation: Deep and shallow foundations

 Doors and Windows: Wooden and steel

 Lintels and Arches

 Cavity wall constructions Materials:

Metals and Alloys: Ferrous and Non-Ferrous Metals and its alloys

Glass: Introduction , constituents and properties, classification and its uses.

Plastics and Fibres: Definition, Constituents, classification, commercial forms and its uses in building industries.

Methodology:

 Preparation of plates/sheets for all topics.

 Theoretical assignment/seminar presentations on above topics.

 Site visit/practical demonstration and material survey reports.

Man, Society & Buildings HU-208

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 0 0 0 2 15 25 60 3

Contents:

Man, environment and society, Unity and diversity in India, Rural Society, Traditional patterns and trends of change.

Concept of social stratification, urbanism and urbanisation. Modernisation; the concept and its scope in India.

Concept of Social structure, cultural and social institutions, Relation between social aspects of housing, social problems of slums, middle class and high class aspirations and achievements.

Syllabus, Teaching and Examination schedule

B. Architecture II Year (3rd Semester)

Water Supply and Sanitation AR-217

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 1 0 0 3 15 25 60 3

Contents:

Water Supply

Sources of water supply. Impurities of water. Water treatment plants. Systems of water supply. Reservoirs and overhead tanks, capacity of overhead tanks and estimating the water consumption. Systems of piping for water supply. Water supply connections, various types of water meters. Water storage tanks, their capacity and location.

Hot and cold water supply in buildings. Pipes, their size and jointing and different fittings e.g. ferrule, stop cocks, bib cocks, pillar cock, push top, ball cock etc. with their connection to sanitary fitting.

Sanitation

Basic principles of sanitation and disposal of waste matter, Dry carriage and water carriage systems. Study of various sanitary fittings, e.g. wash basins, water closets, bath tubs, sinks, urinals, bidets, flushing cistern etc.

Traps, their variety, design and uses etc. Pipes and joints. Storm water and dry weather flow. Drainage systems i.e. separated combined and partially combined systems. Gradients of drain self cleansing and non-scouring velocities. Manholes and Ventilation of sewerage.

Systems of Plumbing

Single stack system, one pipe and two pipe systems. Gully trap, inspection chambers, intercepting chamber, Septic tanks.Model Plumbing Bye-Laws and Indian standards. Designing the layout of simple toilet units and kitchen etc. the water supply and Drainage systems for isolated and group of buildings.

Ancient Architecture AR-209

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 1 0 0 3 15 25 60 3

Contents:

Understanding the development of a particular style on the basis of religious belief , political and other factors.

Architecture of Indus Valley civilization. Vedic architecture and the concept of Vastu-Shastra.

Buddhist and Jain architecture: Study of buildings developed during these periods & their typical characteristics.Brief study of Buddhist architecture outside India.

Hindu Architecture- The philosophy & evolution of 3 styles; Nagara, Vesara and Dravida.The study of important architectural characteristics of the three periods and their examples.

Syllabus, Teaching and Examination schedule

B. Architecture II Year (3rd Semester)

Architectural Design – I AR-251N

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 0 2 5 7 50 10 40 6*

Contents:

Application of Planning and design standards for design projects.

Organization of various spaces and evolution of built form in relation to physical, climatic and site consideration.

Circulation study and actual design of informal spaces like small club, restaurants etc.

Design of single storied small residential building, clinic, elementary school, convenient shop, duplex etc.

Note: - Site visits; case studies may involve local/out station study/Educational tours and have weightage, in course work marks to be decided by subject teacher.

Model Making &Photography AR-293N

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 0 2 60 - 40 -

Contents:

Introduction: Importance and Objectives. General information about various materials and tools to be used in model making.

Types of models: block models, building details and construction models, interior models etc.

Methods of presentation of various types of models, scale, degree of accuracy, refinement color combination, material choice etc.

Model Making- Sequence of various stages and operations involved: preparation of base, layouts, cutting, joining, fixing and finishing of various components, landscaping, animation etc.

Four to five exercises in model making.

Understanding of various still, digital & video camera & other photography equipments. Understanding of artistic & architectural photography. Exercises based on them.

Syllabus, Teaching and Examination schedule

B. Architecture II Year (3rd Semester)

Computer Aided Design and Drafting-CADD AR-291N

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 1 2 0 3 60 - 40 -

Contents:

General Introduction

 Computer function and role.

