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UNIVERSITY OF MUMBAI
Scheme of Instructions and Examination (RR-2007)
.For
The Second Year (Semester III to IV)
of the
B.E. Degree Course In
Civil Engineering
(With effect from academic year 2008-2009)
I
Senoester Ill
Subjects
I. API>Iicd Mnthcmatics-Il l •
2. Surveying-!• 3. Slrcns rh or
MateriaJ~·
4. Building Materials 31'ld
ConMrucLion" 5. Engineering
Goolo~y•
6. l)resentatiou and Communication ·l·echniqucsfi
7. Pluid Mochunics-r•
Total
uxrvrmsrr·v oF Mti MBAI SCHEM E OF INSTRUCTIO:-IS A"D I!:XAMI:-IATION
(RR-2007)
SECONI> YEAR ENGINEERI:'<C : (Civil Engineering)
l'o. of periods ll<r week Du.r:u.iou 160 minutes e:ocll) or theory r-
Lecture 1•rnctical Ttotorhll Jl:1per Theory Term
jaours) t>npco· Wot·k
4 - - 3 roo -J J - 3 100 25
4 2 - 3 100 25
·I 2 3 100 25
3 2 - J 100 25
2 - 2 - - 50
3 2 - J 1()0 25
23 II 2 . 600 175 • Common to ConstruCllOR Engmccnng (~Common to all branches
Semester - IV
M:orks
J>rncHcnl Oral Tot~ I
- - 100
- - 125 . 25 ISO
- --- 2> ISO
- 25 ISO
- - 50
- -- - 125
- 75 .~
I No. of periods per week f>untion 1 Mnrks (60 mioutes eacb) of tbeory
Subj<ets ·-Jlt1J>Cr T heory Term Lechu·e l'•·acticnl Tutorial liwuo·s) l'nner Work Prnctic31 Oral 'l'ut:ol
Applie-d I. Malhcn>atics- 4 - - 3 roo - - - 100
rv• - -2.
Survcying-fl • 3 3 - l 100 25 - 25 s 150
--Su·ucturol :J. Analysis-! • 5 - 2 3 I 01) 25 - 25 150
Building 4. Dt-si&n and l 3 - 4 100 25 - 25~ 15()
Drnwing-1*
5. Concr"'ic 4 2 3 100 25 25 ISO Technolo~y* - . rluid 1-
6 Mechanics- 3 2 I
J 100 2> I
25 150 II •
Total I 20 10 2 - 600 125 . 125 850 1f Common to ConSIJ l1Ct1on EngmCC1111g :& 0.-.1 & PaACLICUl ' i! Oral & Sketchmg
S1ss-:SE (Civii/Coustrucfion) Subiect:- Annlicd Mathematics III
I Semester Ill
Periods/week- each Lecture 04 period of60 mintttes Practical -dunttion Tutorial -
Hours Marks Theory Examination ' .) 100 Practical - -
Evaluation System Oral - -Tenn Work - -Total 100
Detailed Syllabus
Module Topics No of lectures
1. Coumlcx Variables Total ll . _ J.l.Necessary and sufficient conditions for function f(z) to be 03
analytic (without proof), Jlannonic functions, Orthogonal
f.- trajectories 1.2 Milne Thomson's method to find analytic function from its 02
'--real or imacining parts
f.--1.3 Cauchy Riemann· s eQua.tion in volar- coordinates 01 1.4 Muppin.g, Con formal mapping.
--02
1.5 Linear, bilinear mappitli with geometrical interpretations 02 1.6 Applications of Complex variables to Civil Engineering OJ
oroblems 2 Fourier· Series & lnteorals Total 12
2. I . Orthogonal & Orthonormal set off unctions 01 2.2 Fourier series, Determination of Fourier constants, Dirichlet's or
conditions 2.3 Fourier series for f(x) , x e [c,c+ 21l' ] and x e [c,c+2/,] OJ 2.4 Fourier series of Odd and Even functions 01 2.5 I lalf range Fourier Sine & Cosine series. Parseval's ldenti~r 03 2.6 Complex form of Fourier series 01 2.7 Fourier Intcwal, Fourier integrals of even and odd functions 02
3 Lanlace Transforms TotallS 3.1 Function of bounded variation(Statement only) Laplace
Transfon11s 02 ofl,e'" .sin at, cosar ,sinh a/ ,cosh at,l" ,eif( ~) . .10 (t)
3.2 Shifting theorems, change of scale,
L{t" f(t)},Lv~l) }L{ d'~{.Ct) }L{jf(u)du} 03
r
3.3 Convolution theorem (with proof) , Evaluation of re-.U integrals 02 using Laplace transfonns
3.4 Laplace transfum1s of special functions (Heaviside Unit step 02 function, Dirac Delta function and neriodic functions)
3.5 Inverse Laplace Transforms, 01 3.6 Evaluation oflnversc Laplace Transforms using partial
fractions, eonvolution theorems, shifting theorems ru1d other 03 properties.
