ggsgpcheeka.ac.inggsgpcheeka.ac.in/downloads/files/n5c3334f3e8d97.pdf · Topic (Including...

41
LESSON PLAN Name of faculty : Mr. Kartik sharma Discipline : Civil Engineering Semester : 4 th Semester Subject :E.R.B.C. Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019) Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00 Week Theory Practical Lecture Day Topic (Including assignment/test) Practical Day Topic 1 st 1 st Elements of Engineering Seismology: General features of tectonic of seismic regions 2 nd Causes of earthquakes, Seismic waves, earthquake size (magnitude and intensity) 3 rd Epicentre, Seismograph, Classification of earthquakes 2 nd 4 th Seismic zoning map of India 5 th Static and Dynamic Loading 6 th Fundamental period. 3 rd 7 th Seismic Behaviour of Traditionally-Built Constructions of India: Performance of building during earthquakes 8 th Mode of failure-Out-of-plane failure 9 th in-plane failure 4 th 10 th Diaphragm failure 11 th Connection failure 12 th Non-structural components failure 5 th 13 th Assignment-1 14 th Test-1 15 th Special construction method-1 6 th 16 th Special construction method-2 17 th tips and precautions to be

Transcript of ggsgpcheeka.ac.inggsgpcheeka.ac.in/downloads/files/n5c3334f3e8d97.pdf · Topic (Including...

Page 1: ggsgpcheeka.ac.inggsgpcheeka.ac.in/downloads/files/n5c3334f3e8d97.pdf · Topic (Including assignment/test) Practical Day . Topic 1. st . 1. st . Elements of Engineering Seismology:

LESSON PLAN

Name of faculty : Mr. Kartik sharma

Discipline : Civil Engineering

Semester : 4th Semester

Subject :E.R.B.C.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Elements of Engineering Seismology: General features of tectonic of seismic regions

2nd Causes of earthquakes, Seismic waves, earthquake size (magnitude and intensity)

3rd Epicentre, Seismograph, Classification of earthquakes

2nd 4th Seismic zoning map of India 5th Static and Dynamic Loading 6th Fundamental period.

3rd 7th Seismic Behaviour of Traditionally-Built Constructions of India: Performance of building during earthquakes

8th Mode of failure-Out-of-plane failure

9th in-plane failure 4th 10th Diaphragm failure

11th Connection failure 12th Non-structural components failure

5th 13th Assignment-1 14th Test-1 15th Special construction method-1

6th 16th Special construction method-2 17th tips and precautions to be

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observed while planning-1 18th tips and precautions to be

observed while planning-2

7th 19th designing and construction of earthquake resistant building-1

20th designing and construction of earthquake resistant building-2

21th Introduction to IS: 4326 8th 22th Introduction to IS: 13828,

23th Introduction to IS: 1893(Part 1), 24th Introduction to IS: 154326

9th 25th Introduction to IS: 13920 (latest edition)

26th Assigmnent-2 27th Seismic Provision of

Strengthening-1

10th 28th Seismic Provision of Strengthening-2

29th Retrofitting Measures for Traditionally- Built Constructions-1

30th Retrofitting Measures for Traditionally- Built Constructions-2

11th 31th Brick and RCC Structures-1 32th Brick and RCC Structures-2 33th Provision of reinforcement

detailing in masonry-1

12th 34th Provision of reinforcement detailing in masonry-2

35th Provision of reinforcement detailing in masonry-3

36th RC constructions-1 13th 37th RC constructions-2

38th RC constructions-3 39th Disaster Management:

Disaster rescue, psychology of rescue,

14th 40th rescue plan, rescue by steps 41th rescue equipment, safety in rescue

operations

42th Debris clearance, rescue workers 15th 43th casuality management.