 Components of Computers and Computer Architecture.

 Efficiency, speed and memory.

 Computer control and maintenance.

Computer Aided Drafting

 Introduction to various computer aided drafting, designing and graphic software packages.

 Application of latest versions of AUTOCAD available for Architectural drawings and details.

Computer Aided Design

 Computer Programming for Computer Aided planning and practice on the basis of circulation diagrams etc.

Surveying CE- 218R

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit 1 Surveying fundamental definition and concepts, objects, classification, basic principles, plans and maps; Chain surveying, definition, methods, instruments for chaining, ranging out survey lines, chaining, errors due to incorrect chain; offsets, booking of field notes; Basic problems in chaining, obstacles in chaining; Conventional symbols.

Unit 2 Compass surveying; bearing and angles, compass traversing, adjustment of compass traverse, graphical methods; magnetic declination, local adjustment; Plane table surveying; plane table and its accessories, working operations, methods of plane tabling, two point and three point problems.

Unit 3 Levelling; definition, instruments, methods of levelling, theory of direct levelling, spirit levelling, differential levelling, curvature and refraction, reciprocal levelling, profile levelling, cross-sectioning,, Barometric levelling,; Sensitiveness of bubble tube, permanent adjustment of level

Unit 4 Theodolite and traverse surveying; essential parts of transit theodolite, temporary and permanent adjustment of transit theodolite; Measurement of horizontal and vertical angles; Methods of traversing, closing error, balancing of traverse, traverse table, omitted measurements, Tachometry, stadia system, influence of staff tilt, anallatic lens, tangential and subtense systems.

Unit 5 Areas and volumes; computation of area by trapezoidal and Simpson’s rule, area of closed traverse Measurement of volume from cross sections, capacity of reservoirs, setting out works.

Text/Reference books

1. Kanetkar, T. P., “Surveying and Levelling” Vol I and II, Pune Vidyarthi Griha Prakashan, Pune, India.

2. Pumia, B. C., “Surveying” Laxmi Publications, Delhi, India.

Syllabus, Teaching and Examination schedule

B. Architecture II Year (4^th Semester)

Pre Modern / Western Architecture AR-210

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 1 0 0 3 15 25 60 3

Contents:

An introduction to primitive architecture and its development pattern based on the factors responsible for it;

such as climate, geology, geography, socio-cultural, religious beliefs and practices etc.

Study of different periods with respect to the architectural characteristics that developed during that periods.

 Egyptian

 West Asian

 Greek

 Roman

 Byzantine

 Romanesque

 Gothic

 Renaissance

 Baroque.

Teaching and Evaluation Scheme:

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 3 5 40 20 40 3

(Abbreviations: L= Lectures, T=Tutorial, P=Practical ,D=Drawing, Cr=Credit)

Objectives:

 Introduction and basic concepts of R.C.C. structures, technical terms, materials and their characteristics used in the R.C.C. structures.

Contents:

Topics Topic Details

Form work for RCC construction Introduction and Construction details of Form work for RCC construction, Materials Selection, Economy in Form Work, order and method of removing formwork

R.C.C. Components Introduction of R.C.C. and its Components such as foundations, beam, column and column connections, slabs and lintels etc. (Not calculations and design of R.C.C)

Stairs Introduction, Technical terms, Requirement of a good stair, its various types in R.C.C with placement of steel in waist slab, landing, and radiating steps, concept of tread, riser, headroom and railing.

Construction of ramp / skid free surface (concept of slopes and turning radius)

Damp proofing and water proofing Introduction, Causes of dampness, Sources of dampness. Methods of damp -proofing, Materials used for damp-proofing, damp- proofing treatment in buildings, water proofing treatment for the roofs of multi-storeyed buildings.

Ground floors Introduction, types, materials and construction of ground floors such as Muram Flooring, Flagstone Flooring, Cement Concrete Flooring, Marble Flooring, Timber Flooring etc.

Ground floors Plain and reinforced cement concrete materials:

Cement Technology: Introduction, Constituents, types, properties and grades of cement, commercial names of cement.