3.7 Application of laplace Transform to solve initial & boundary value problems involving ordinary differential equation with 02 one dependent variables
4 Matrices Total l2 4.1 Types of matrices(includingorthogonal & un.itaty) 01 4.2 Adjoint of a matrix, Partitioning of Matrices. Inverse of' a 03 matrix 4.3 Elementary TraJlsformation, rank of a matrix, normal form 02 4.4 System of Homogeneous and Non Homogeneous linear 02
equations, their consistencv & Solution. 4.5 Eigenvalues and Ei11cn vectors 02 4.6 Cayley Hamilton Theorem( without proof). problems based on 02
Cayley Hamilton theorem.
Theory Examination:-]. Question paper will consist of' total seven questions can-ying 20 marks each. 2. Only five questions need to be attempted. 3. Question number I will be compulsory and based on maximum part of the syllabus. 4. Remaining questions will be mixed in nature. 5. In question paper \Veightage of each module will be proportional to the number of
respective lecture hours as mentioned in the syllabus.
Ikcommended Bootes: 1. "Complex Variables and Applications" by R V Churchill & J W Orovm, McGraw-
Hill. 2. "Theory of Functions of a Complex Variable" by ShanLi Narayan, S. Chand. 3. "Laplace Transsforms'' by Murray Spiegel. Schaum Series. 4. "Engineering Mathematics" by Bali & Iyengar, Laxm.i Publications. 5. ·'Matrices" by Shanti Narayan, S. Chand.
-
-
Semester Ill
Periods/week- each f-Le:;::.:.;c:.;tt;:;;ar'-"e-:------lf-------~0:-:3:----------l period of 60 minutes ~--;:;P;.::m:.:c.:.;ti~ca:;.:l------!f----------'0"'3--------1 dLU-ation Tutorial
1-Jours Theor Examination 3
~-+-----'~---1 Practical
Marks 100
Evalualion System Oral Term Work 25 Total 125
Detailed Svllabus Module Topics
I Introduction Various types of surveying - based on methods and instruments, classifications, uses and necessity of geodetic surveying, photographic. astronomy and hydrographic stu·vcying Plain and diagonal scale, various types of verniers, micrometers on surveying instruments, principles of surveying Different types of ranging, tapes, chains, steel band Linear measurements, approximate, direct, optical and eleclronic methods Chain surve~in~, minor instruments for scttin~ our right angle
2 Compass survey Bearings- different types, compass prismatic, surveyor, whole circle ru1d reduced bearings, declination, local attraction, plotting of compass survey by different methods
3 Levelling and contouring Definitions, technical terms. different types of levels such as dumpy, quickset, precise, auto, tempomry and permanent adjustments of dumpy and auto level, Auto levels, self compensating instrument, laser level. Difficulties in Ieveii i ng work, reduction of levels, corrections and precautions in levcli ng work, problems Contour - definitions, contour interval. equivalent, uses and characteristics of contour lines, direct and indirect methods of contouring Running a level line, L section, cross section. methods of interpolation Grade c~ntour- defini tion, usc. setting out in field Computation of volume by trapezoidal and prismoidal formula, volume from SpOt levels, volume from contour plan
4 Areas Area of a irregular figure by Trapezoidal mle, average ordinate rule, Simposon' s 1/3 nale, various coordinate methods Planimeter : types of planimeter including digital planimeter, area of
No. of lectures 05
06
12
03
zero circle, use of elanimctcr 5 Theodolite traverse 10
Various parts and axis of transit, technical terms. temporary and permanent adjuslrnents of a trdllSit, hori1..ontal and vertical angles, methods of repetition and reiteration Different methods ofnmning a theodolite traverse, Gales traverse table, bahmcing of traverse by Bow-Ditch's transit and modified transit rules Pwblems on one-plane and two-plane methods, omitted measurements Precautions in using theodolite. errors in theodolite survey Use of theodolite for various works such as prolongation of a straight line, selling om an an~lc
6 Phme table sun·cyiug 03 Definitions, uses and advantages, temporary adjustments Different methods of plane t:able surveying Two point problem En·ors in plane table survev, use of tclescoeic alidade
Thcot·y Ex:uninntion:-1. Question paper will consist of total seven questions carrying 20 marks each. 2 . Only five questions need to be attempted. 3. Question number I will be compulsory and based on maximum part of the syllabus. 4. Remaining questions wi ll be mixed in nature. 5. In question paper wcightage of each module will be proportional to the number of
respective lecture hours as mentioned in the syllabus.