44th Assignment-3 45th Test-3

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LESSON PLAN

Name of faculty : Mr. Kartik sharma

Discipline : Civil Engineering

Semester : 4th Semester

Subject :I.E.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Introduction: Definition of irrigation, Necessity of irrigation

2nd History of development of irrigation in India, Major, medium and minor irrigation projects

3rd Water Requirement of Crops: Principal crops in India and their water requirements, Crop seasons – Kharif and Rabi

2nd 4th Soil water, soil crop and water relationships

5th duty, delta and base period, their relationship, Gross commanded area (GCA), culturable commanded area (CCA),intensity of irrigation, irrigable area

6th Hydrological Cycle Catchment Area and Run-off: Rainfall , definition rain-gauges – automatic and non-automatic

3rd 7th Methods ofestimating average rainfall (Arithmatic system); catchment area runoff, factors affecting runoff

8th Hydrograph, basic concept of unit hydrograph

9th Assignment-1

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4th 10th Test-1 11th Methods of Irrigation: Flow

irrigation - its advantages and limitations

12th Lift Irrigation – Tube well and open well irrigation, their advantages and disadvantages

5th 13th Sprinkler irrigation conditions favourable and essential requirements for sprinkler irrigation,

14th sprinkler system – classification and component parts

15th Drip irrigation, suitability of drip irrigation, Layout, component parts,advantages

6th 16th Assignment-2 17th Canals: Classification,

apurtenancs of a canal and their functions

18th Sketches of different canal cross-sections (unlined)

7th 19th Various types of canal lining - their related advantages and disadvantages,

20th Sketches of different lined canal x-sections, Breaches and their control, Maintenance of lined and unlined canals

21th Assignment-3 8th 22th Test-2

23th Tube Well Irrigation: Introduction, occurrence of ground water, location and command,

24th Advantages and disadvantages, comparison with canal irrigation

9th 25th Tube wells, explanation of terms: water table, radius of influence, depression head, cone of depression

26th confined and unconfined aquifers. Yield of a well and methods of determining yield of well

27th Types of tube wells, cavity, strainer and slotted type;

10th 28th Method of boring, installation of well assembly, development of

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well, Pump selection and installation and maintenance

29th Water Harvesting Techniques: Need and requirement of various methods, Run-off from roof top and ground surface

30th construction of recharge pits and recharge wells and their maintenance.

11th 31th Dams: Classification of dams; earthen dams – types, causes of failure

32th Cross section of zoned earthen dams, method of construction

33th Gravity dams –types, Cross-sections of a dam, method of construction

12th 34th Concept of small and micro dams, Concept of spillways and energy dissipators

35th Test-3 36th Canal Head Works and

Regulatory Works: Definition, object, general layout

13th 37th functions of different parts of head works, Difference between weir and barrage

38th Cross Drainage Works: Functions and necessity of the following types: aqueduct

39th level crossing, , super passage, inlet and outlet, pipe crossing

14th 40th Sketches of the above cross drainage works

41th Definitions of following Hydraulic Structures with Sketches: Falls,Cross and head regulators, Outlets, Canal Escapes

42th River Training Works: Methods of river training, guide banks

15th 43th retired (levees) embankments, groynes and spurs, pitched island, cut-off

44th Water Logging and Drainage and Ground

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Water Re-charge: Definition of water logging – its causes and effects, detection, prevention and remedies, Reclamation of soil

45th Surface and sub-surface drains and their layout, Concept and various techniques used for ground water re-charge

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LESSON PLAN

Name of faculty : Mr. Manoj Chahal

Discipline : Civil Engineering

Semester : 4th Semester

Subject :P. H. E.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Introduction: Necessity and brief description of water supply system.

1st To determine turbidity of water sample

2nd Quantity of Water: Water requirement, Rate of demand and variation in rate of demand, Per capita consumption for domestic, industrial

3rd public and fire fighting uses as per BIS standards (no numerical problems)

2nd 4th Population Forecasting 2nd To determine dissolved oxygen of given sample

5th Quality of Water: Meaning of pure water and methods of analysis of water

6th Physical, Chemical and bacteriological tests and their significance, Standard of potable water as per Indian Standard

3rd 7th Maintenance of purity of water (small scale and large scale quantity)

3rd To determine pH value of water

8th Water Treatment (brief introduction): Sedimentation - purpose, types of sedimentation tanks, Coagulation floculation - usual coagulation and their feeding, Filtration - significance, types of filters, their

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suitability 9th Necessity of disinfection of water,

forms of chlorination, break point chlorine, residual chlorine, application of chlorine.

4th 10th Flow diagram of different treatment units (i) Areation fountain

4th To perform jar test for coagulation

11th Flow diagram of different treatment units mixer (iii) floculator, Flow diagram of different treatment units classifier

12th Flow diagram of different treatment units (v) slow and rapid sand filters (vi) chlorination chamber.