Aggregates: Fine and coarse Aggregates, water cement ratio, grades of concrete, properties of concrete, Mix design, production,

Syllabus, Teaching and Examination schedule

B. Architecture II Year (4^th Semester) Building Bye Laws & Regulations – (AR-212)

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 1 0 0 3 15 25 60 3

(Abbreviations: L= Lectures, T=Tutorial, P=Practical, D=Drawing, Cr=Credit)

Objectives:

 To understand the need and importance of building bye laws and their applications.

 To understand the various laws for regulation of building operations and urban development.

Contents:

Topics Topic Details

Introduction Introduction, need and important provisions of building bye laws related to, set back, light plane, plot size, ground coverage, FAR/SFI, Fire protection and parking spaces.

Bye laws related to site planning, land use, density, widths of roads, open areas, basement and mezzanine floors, light

& ventilation, The study of UP Regulation of Building Operation

Act 1958, APPENDIX- 8&13 UP road side land control Act, UP parks, playground, and open spaces (preservation and regulation) Act, UP state industrial development authority (UPSIDA) meetings and regulations, UP apartment (Promotion of construction, ownership and maintenance) Ordinance, UP special area development authorities Act.

Standards and Codes National Building Codes(NBC), Bureau of Indian

Standards(BIS), Time Saver Standards, Neuferts Data and other relevant codes. The study of various controlling authorities for local effect with particular reference to Lucknow / Aligarh / Delhi Development Authority.

Preparation of submission drawings Submission drawings for municipal approvals such as individual house, housing layouts, commercial buildings etc.

1 0 2 5 7 50 10 40 6*

Contents:

Introduction of the design project, its scope, special emphasis, limitations, aims and objectives etc.

Application of planning and design standards for given projects.

Actual Design of simple repetitive type of spaces like schools, hostels, shops and offices etc.

Actual design of small nursing home, museum etc.

Case Study and Seminar: -The primary aim of conducting these seminars is to give a visual experience to the students. For case study and seminar students in group or individual can collect a few good examples of schools, hostels, commercial complex, nursing home etc. and analyse their exterior and interior spaces.

Note: - Site visits; case studies may involve local/out station study/Educational tours and have weightage, in course work marks to be decided by subject teacher.

Syllabus, Teaching and Examination schedule

B. Architecture II Year (4^th Semester)

Surveying Lab CE-295R

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

0 0 3 0 2 60 - 40 -

Contents:

List of the Experiments:

1. Chain Surveying; offset measurement 2. Compass Surveying

3. Plane tabling by radiation method 4. Plane tabling by intersection method

5. Solution of two point problem; resection method 6. Solution of three point problem; resection method 7. Differential levelling I

8. Differential levelling II 9. Longitudinal sectioning 10. Cross sectioning

11. Contouring by indirect method 12. Study of transit theodolite

13. Measurement of horizontal and vertical angles with a theodolite.

Building study AR-292

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 0 2 60 - 40 -

Contents:

Purpose of the subject is to derive knowledge from the existing, old/ancient/historical/and modern buildings/ by first recording them in dimensions and drawings and which may be used for restoration work as well as to appreciate ancient/modern building/materials, construction techniques and environmental or old/modern techniques of comfort/climatic control, Structural stability, acoustics etc. It also train students preparations form of bills or measurement of the constructed buildings for the payment to contractors etc. It also had got further emphasis with the increasing realization of Architectural conservation being introduced at famous Architectural Institute of India and abroad.

As desired in special emphasis of the department of Architecture, Zakir Husain College of Engineering and Technology, problem shall be related to first studies of local Architectural style by concentrating on heritage buildings and important Architectural works and then its scope shall be extended to regional studies such as Agra and Delhi having many important buildings of Ancient/Moghul/Modern era as well as slave dynasty and Path an dynasties at Delhi. Problem related to other buildings of Indian Architecture such as located at Lucknow/Awadh Architecture may also be introduced conveniently to have a valuable data stock related to regional Islamic Architectural buildings and their analysis for higher studies and research.