List of Practicals:-1. Chaining Ranging and offsetting 2. Measuring nearing ofsnrvcy lines using Prismatic compass. 3. Measming Bearing of survey lines using Surveyors compass. 4. Measurement of horizontal Angle by Repetition Method. 5. Measurement of horizontal Angle by Reiteration Method. 6. .tvleasurement ofverticle Angle using theodolite. 7. Determin::ttion ofR.L. of poin ts using Auto level and Dumpy level. 8. Measurement of' irregular areas using Digital planimeter 9. Measurement of areas by plane table survey- Radiation method.
Term Work: Each student has to appear for HI least ONE written test during the term. The tenn work shall consist of: Report on minimum eight experiments conducted, Report (inclusive of drawing sheets) of a two da)' project on theodolite traversing. AssignrnenL~ consisting of minimum twenty problems covering entire syllabus including at least three programs (de-bugged and witl1 suitable comments and data with output for problems on above sy llabus), Graded answer paper of wTittcn test. 111e distribution or tem1 work marks shall be as follows:
Laboratory work (Experiments, assigrunents, Project report) Written test (at Jea~l one) Attendance (Practical and theory)
: 10 marks : 10 marks :05 marks
The final certitlcation and acceptance of term work ensures the satisfactory pe1formance of laborntory work and at least minimum passing in the term-work.
Recommended Books: 1. "Surveying and Levelling" Voi-I&JI, by Kanetkar and Kulkarni, Pune Vidyarthi
Griha, Pune. 2. "SLLLveying and Levelling" by N N Basal<, Tata McGraw Hill New Delhi. 3. "Surveying" by R. Agor, K.hruma Publishers. 4. "Surveying" Vol-1 by Dr. K.R. Arora, Standard book IJOuse.
Clas.~-: SE lCivil / Construction ) I Semester - III Subiect:- Strenlrth of Materials
Periods/week-each period Lecture 04
Practical 02 of 60 minutes duration
Tutorial -How'S Marks
Theory of Examination 03 100 Practical - -
Evaluation System Oral Examination - 25 Term Work - 25
TOTAL 150
Detailed Svllabus Module Topics No. of
lectures 01 Shear force and bending moment 08
Axial forc.e, shear force and bending moment diagrams for statically derem1inate beams including beams with internal hinges for different types of loading, relationsiJips between rate of' loading, shear force and bcndin& moment.
02 Stress and strain 06 Stress, Strain, Modulus of elnsticity(E), Modulus of Rigiclity(O), Bulk Modulus(K). yield stress, ultimate stress, factor of ~alety, shear stress, Poisson's ratio. Relationship between E, G & K. Bars of varvin" sections, comoosite sections, tcm~crature stresses.
03 Simple theory of bending 08 Flexure formula for straight beams, moment of inertia, product of inertia and polar moment of inertia of plane areas, principal axes of inertia. moment of inertia about principal axes. transfer theorem, simple problems involving application of flexure formula, section modulus, moment of resislllnce of a section of flitched beams.
04 Shear stress in Heams. 06 DistJ"ibutiou of shear stress across plane sections used commonly for structural purposes, shear connectors. Shear stress and force in beams of thin walled open eros~ sections, shear center of thin walled ~ections such as angle, tee. channel and I sections.
05 Simple theory of torsion 04 Torsion of circular shafts -solid and hollow, stresses in shaft when transmittine: oower, close coiled helical springs under axial load.
06 Bending moment combined with axial loads 04 Application to members subjected to eccentric loads, core of a section. Problems on chimneys. retaining ""ails etc. involving lateral I loads. I
07 Principal stresses 04 General equations for transformation of stress, principal planes and principal stresses, maximum shear stress, determination using Mohr's circle, principal stresses in shafts subjected to torsion, bending and mdal thrust, concept of equivalent torsional and bending moments.
08 Rivets and welds 07 Axially and eccentrically loaded riveted and welded connections.
09 Thin cylindl'icnl :tnd spherical shells 03 Stresses and strains in thin cylindrical and spherical shells under internal pressure.