5th 13th Assignment-1 5th To determine BOD of given sample 14th Test-1 15th Conveyance of Water:

Different types of pipes - cast iron, PVC, steel, asbestos cement, concrete and lead pipes, Their suitability and uses, types of joints in different types of pipes

6th 16th Appurtenances: Sluice, air, reflux valves, relief valves, scour valves, bib cocks, stop cocks, fire hydrants, water meters their working and uses

6th To determine residual chlorine in water

17th Distribution site: Requirement of distribution, minimum head and rate,methods of layout of distribution pipes

18th Systems of water supply - Intermittent and continuous service reservoirs - types, necessity and accessories.

7th 19th Wastage of water - preventive measures, Maintenance of distribution system, Leakage detection

7th To determine conductivity of water and total dissolved solids

20th Laying out Pipes: Setting out alignment of pipes

21th Excavation for laying of pipes and precautions to be taken in laying pipes in black cotton soil

8th 22th Handling, lowering beginning and jointing of pipes, Testing of pipe

8th To study the installation of following:

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lines. Back filling, Use of boring rods

a) Water meter

23th Building Water Supply : Connections to water main (practical aspect only)

24th Water supply fixtures and installations and terminology related to plumbing

9th 25th Assignment-2 9th To study the installation of following: b)Connection of water supply of building with main

26th Test-2 27th WASTE WATER

ENGINEERING: Introduction, Purpose of sanitation ,Necessity of systematic collection and disposal of waste

10th 28th Definition of terms in sanitary engineering, Collection and conveyance of sewage, Conservancy and water carriage systems, their advantages and Disadvantages

10th To study the installation of following:

c) Pipe valves and bends

29th (a) Surface drains (only sketches) : various types, suitability (b) Types of sewage: Domestic, industrial, storm water and its seasonal variation

30th Sewerage System: Types of sewerage systems, materials for sewers, their sizes and joints

11th 31th Appurtenance: Location, function and construction features. Manholes, drop manholes, tank hole, catch basin, inverted siphon, flushing tanks, grease and oil traps, storm regulators, ventilating shafts

11th To study the installation of following:

d) Water supply and sanitary fittings

32th Laying and Construction of Sewers: Setting out/alignment of sewers, Excavations, checking the gradient with boning rods preparation of bedding

33th handling and jointing testing and back filling of sewers/pipes,

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Construction of surface mains and different sections required

12th 34th Sewage characteristics: Properties of sewage, IS standards for analysis of sewage

12th To study and demonstrate the joining/tPeriodseading of GI Pipes, CI Pipes, SWG pipes, PVC pipes and copper pipes

35th Physical, chemical and bacteriological parameters

36th Natural Methods of Sewerage Disposal: General composition of sewage and disposal methods

13th 37th Disposal by dilution, Self purification of stream, Disposal by land treatment, Nuisance due to disposal

13th To demonstrate the laying of SWG pipes for sewers

38th Assignment-3 39th Test-3

14th 40th Sewage Treatment Meaning and principle of primary and secondary treatment

14th Study of water purifying process by visiting a field lab.

41th Activated sludge process their flow diagrams, Introduction and uses of screens, grit chambers, detritus tanks

42th Skimming tanks, plain sedimentation tanks, primary clarifers, secondary clarifers, filters,

15th 43th control beds, intermittent sand filters, trickling filters, Sludge treatment and disposal, oxidation ponds

15th Demonstration of plumbing tools.

44th Building Drainage: Aims of building drainage, building drainage requirements

45th Different sanitary fittings, Different sanitary installations, Traps, seals, causes of breaking seals

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LESSON PLAN

Name of faculty : Mr. Manoj Chahal

Discipline : Civil Engineering

Semester : 6th Semester

Subject :QUANTITY SURVEYING AND VALUATION

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-05, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Introduction to quantity surveying and its importance. Duties of quantity surveyor

2nd Types of estimates: Preliminary estimates - Plinth area estimate - Cubic rate estimate

3rd - Estimate per unit base Detailed estimates - Definition

4th Stages of preparation – details of measurement and calculation of quantities and abstract

5th Measurement: Units of measurement for various items of work as per BIS:1200

2nd 6th Rules for measurements 7th Different methods of taking out

quantities – centre line method and long wall and short wall method

8th Assignment-1 9th Test-1 10th Preparation of Detailed and

Abstract Estimates from Drawings for: A small residential building with a

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flat roof and pitched roof building comprising of - Two rooms with W.C., bath, kitchen and verandah-1