Syllabus, Teaching and Examination schedule

B. Architecture III Year (5^th Semester)

Design of Concrete Structures – I CE- 311

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit 1 Load and stresses, load combinations, Working stress and limit state approach. Analysis and design of sections in bending – working stress and limit state method, Rectangular and T-sections, Beams with reinforcement in compression, One-way slab

Unit 2 Design for shear and bond, Mechanism of shear and bond failure, Design of shear using limit state concept, Development length of bars; Design of sections in torsion

Unit 3 Design of two-way slabs, Rankines-Grashoff and I.S. code method; Design of flat slab – direct method;

Circular slab; Slab type staircase, Placement of reinforcement in slabs; Voided slab

Unit 4 Design of compression members, Short column, Columns with uni-axial and bi-axial bending; Long columns, use of design charts

Unit 5 Design of foundation; Wall footing, Isolated and combined footing for columns Text Book

1. Jain, A. K. “Reinforced concrete- limit State Design” NCB, Roorkee, India.

Reference Books

1. Karve and Shah “Limit State Theory and Design of Reinforced Concrete” VGP, Pune, India.

2. Pillai and Menon “Reinforced Concrete Design”, TMH, New delhi, India.

3. Verghese, P. C. “Advanced Reinforced Concrete Design” PHI, Delhi, India 4. Winter, G. “Design of Concrete Structures” Mc Graw Hill, Tokyo, Japan.

5. Evans and Cook “Reinforced and Pre- stressed Concrete” TN, London, U.K.

Selected B. I .S Codes

1. I. S.:456-2000-Code of Practice for Plain and Reinforced Concrete, BIS, New Delhi, India.

2. I. S.:875 -1987(Part I & II)-Code of Practice for Design Loads(other than earthquake) for Building and Structures, BIS, New Delhi, India.

3. I.S.:1893-1984-Criteria for Earthquake Resistant Design of Structures, BIS, New Delhi, India.

4. I.S.:4326-1993-Code of Practice for Earthquake Resistant Design and Construction of Buildings, BIS, New Delhi, India.

5. I.S.:13920- Ductile detailing of reinforced Concrete Structures subjected to Seismic forces, BIS, New Delhi, India.

6. S.P.:16 -Design Aids for Reinforced Concrete to IS:456, BIS, New Delhi, India.

7. S.P.:24 -Explanatory Hand Book of I.S. Code for Plain and Reinforced Concrete, BIS, New Delhi, India.

8. S.P.:34 - Hand Book of Concrete Reinforcement and Detailing, BIS, New Delhi, India.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit 1 Soil Properties: Preliminary definitions, phase diagram, interrelationship. Sieve and hydrometer analysis, Atterberg’s limit. Classification systems – IS, MIT and Unified classification systems of soil.

Soil structure. Compaction of soil – Theory of compaction, laboratory compaction tests, optimum moisture content and zero air void line. Field methods and compaction control.

Unit 2 Soil water, Permeability: Soil water, effective and neutral pressures. Darcy’s law, factors affecting permeability. Laboratory determination of permeability. Permeability of stratified soils. Quick sand conditions and liquefaction of soil.

Unit 3 Soil stresses: Stresses in soil mass due to surface loading. Boussinesq and Westergaard’s formula for point load. Vertical pressure under various uniformly loaded area. Pressure bulb. Newmark’s influence chart, approximate methods.

Unit 4 Compressibility and Consolidation: Virgin compression curve and definition of the terms. Terzaghi’s one dimensional consolidation theory. Laboratory consolidation test, height of solids and change in voids ratio methods. Percent consolidation. Determination of coefficient of consolidation by log of time fitting and square root of time fitting methods. Consolidation settlement.

Unit 5 Shear Strength of soil: State of stress at a point, Mohr’s stress circle. Shear strength of soil. Mohr and Mohr-Coulomb failure envelop. Direct, Triaxial, Unconfined and Vane shear tests, principles of drained and undrained tests.

Text / Reference Books

1. Gopal Ranjan, “Basic and Applied Soil Mechanics”, New Age International (P) Ltd, New Delhi.

2. Alam Singh, “Soil Engineering in Theory and Practice”, Asia Publishing House, New Delhi.

Syllabus, Teaching and Examination schedule

B. Architecture III Year (5^th Semester)

Islamic Architecture AR-301

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 1 0 0 3 15 25 60 3

Contents:

Introduction: Space, form and time, people and Architecture; Islam, its advent and religious values; Faith and attitudes, Islam and Muslims, spread of Islam in the world and formation of Islamic Architectural styles. Impact of pre-Islamic styles.