Theory Examination:-!. Que:;tion paper will consist of total seven questions carrying 20 marks each. 2. Only five questions need to be attempted. 3. Question number I will be compulsory and based on maximum part of the syllabus. 4. Remaining questions will be mixed in nature. 5. In question paper wcightage of each module wi ll be proportional to the number of
respective lecture hours as mentioned in the syllabus.
Oral Examination:-Oral examination will be based on entire syllabu~.
List of Experiments:-!. Tension test on mild steel bars (stress-strain behavior, young's modulus
determination) 2. Tests on tor steel bar (tension ,bend & re-bcnd) 3. Transverse test on cast iron. 4. Shear test on mild steel, east irons, brass. 5. Torsion test on mi ld steel and cast iron bar. 6. Brinell hardness test (any three metal specimens). 7. Rockwell hardness test on mild steel 8. lzod I Charpy impact Lest (any three metal specimens)
Term Wort<: Each student has to appear for at least ONE \Vritten test dming the tenn. The term work shall consist of: Report of minimum seven experiments. At least 20 problems based on the above syllabus, Graded answer paper of wri Lten test. The distribution of marks for term work shall be as follows. Laboratory work (experiments and assignments) :10 marks Written test (at lest one) :I 0 marks Attendance (practicals and theory) :05 marks The final certification and acceptance of term work ensures the satisfactory performance of laboratory work and at least minimum passing in the tenn-work.
Recommended Books:-
1. "Mechanics of Materials" by E. P. Popov, Prentice !fall of India Pvl. Ltd. 2. ''Mechanics of Materials" by Timoshenko & Gerc, Tala McGraw Hill New Delhi. 3. "Mechanics of Structures" Vol-I by S.B. Junnarkar, Charotar Publishers. 4. ..Mechanics of Materials" by James M. Gerc, Brooks/Cole. 5. "Strength of Materials", by G. H. Ryder, MacMillan. 6. ''Mechanics of Materials" by Pytel & Singer, McGraw Hill New Delhi. 7. "Strength of Materials" by Schaum's Outline Sericsout line service, William A.
Nash, McGraw I !ill Book Co. 8. "Mechanics of Materials'' by Beer & .Johnson. Tata McGraw Hill new Delhi. 9. ..Strength of Materials" by Subramanian, Ox.ford UniverSity Press. I 0. "Strength of Materials" by R.K. R(\jpul, S.Cband.
Cl:tss-: SE (Civil/ Consh,uction ) Semester - Ill Sub.iect:- Building Materials and Construction
Periods/week -each period Lecttu·e 04 Practical 02 of 60 minutes duration Tutorial -
Hours Marks Theory of Examination 03 100
Practical - -Evaluation System Oral Examination - 25
Term Work - 25 TOTAL 150
D 'IdS U b etaJ e a us Module Topics No. of
lectures OJ Classification of materials, requirements of building materials <lnd 7
products: functional, aesthetica I and economical. Study of properties ofma.terials-physical, mechanical, chemical, biological and other like durability, reliability, compatibility and econmic characteristics Types of structures- framed, load bearing and composite structures. SwtabHitv and economic aspects of each type.
02 Stone-types, its properties,quarrying, millimg and surface 10 finishing, preservative treatments. Structural clay products- bricks, roofing tiles, ceramic {iles, raw materials and manufacturing process. Concrete blocks, flooring tiles, paver blocks-raw materials and manufacturing process Binder material: lime, cement: physical properties and maoufacuring process, plaster of paris Mortar and concrete- ingradients, preparmtion and uses Masonry construction-classification and bonding in stone, brick and concrete blocks. MasonrY finishes-pointing, plastering and painting
03 Glass- types and uses 4 04 Timber: varieties, defects in timber, preservative tTeatments and 2
wood composites Metal and alloys: Ferrous and non ferrous metals and alloys, 4 alluminum, tin , zinc, nickel, types and uses and anti-con·osive
05 treatment 06 Floors and roofs: Types of floors,floor finishes and suitability. 6
Types of roofs, wooden and steel trusses. roof cavering and drainage
07 Paints and varnishes, types, constituents and uses 3 08 Staircase: types, size and location, layout, design considerations 2
09 ' Fom1work: materials used. design considcrations..slip fom1 3 shutterin", centering and staging, scaffolding
10 Building services--Air conditioning: systems of heating, air 9 conditioning, ventilation, construction requirements Fire fighting: fire hazards, resisting materials, fire alarm system, fire extinguishers, fire loads, precautions !.ills: passenger handling capacity and accessories Acoustics and sound insulation: Characteristics of sound. rellection and absorption cocf.ficnt, acottstical defects, design and material Plumbing: requirement and basics in design. v.ater supply · system, waste water sysrem, materials Damp-proofing and water proofing: materials and methods
Theory Examination:-!. Question paper will consist of total seven questions carrying 20 marks each. 2. Only five questions need to be attempted. 3. Question number 1 will be compulsory and based onmaximtml part of the syllabus. 4. Remaining questions will be mixed in nature. 5. Tn question paper weightage of each module will be proportional to the number of
rcspcct.ivc lecture hours as mentioned in the syllabus.