3rd 11th A small residential building with a flat roof and pitched roof building comprising of - Two rooms with W.C., bath, kitchen and verandah-2

12th A small residential building with a flat roof and pitched roof building comprising of - Two rooms with W.C., bath, kitchen and verandah-3

13th Earthwork for unlined channel-1 14th Earthwork for unlined channel-2 15th Earthwork for unlined channel-3

4th 16th RCC work in beams, slab, column and lintel, foundations-1

17th RCC work in beams, slab, column and lintel, foundations-2

18th RCC work in beams, slab, column and lintel, foundations-3

19th WBM road and pre-mix carpeting-1

20th WBM road and pre-mix carpeting-2

5th 21th WBM road and pre-mix carpeting-3

22th Single span RCC slab culvert-1 23th Single span RCC slab culvert-2 24th Single span RCC slab culvert-3 25th Earthwork for plain and hill roads-

1

6th 26th Earthwork for plain and hill roads-2

27th Earthwork for plain and hill roads-3

28th users septic tank - 50 users-1 29th users septic tank - 50 users-2 30th users septic tank - 50 users-3

7th 31th users septic tank - 10 users-1 32th users septic tank - 10 users-2 33th users septic tank - 10 users-3 34th Assignment-2 35th Test-2

8th 36th Calculation of quantities of

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materials for: Cement mortars of different proportion

37th Cement concrete of different proportion

38th Brick/stone masonry in cement mortar

39th Plastering and pointing 40th White washing, painting

9th 41th R.C.C. work in slab, beams 42th Analysis of Rates:

Steps involved in the analysis of rates

43th Requirement of material, labour, sundries, contractor’s profit and overheads

44th Analysis of rates for finished items when data regarding labour, rates of material and labour is given: -Earthwork in excavation in hard/ordinary soil and filling with a concept of lead and lift

45th RCC in roof slab/beam/lintels/columns

10th 46th Brick masonry in cement mortar 47th Cement Plaster 48th White washing, painting 49th Stone masonry in cement mortar 50th Running and maintenance cost of

construction equipment

11th 51th Contractorship: - Meaning of contract

52th Qualities of a good contractor and their qualifications

53th Essentials of a contract 54th Types of contracts, their

advantages, dis-advantages and suitability, system of payment

55th Single and two cover-bids; tender, tender forms and documents, tender notice, submission of tender and deposit of earnest money, security deposit, retention money, maintenance period

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12th 56th Classification and types of contracting firms/construction companies

57th Preparation of Tender Document based on Common Schedule Rates (CSR): - Introduction to CSR and calculation of cost based on premium on CSR

58th Exercises on writing detailed specifications of different types of building works from excavation to foundations, superstructure and finishing operation

59th Exercises on preparing tender documents for Earth work

60th Exercises on preparing tender documents for Construction of a small house as per given drawing

13th 61th Exercises on preparing tender documents for RCC works

62th Exercises on preparing tender documents for Pointing, plastering and flooring

63th Exercises on preparing tender documents for White-washing, distempering and painting

64th Exercises on preparing tender documents for Wood work including polishing

65th Exercises on preparing tender documents for Sanitary and water supply installations

14th 66th Exercises on preparing tender documents for False ceiling, aluminum (glazed) partitioning

67th Exercises on preparing tender documents for Tile flooring including base course

68th Exercises on preparing tender documents for Construction of W.B.M/Concrete road

69th Exercises on preparation of comparative statements for item rate contract

70th Valuation: Purpose of valuation, principles of valuation

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15th 71th Definition of various terms related to valuation like depreciation, sinking fund

72th salvage and scrap value, market value, fair rent, year’s purchase etc.

73th Methods of valuation (i) replacement cost method (ii) rental return method

74th Assignment-3 75th Test-3

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LESSON PLAN

Name of faculty : Mr. Anoop Banwala

Discipline : Civil Engineering

Semester : 6th Semester

Subject :RAILWAYS, BRIDGES AND TUNNELS

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-04, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st RAILWAYS Introduction

2nd Introduction to Indian Railways 3rd Railway surveys: Factors

influencing the railways route,

4th brief description of various types of railway survey, Classification of permanent way describing its component parts

2nd 5th Classification of permanent way describing its component parts, Rail Gauge: Definition, types,

practice in India

6th Assignment-1 7th Test-1 8th Rails – types of rails

3rd 9th Rails – types of rails 10th Rail Fastenings: Rail joints, types

of rail joints

11th fastenings for rails, fish plates, bearing plates

12th Sleepers: Functions of sleepers, types of sleepers, types of sleepers, requirements of an ideal material for sleepers.