Major Islamic Styles (In brief): Desert based styles/Arabic architecture, Spanish/Moorish, Turkish, Iranian, Central Asian, Indian and East Asian styles; Impact of climate, materials and geometry (a speciality of Arabs Muslims).

Indian Islamic architecture: Basic inputs, Indian and Non-Indian salient features, styles, political, spatial and times/Technological impacts.

(i) Delhi or imperial styles:

(ii) Slave/Turkish Dynasty

(iii) Pathan Dynasty: Khilji, Tuglaq, Lodhi etc.

(iv) Mughal Dynasty (Babar to Aurangzeb and later.

Provincial Styles : (i) Punjab (ii) Bengal (iii) Gujarat (IV) Jaipur (V) Deccan (VI) Malva (VII) Bijapur Influenced Styles: Rajput and sikh Architecture (in brief).

Landscape Design AR-303N

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 0 0 2 3 15 25 60 3

Contents:

Introduction to landscape Architecture, Various elements and materials of landscape design and their effect on visual and spatial organization of space in relation to build environment.

Art of using and organising spaces.

Comparative history of art of garden design like Chinese, Japanese, Persian, Moughals, Italian, French, English and Renaissance.

Structure and colour of foliage of various types of trees, shrubs, creepers, bushes, ground cover etc. Plant conditions and characteristics, climate, soil fertilizers etc.

Formal and informal design, hard and soft landscaping, design of garden furniture, sculptures fountains, terrace garden etc. Preparation of small landscape scheme like, parks, urban spaces (city square etc), residence etc.

Syllabus, Teaching and Examination schedule

B. Architecture III Year (5^th Semester)

Introduction to Interior Design AR-315

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 0 2 3 40 20 40 3

Contents:

Meaning, Scope and importance. Relationship with Architecture Interior Designer and his Role towards execution of a Project.

Elements/principles of Interior Design and application of these in designing of spaces.

Understanding the planning concepts of part to whole. Study/design of various areas and services: working counters, almirahs, storage spaces, Interior design of small spaces such as kitchen, restaurant, office , hotel lobby etc and rendering.

Design process – Analysis, Synthesis & Evaluation.

Interior materials and finishes.

Colour: Colour wheel, qualities of colour, Study of various colour schemes & applications, Study of psychological impact of various colours.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 5 7 60 - 40 6*

Contents:

Design of building complexes with informal spaces/activities like club, tourists resort, cultural centre etc. with detailed analysis of site according to various spaces and activities with respect to services and layout.

An analytical approach for study and designing of various types of buildings like college, library, gymnasium, community hall, low-rise apartments and offices cum shops.

Working and guidance for the projects should be in the form of discussions. Criteria of judgment should be defined in advance. Students should participate actively and may choose any suitable techniques for presentation.

Time problems may be mobile structures like shops/dispensary, Entrance gateway to exhibition/monuments, small structures like guest house, photographic studio, art gallery.

Note: - Site visits; case studies may involve local/out station study/Educational tours and have weightage, in course work marks to be decided by subject teacher.

Syllabus, Teaching and Examination schedule

B. Architecture III Year (5^th Semester)

Soil Mechanic Lab CE-391R

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

0 0 3 0 2 60 - 40 -

Contents:

1. To determine specific gravity of soil by Pyenometer.

2. To determine specific gravity of soil by Density Bottle.

3. Gradation of soil by Seive analysis.

4. Determination of Liquid and Plastic Limits by Cassagrand’s apparatus.

5. To determine the permeability of soil by Falling Head test method.

6. To determine the permeability of soil by Constant Head test method.

7. To determine Field Density by Core Cutter Method.

8. To determine Field Density by Sand Replacement Method.

9. To determine maximum Dry density and optimum Moisture Content by Proctor Compaction test.

10. Hydometer Analysis-Demonstration Only 11. Triaxial Compression Test.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit 1 Properties of materials; loads and stresses, Design of semi-rigid, rigid and moment resistant connections; Built up sections

Unit 2 Design of tension members subjected to axial tension and bending, splicing of tension member, Design of compression members, Beam-column connections, Design of columns and their bases

Unit 3 Design of flexural members and Plate girder; loads, specification and design Unit 4 Industrial buildings; loads, design of purlins, trusses, bracings; gantry girders Unit 5 Introduction to Plastic analysis; Simple cases of beams and frames