Oral Examiuntion:-Oral examination will be based on entire syllabus.
List ofl' racticals:-1. Water absorption and compression test of bricks 2. Water absorption and transverse load test on tiles 3. Moisture content and flexural strength test on timber 4. Compn--ssion test on timber (Parallel/ perpendicular to the grains) 5. Physical properties of cement: Fineness, consistency, Setting time, Soundness,
Compressive strength 6. Compression test on Paver blocks 7. Water absorption, density and compression test on masonary blocks 8. Abrasion test on tiles
Term Work: Each student has to appear for at least ONE written test during the term. l11e term work shall consist of: Report of minimum 07 experiments, Assignmeuts including at least 20 sketches covering entire syllabus, Graded answer paper of v:ritten test.
The distribution of term work marks shall be as follows: Laboratory work (Experiments, assignments and sketches) \Vritten test (at least one) Attendance (Practical and theory)
: l.O marks : 10 marks :05 marks
The final certification and acceptance oftcnn work ensures the satisfactory perfonnance of laboratory work and at least minimum passing in the term-work.
Recommended Books: I. "Building construction" by S. P. Bindra and S. P. Arora. Dhanpat Rai & Sons, Delhi 2. "Building drawing" by M.G. Shah, C. M. Kale, S. Y. Patki, Tala McGraw Ilill, Delhi 3. "Services in building complex" by V. K. Jain, Khanna Publishers 4. "Materials of construction" by D. N. Ghose. Tala McGraw Hill. Delhi 5. "Architectural materials science" by D. Anapctor, Mir Publishers 6. IS codes of dificrent materials. BJS publications 7. "Introduction to engineering materials" by B. K. Agrawal, Tata McGraw Hill New
Delhi 8. "Engineering materials" by Rangwala, Charotar Publications 9. "Engineering 1natcrials" by P. Surendrasingh. Vani Education Books New Delhi. I 0. "Building construction" by R~ngwalll. Charotar Publications
Semester-ill
Periods/week -each period of 60 minutes duration
Lecture Practical Tutorial
03 02
Hours Marks Theorv of Examination 03 100
Practical Evaluatiqn System Oral Examination 25
Term Work 25 TOTAL 150
Module Topics No. of lectures
01 Jntrodnction: OJ Branches of geology useful to civil engineering, Importance of geological studies in various civil engg. Projects. Internal struclute of the Earth and use of seismic waves in understanding the interior of the earth
02 General and physical geology: 05 Agents modif)'ing the earth's surface, study of weathering and its significance in engineering properties of rocks like strength, water tightness and durability etc. Geological action of river, wind, glacier, ground water and the related land fonns created by them. Volcanism- Central type <md fissure type, products of volcano, volcanic land forms. Earthquakes - Earthquakes waves, construction and working of seismographs, Earthquakes zones of India . Preventive measures fl.>r s(ructtJres constructed in Earthquake prone area.
03 Mineralogy: 02 Identification of minerals with the help of physical properties, rock forming minerals, megascopic identification of primary and secon\lary minerals, study of common ore minera ls as prescribed under practical.
04 l'etrology: 05 Study oflgneous, sedimentary and metamorphic rocks, distinguishing properties between Igneous, sedimentary and metamorphic rocks to identify them in fields. Igneous Petrology - Mode of formation, Texture and structure etc. Hatch's scheme of classification, study of common igneous rocks. Sedimentary Petrology - Mode of formation , Textures, characteristics of shallow water deposits l ike lamination, bedding, current bedding etc, classification of secondary rocks types, residual deposits, chemically formed and organicallv deposits, commonly occurring sedimentary
rocks. Metamorphic Petrology - Mode of formation, agents and types of metru110rphism, metamorphic minerals, rock cleavage, stmcturcs and textures of metamorphic rocks, classification, commonly occurrin~ metamorphic rocks.