4th 13th Ballast: Function of ballast, requirements of an ideal material for ballast

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14th Assignment-2 15th Test-2 16th Crossings and signallings

5th 17th Brief description regarding different types of crossings/ signallings (Latest electronics operated signal devices )

18th Maintenance of track: Necessity, maintenance of track, inspection of soil, track and fixtures;

19th maintenance and boxing of ballast maintenance gauges, tools

20th Earth work and drainage: Features of rail road, bed level, width of formation, side slopes, drains,

6th 21th methods of construction, requirement of drainage system

22th Assignment-3 23th Test-3 24th BRIDGES

Introduction, Bridge – its function and component parts,

7th 25th difference between a bridge and a culvert

26th Assignment-4 27th Test-4 28th Classification of Bridges, Their

structural elements and suitability: -According to life-permanent and temporary

8th 29th -According to deck level – Deck, through and semi-through

30th -According to material –timber, masonry, steel, RCC, pre-stressed

31th According to structural form -Grade Seperators-Railway Overbridges (ROB)

32th Railway underbridge (RUB), Beam type –RCC, T-Beam

9th 33th steel girder bridges, plate girder and box girder, balanced cantilever, Trussed bridges

34th Arch type – open spandrel and filled spandrel barrel and rib type

35th Suspension type – unstiffened and stiffened and table (its

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description with sketches) 36th According to the position of

highest flood level submersible and non submersible

10th 37th Assignment-5 38th Test-5 39th IRC classification, Bridge

Foundations: Introduction to open foundation

40th Assignment-6 11th 41th pile foundation, Well foundation

42th Piers, Abutments and Wingwalls Piers-definition, parts; types –solid (masonry and RCC), open

43th Assignment-7 44th Test-6

12th 45th Abutments and wing walls – definition, types of abutments (straight and tee),

46th abutment with wing walls (straight, splayed, return and curved)

47th Launching of Equipment Bridges 48th Bridge bearings

Purpose of bearings; types of bearings, fixed plate, rocker and roller

13th 49th Maintenance of Bridges Inspection of Steel and Equipment bridges

50th Routine maintenance 51th Test-7 52th TUNNELS

Definition and necessity of tunnels

14th 53th Typical section of tunnels for a national highway and single and double broad gauge railway track

54th Typical section of tunnels for a national highway and single and double broad gauge railway track

55th Ventilation –necessity and methods of ventilation

56th by blowing, by exhaust 15th 57th combination of blowing and

exhaust

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58th Drainage method of draining water in tunnels

59th Lighting of tunnels 60th Field Visit

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LESSON PLAN

Name of faculty : Mrs. Kartik Sharma

Discipline : Civil Engineering

Semester : 4th Semester

Subject :R. C. D.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Introduction: Concept of Reinforced Cement Concrete (RCC) Reinforcement Materials: - Suitability of steel as reinforcing material - Properties of mild steel and HYSD steel Loading on structures as per IS: 875

2nd Introduction to following methods of RCC design-Working stress method, Introduction to following methods of RCC design-Limit state method

3rd Shear and Development Length: Shear as per IS:456-2000 by working stress method, Shear strength of concrete without shear reinforcement, Maximum shear stress, Shear reinforcement

2nd 4th Singly Reinforced Beam (Working stress method): Basic assumptions and stress strain curve

5th neutral axis, balanced, under reinforcement and over reinforced beams, Moment of resistance for singly

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reinforced beam 6th Design of singly reinforced beam

including sketches showing reinforcement details-1

3rd 7th Design of singly reinforced beam including sketches showing reinforcement details-2

8th Assignment-1 9th Test-1

4th 10th Concept of Limit State Method: Definitions and assumptions made in limit state of collapse (flexure), Partial factor of safety for materials

11th Partial factor of safetyfor loads, Design loads-1, Design loads-2, Stres block, parameters

12th Singly Reinforced beam Theory and design of singly reinforced beam by Limit State Method-1