Text Book

1. Kazmi, S. M. A. and Jindal, R.S. “Design of Steel Structures” PHI, New Delhi, India.

Reference Books

1. Arya and Ajmani “Design of Steel Structures”, NCB, Roorkee, India.

2. Ramamrutham “Design of Steel Structures” Dhanpat Rai, Delhi, India.

Selected B. I .S Codes

1. I. S.:800-2000-Code of Practice for General Construction in Steel, BIS, New Delhi, India.

2. I. S. Steel Tables containing Properties of Steel sections, BIS, New Delhi, India.

3. I. S.:802-1992-Code of Practice for use of Structural Steel in Transmission Line Towers”, BIS, New Delhi, India

Syllabus, Teaching and Examination schedule

B. Architecture III Year (6^th Semester)

Building Services (Electrical and Mechanical) AR-306

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 2 0 0 4 15 25 60 3

Contents:

Lifts and Escalators: Types of lifts, various parts of lifts, installation and function, number of lifts and lift capacity, Quantity and quality of services. Escalator, its function and characteristics.

Fire Fighting: Fire detecting and extinguishing systems, various equipments and its installations, fire exits.

Mechanical Equipments: Exhaust fans, Gas plant, equipments and planning for laboratory services, hot and cold water supply, and domestic mechanical appliances for various services. Solar heaters/collectors.

Air Conditioning and Ventilation: Introduction to air-conditioning, air conditioning process, various type of air conditioning systems, duct design and layout, calculation of air conditioning load of a building, General principal of natural and artificial ventilation, Problems of ventilation and/or air conditioning of public, semi public and residential building i.e. auditoriums, multi-storeyed office buildings, hospital etc.

Acoustics and sound insulation: Basics & Applied aspects of Acoustics and sound insulation in terms of integration of electrical & mechanical services in built environment.

Wiring: A brief outline of power distribution. Brief introduction to electrical fittings and domestic electrical appliances commonly used-water heaters, hot plates, radiators, electric iron and cooking range etc. Wires- specifications and current carrying capacity. Systems of electrical wiring-batten wiring, capping and casing, concealed, conduit and concealed

Conduit. Conduit pipes, junction box, switch boards etc. Various switches, sockets, plugs, adopters-their materials and specification etc. Safety precautions-insulation, earthing, fuses, switch polarity etc. Study of National Building Codes 1983. Calculation of power load and load distribution. Distribution boards, electric meters and layout of points. Power consumption and bills. Schematic diagram to show connections.

Architectural Illumination

Electric light sources and their characteristics viz. Incandescent lamps, Fluorescent lamps, Mercury vapour lamps, Sodium vapour lamps, Neon lamps etc. Lumen airs and their efficiency. Light flux method for finding the number of lamps for a particular level of illumination. Flood lighting old buildings and calculation for power load and consumption etc.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 3 5 40 20 40 3

Contents:

Construction:

Design, construction and working details with specifications of the followings:-

 Roofs and Roof coverings such as pitched roof, flat roof shell roof etc.

 Specially Doors (Revolving, Sliding, Collapsible, Rolling)

 curtain wall/ partition wall/hollow wall constructions, cladding/facade treatment in buildings

 panelling and false ceiling.

 pre-stressed and pre-cast/prefabricated building components such as lintels, beam, wall panels etc.

Materials

Paints, Varnishes and Distempers Provision of joints in structures Prevention of cracks in building.

Methodology:

 Preparation of plates/sheets for all topics.

 Theoretical assignments/ seminar presentations on above topics.

 Site visit/ practical demonstration and material survey reports.

Syllabus, Teaching and Examination schedule

B. Architecture III Year (6^th Semester)

Town Planning AR-302

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

2 0 0 2 4 15 25 60 3

Contents:

Introduction, meaning, scope and purpose:-

Evaluation of settlements, form and patterns through historical process of development and early river valley civilizations, Egyptian, Mesopotamian, Indian, Greek, Roman, Medieval, Renaissance.

Industrial era and impact on towns, planning ideas of Sir Patrick geodes, Elvis Mum ford, Le Cor busier etc. Sir Ebenezer Howard and garden city movement. Utopians. Neighbourhood Planning, definition, formation, need and relationship with the town plan, elements of neighbourhood. Neighbourhood and Master plan, site planning and urban development, Road networks and sections, climate, services and zoning, city scape and street scapes.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 5 7 50 10 40 6*

Contents:

Design projects commercial complex, residential apartments etc. with various restriction like ground coverage, F.A.R site constraints and materials restriction, to be worked out as a practical problem.