05 Structural geology: 04 Structural elements of rocks, dip, strike, outcrop pattems, unconformities, outliers and inliers, srudy of joints. faults and folds. importance of structural elements in engineering operations.
06 Stratign1phy nnd indian geology 05 General princip<tls of Stratigraphy and co-relation, geological time scale, Physiograph.ic divisions of India and their characteristics. Geological history of peninsular lndia. Study offormations in the peninsula, Important economic minerals and building stones of india.
07 Geologic:\! iuvcstigation 03 Preliminary Geological Investigation and their importance to achieve safety and economy of the projects supporting case studies of dams and turmel projects in Maharasbtra state. Methods of surface and subsurface investigations- Excavations-Trial piL~, Trenches etc Core Drilling - Geological logging, Inclined Drill holes. Electrical Resistivity methods, Seismic methods and their applications. Use of Aerial photographs, Satellite cmagcries in civil engineering projects.
08 Geology of dum and reservoir site: Strengths. stability and water tightness of foundation rocks and their 03 physical characters and geological stnlcturcs. Geological conditions and choice of type of dams, Favorable and unsuitable conditions for locating dams, strucnrral and erosional vallics, Precautions to be taken to counteract unsuitable conditions, Significance of faults ,dykes, crush zones, joints and unfavorable dips onl.he dtun site and treatment giving to such structures.
09 Tunneling: 02 Importance of geological considerations while choosing sites and alignments of the tmmel. Ideal site conditions for nllllleling, geological conditions to be avoided. Tunneling to various types of rocks under various geological and structural conditions. Difficulties during tunneling and methods to overcome the difficulties.
10 Ground water: 06 Sources and /.Ones, water table, Unconfined and Perched. Factors controlling water bearing capacity of rocks, Pcrvim1s and Impervious rocks, Cone of depression and its use in Civil engineering. Geological work of groundwater. Springs and seepage sites and geological structures. Artesian wells. Different types of rocks as source of ground wmer.
'---'
Methods of artificial recharge of ground water, geology of percolation tank.
II Land slides: 02 Their 1 • es, causes and revcnt1ve measures for landslides.
12 Building stones: 02 Requirements of good building stones, geological factors, contrOlling properties of good building stones, consideration of common rocks as building stones, study of different building stones from various fonnations in Indian Peninsula, geological factors controlling location of uarrics, uarr in methods and uarr in<> o crations.
The01-y Examination:-6. Question paper will consist of total seven questions carrying 20 marks each. 7. Only live questions need to be attempted. 8. Question number I will be compulsory and based on ma.ximum part of the syllabus. 9. Remaining questions will be mixed in nature. 10. In question paper weightagc of each module will be proportional to the number of
respective lecture hours as mentioned in the syllabus.
Oral Examination:-OraJ examination will be based on entire syllabus.
List of Practicals:-1. Study of physical properties of the minerals. 2. Identification of minerals- Crystalline, crypto-crystalline and amorphous silica and
t11eir varieties, Orthoclase, Microclian, Pla!:,'.ioclase, Muscovite, Biotite. Hornblcnd, Asbestos, Augite, O!ivin, Tourmaline, Gamet, Natrolite, Actinolite, Calcite. Dolomite, Gypsum, Beryl, Bauxite, Graphite, Galena, Pyrite. Hematite, Magnitite, Chalcopyrite. Chromite, Corundum, Talc, Fluorite, Kyanite.
3. Identification of rocks : Igneous rocks- Gnmitc and its varieties, Synite, Diorite, Gabbro, Pegmatite. Porphyry, Dolerite, Rhyolite, Pumice, Trachyte, Basalt and its val"ieties. Volcanic Breccia, Volcanic tuffs. Sedimentwy Rocks- Conglomerate, Breccia, Sandstone and its varieties, Shales, Limestones, Laterites. Metamorphic Rocks- Mica Schists, Hornblende Schists, Slate, Phyllite, Granite Gneiss and its varieties, Augen gneiss, Marbles and Quartzite.
4. Study of Geological maps (At least Eight). 5. Study of core samples, RQD, Core logging. 6. At least one Engineering problem based on Field data collected during site
investigation.
Term Worlt: Each student has to appear for at least ONE written test during the tenn. The term work shall consist of: Report of experiments conducted. At least I 0 assignments covering entire syllabus, Graded answer paper of written test.
The distribution of tenn work marks shall be as follows: Laboratory work (Experiments and assignments) WriHen test (at least one) Attendance (Practical and theory)
: 10 marks : 10 marks :OS marks
Tite final certification and acceptance of tem1 work ensures the satisfactory performance of laboratory work and at least minimum passing in the term-work.