Actual Design and detailing of various technical projects like small industry, commercial and cultural complexes, Auditorium, Cinema Hall etc.

Criticism of every design must be done at pre-final stage for every submission.

Seminar: Emphasis should be laid on the case study, important building related to design project given. The critical evaluation of the building is to be presented with adequate illustration.

Note: Site visits/case studies may involve local outstation study/Educational tours and have weight age in course work marks to be decided by subject teacher.

Syllabus, Teaching and Examination schedule

B. Architecture III Year (6^th Semester)

Working Drawing AR-394

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

1 0 2 0 2 60 - 40 -

Contents:

Working Drawing and Details: Meaning, scope and importance of working drawings. Interrelationship of working drawing and their relation with specifications.

Method of preparing the working drawings of building e.g. foundations plans, floor plans, roof plans, detailed elevations and sections.

Concept of detailing, preparing the working details of various structural and design features of buildings, viz, Detail of foundations, doors, windows, staircase, R.C.C. units like beams and slabs etc. Preparing kitchen details. Toilet details etc.

Complete working drawing set for a residential design approved by the subject teacher for this purpose, undertaken in this semester.

New and innovative rendering techniques and presentation skills may be introduced by the teacher.

L T P D Cr Course Work Mid Sem Exam End Sem Exam Exam Time(Hrs)

3 1 0 0 4 15 25 60 3

Contents:

Unit 1 Design of continuous beams and building frames, Moment redistribution, Estimation of wind and seismic loads, Desirable features of earthquake resistant construction, Detailing for earthquake resistant construction – ductility criteria

Unit 2 Water tank and staging; Introduction, Design criteria, Design of rectangular and circular water tank, Design of Intze tank, Staging for overhead tank

Unit 3 Introduction to bridge engineering, Investigation for bridges, IRC loadings, Design of slab culvert;

Design of Masonry walls and columns

Unit 4 Pre-stressed concrete, Introduction, pre-stressing system, losses in pre-stress, Design of simple span girders, Design of end block

Unit 5 Design of staircases; Design of cantilever and counter-forte type retaining wall Text Book

1. Jain, A. K. “Reinforced concrete- limit State Design” NCB, Roorkee, India.

2. Raju, N.K. “Pre-Stressed Concrete” TMH, Delhi, India.

Reference Books

1. Karve and Shah “Limit State Theory and Design of reinforced Concrete” VGP, Pune, India.

2. Pillai and Menon “Reinforced Concrete Design” TMH, New delhi, India..

3. Verghese, P. C. “Advanced Reinforced Concrete Design” PHI, Delhi, India.

4. Winter, G. “Design of Concrete Structures” Mc Graw Hill, Tokyo, Japan.

5. Evans and Cook “Reinforced and Pre- stressed Concrete” TN, London, U.K.

6. Lin, T. H. and Burns, H. N., “Design of Pre-Stressed Concrete Structures”, Wiley, Canada.

Selected B. I .S Codes

1. I. S.:456-2000-Code of Practice for Plain and Reinforced Concrete, BIS, New Delhi, India.

2. I. S.:875 -1987(Part I & II)-Code of Practice for Design Loads(other than earthquake) for Building and Structures, BIS, New Delhi, India.

3. I.S.:1893-1984-Criteria for Earthquake Resistant Design of Structures, BIS, New Delhi, India.

4. I.S.:4326-1993-Code of Practice for Earthquake Resistant Design and Construction of Buildings, BIS, New Delhi, India.

5. I.S.:13920- Ductile detailing of reinforced Concrete Structures subjected to Seismic forces, BIS, New Delhi, India.

6. S.P.:16 -Design Aids for Reinforced Concrete to IS:456, BIS, New Delhi, India.

7. S.P.:24 -Explanatory Hand Book of I.S. Code for Plain and Reinforced Concrete, BIS, New Delhi, India.

8. S.P.:34 - Hand Book of Concrete Reinforcement and Detailing, BIS, New Delhi, India.

9. I.S.:1343-1980-Code of Practice for Pre-Stressed Concrete, BIS, New Delhi, India.