Recommended Books: l. "Text book of Engineering Geology'' by Dr. R. B. Gupte, Vidyarthi Pune. 2. "Text book of Engineering Geology" by P. K. Mukerjee, Asia. 3. ·'Text book of Engineering unci General Geology" by Parbin Singh, Carson
Publ ication House. 4. "Text book of Engineeri ng Geology" by N Chetma Kesavulu, Macmillan. 5. "Principles of physical Geology" by Arthur Homes, Thomas Nelso11 London. 6. "Principles of Geomorphology" by Wi ll iam D. Thornbury, John Wiley, New York. 7. "Principles off.nginccring Geology" by K.M.Banger. 8. "Geology for Civil Engineering" A. C. McLean, C.D.Gribble, George Allen &
Unwin London. 9. "Geology of India" by D.N.Wadia, National Book Trust
Class -SE(Civii/Construction) Semester lil Subject:- Presentation and Communication Techniques Periods/week- each Lecture 2 period of 60 minutes Practical .
duration Tutorial 2 Hours Marks
Theory Examination . -Practical . -
Evaluation System Oral . .
Term Work . 50 Total 50
Detailed Syllabus Module Topics No or'-
lecluret_ f. Communication in a business orgnnizalion : OS
Internal and external communication, Types of meetings, sll'ategies for conducting successful business meeting, documentation (notice, agenda, minutes, resolution) of meetings. Introduction to modem communication techniques. (e-mail, internet, video-confercncing etc.) Legal and ethical issues in communication (Intellectual prope•tY rights: patents, TRJPS, Geographic-al indication).
2. Advance technical writing: 07 Report \.Vriting: Definition and importance of reports, qualities of reports, language and style in reports, types of reports. formats (letter, memo, project-reports). Methods of compiling data for preparing repott. A computer-aided presentation of a technical project report based on survey-based or reference based topic. The topics are to be assigned to a group of 8-l 0 students. The \\Tittcn report should not exceed 20 printed pages. Technical paper-,"'filing, writing business proposals. -
' ·'· Jnt·crpersonal ~l<ms: 03 Introduction to emotional intelligence, mali vation. Negotiation and conflict resolution. Assertiveness, team-building, decision-making, time-management, persuasion.
4. P•·csentation skills: 03 Glcmonts of an effective presentat ion, Struct11r~ of preseniati.on, Presentation tools, Audience analysis, Language: Articulation, Oood pronunciation, Voice quality, Modulation Accent and Intonation.
5. Carcc•· skills: 03 Preparing resumes and cover letters. Types of Resumes, Interview techniques: Preparing .for job interviews, facing an interview, verbal and non-verbal communication during interviews, observation sessions and role-play techniques to be used to demonstrate interview strategies( mock intcrvie\\--s)
I
6. Group discussion: Group discussions as part of selection process. Structure of a group discussion, Dynamics of group behavior, techniques for effective
'-----'u:..:::articipation, Team work and use of body language.
Term Works: Part-1 (25 Marks): Assignment~; Each studcllt has to appear for at least ONE -..vritten test during the term. The term work shall consist of: Two assignments on communication topics Three assignments on report-writing Three assignments on interpersonal skills Two assignments on career skills Graded answer paper of written test.
The distribution oflerm work mm·ks shal l be as follows: Assigmncnts I 0 marks Written test (at least one) I 0 marks Auendance (Theory and Tutorial) 05 marks
Part-II (25 Mari<S): Prcscnl'ation; The distribt1tion of term work marks shall be as fo llows: Project report presentation 15 marks Group discussion : 10 marks
03
The final certification and acceptance ofterm-work ensures the satisfactory pcrfom1ancc of laboratory work and minimum passing in tile term-work.
Recommended Boolts :
I. Leslkar and Petit, Report writing for business, Tata McGraw Hill 2. Raman and Sangeeta Sharma, Technical communication, Oxford University Press, New
Delhi. 3. Wallace & Masters, Personal development for Life & work, Thomson Leming. 4. Heta Murphy, Effective Ousiness Communication, McGraw Hi II. 5. Huckin & Olsen, Technical writing and professional communica tion, McGraw Hill. 6. Fred Luthans, Organizational behavious, :McGraw Hill.
J Semester TlJ
Periods/week- each 1-L:;:.::ec::.:·t.:;u:..:rc:...,... _ ___ _ +------~03:------period of 60 minutes Practical 02 __ duration Tutorial
I lours Marks Theor Examination 3 100 Practical 2
Evaluation System Oral Term Work Total
25 - -+------"1275 - -
D 'I d S II b etaa e )Yl a us Module Topics No. of
lectures I Properties of fluids: 05
Mass density, weight density, specific gravity, specific volume, viscosity, compressibility, bu lk modulus, surlilce tension, capi llary action, vapour pressure, types of fluids. basic concept applicable to fluid mechanics.
2 Fluid static: 08 Pascal's Jaw, Hydrostatic Law, pressure variation in fluids at rest, absolute, atmospheric, gauge pressure, measurement p(' pressures. Hydrostatic force on plane and cwvcd surface. Buoyancy and flotation: Archimede's principle Metacentre, mctcentric height, equilibrium of floating and submerged bodies, oscillation of floating bidiy.
3 Liquids in relath·e equilibrium: 04 Uniform linear acceleration, liquid containers subjected to const::mt horizontal and vertical acceleration, constant rotation with vertical axis.
4 Fluid kinematics: 04 Description of fluid flow: Lagrangian method, Eulerian method. Streamline, Path lines and streak. lines, Classification of Fluid Flows, Difrerential equation of continuity, continuity equation in polt\r co-ordinates. Rotation11l flow. Rotation and vorticity, stream fimction, eotcntial function, circulation, flow net.
5 Fluid dynamics: 10 Control volume and control surface, Euler's equation, B.:moulli's Theorem, Bernoulli's equation of real fluids, applications to flow measuring devices: Venturimel.er, nozzle meter, pitot tube, rotameter.
6 Flow measurement: 03 Orifice: hydraulic coerficients, small and large orifico. time of emptving a tank through orifice.
7
Mouthpieces: External, convergent, Borda's mouthpieces Notches and weirs: rectangular, triangular, Cipol!cti weirs, velocity of
contractions. anoroach, end Ideal fluid flo Uniform llow, flow: source Rfmkine ovcl
Theory Exnmination:-I. 2 .
Question paper will consist of total seven questions canying 20 marks each. ons need to be attempted. Only five questi
03
3. 4.
Question numbe Remaining quest
r 1 will be compulsory and based on maximum part of the syllabus. ions will be mixed in nature.
5. In que~tion pape respt.'Ctive lcctur
r weightage of each module will be proportional to the number of e hours as mentioned in the syllabus.
List of EXJ>criments:-I. 2. 3. 4. 5. 6. 7. 8. 9.
Detennination o Verification of B Calibration of or
f metacentric height. cmOltlli 's theorem. ifices
Calibration of m outhpieccs Calibration of no tches Calibration of w etrs Calibration of ve nturimctcr
rificemctcr :zzlcmeter etc.
Calibration of o Calibration of no
Term Work: Each student has to appe Tbe tem1 work shall con
ar for at least ONE written test during the term. sist of:
Report on minimum six Assignments coJtSisting Graded answer paper of The distribution of term
experiments conducted, of minimum 15 problems covering entire syllabus written test work marks shall be as follows:
Laboratory work (Ex per imcnts and assignments) : I 0 marks Writrcn test (at least one ) Attendance (Practical an d theory)
: 10 marks : 05 marks
The final cet1ilication an d acceptance of term work ensures the satisfactory performance of east minimum passing in the term-work. laboratory work and at I
Recommended Books: I. "Hydraulics and fluid mechnics" by Dr. P. M. Modi and Dr. S. M. Seth, Standard
Book House. 2. '"Theory and applications of fluid mechanics" by K. Subramanya, Tata McGraw
Hill New Delhi. 3. "Fluid mechanics'" by Dr. A. K. Jain, Khanna Publishers. 4. "Fluid mechanics and tluid pressure engineering" by D. S. Kumar. F. K. Kataria
and sons. 5. '·Fluid mechanics" by R.K. Bansal, Lax.mi Publications (P) Ltd. 6. "Fluid mechanics·· by Frank M. White, Tata McGraw-Hill. · 7. '·fluid mechanics" by Streeter, Wylie, l3edford, McGrew-Hilllntemational Edition 8. ''Fluid mechanics with engineering applications" by R. L. Daugherty, J. B. Franzini,
E. J. Finncmore, Tata McGraw-Hill New Delhi. 9. "Fluid mechanics" by Joseph Spurl<, Springer l 0. "Mechanics of fluids" by Potier, Wiggert, Prentice-Hall Intemational.