5th 13th Theory and design of singly reinforced beam by Limit State Method-2

14th Theory and design of singly reinforced beam by Limit State Method-3

15th Theory and design of singly reinforced beam by Limit State Method-4

6th 16th Theory and design of singly reinforced beam by Limit State Method-5

17th Theory and design of singly reinforced beam by Limit State Method-6

18th Assignment-2 7th 19th Test-2

20th Doubly Reinforced Beams: Theory and design of simply supported doubly reinforced rectangular beam by Limit State Method-1

21th Theory and design of simply supported doubly reinforced rectangular beam by Limit State Method-2

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8th 22th Theory and design of simply supported doubly reinforced rectangular beam by Limit State Method-3

23th Theory and design of simply supported doubly reinforced rectangular beam by Limit State Method-4

24th Theory and design of simply supported doubly reinforced rectangular beam by Limit State Method-5

9th 25th Assignment-3 26th Test-3 27th Behaviour of T beam, inverted T

beam, Isolated T beam and ‘L’ beams (No Numericals)

10th 28th One Way Slab: Theory and design of simply supported one way slab including sketches showing reinforcement details (plan and section) by Limit State Method-1

29th Theory and design of simply supported one way slab including sketches showing reinforcement details (plan and section) by Limit State Method-2

30th Theory and design of simply supported one way slab including sketches showing reinforcement details (plan and section) by Limit State Method-3

11th 31th Theory and design of simply supported one way slab including sketches showing reinforcement details (plan and section) by Limit State Method-4

32th Theory and design of simply supported one way slab including sketches showing reinforcement details (plan and section) by Limit State Method-5

33th Theory and design of simply supported one way slab including sketches showing reinforcement details (plan and section) by Limit State Method-6

12th 34th Two Way Slab:

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Theory and design of two-way simply supported slab with corners free to lift, no provisions for torsional reinforcement by Limit State Method including sketches showing reinforcement details (plan and two sections)-1

35th Theory and design of two-way simply supported slab with corners free to lift, no provisions for torsional reinforcement by Limit State Method including sketches showing reinforcement details (plan and two sections)-2

36th Theory and design of two-way simply supported slab with corners free to lift, no provisions for torsional reinforcement by Limit State Method including sketches showing reinforcement details (plan and two sections)-3

13th 37th Theory and design of two-way simply supported slab with corners free to lift, no provisions for torsional reinforcement by Limit State Method including sketches

showing reinforcement details (plan and two sections)-4

38th Theory and design of two-way simply supported slab with corners free to lift, no provisions for torsional reinforcement by Limit State Method including sketches showing reinforcement details (plan and two sections)-5

39th Theory and design of two-way simply supported slab with corners free to lift, no provisions for torsional reinforcement by Limit State Method including sketches showing reinforcement details (plan and two sections)-6

14th 40th Axially Loaded Column: Definition and classification of columns, Effective length of column, Specifications for longitudinal and lateral reinforcemen

41th Design of axially loaded square by Limit State Method including

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sketching of reinforcement (sectional elevation and plan)-1

42th Design of axially loaded rectangular by Limit State Method including sketching of reinforcement (sectional elevation and plan)-2

15th 43th Design of axially loaded circular by Limit State Method including sketching of reinforcement

(sectional elevation and plan)-1

44th Design of axially loaded circular by Limit State Method including sketching of reinforcement (sectional elevation and plan)-2

45th Prestressed Concrete: Concept of pre-stressed concrete, Methods of pre-stressing : pre-tensioning and post tensioning, Advantages and disadvantages of pre stressing, Losses in pre-stress

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LESSON PLAN

Name of faculty : Mr. Anoop Banwala& Mr. Kartik Sharma

Discipline : Civil Engineering

Semester : 4th Semester

Subject :S.M.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Properties of Materials: Classification of materials, elastic materials, plastic materials, ductile materials, brittle materials.

1st Determination of yield stress, ultimate stress, percentage elongation and plot the stress strain diagram and compute the value of young's modulus on mild steel

2nd Introduction to tensile test, compressive test, impact test, fatigue test, torsion test on metals

3rd Simple Stresses and Strains: Concept of stress, normal and shear stresses,

2nd 4th Concept of strain and deformation, longitudinal and transverse strain,

2nd Revision

5th Hooke's law, modulii of elasticity and rigidity, Bulk modulus of elasticity,.

6th Stresses and strains in bars subjected to tension and compression.

3rd 7th stress produced in compound bars (two or tPeriodsee) due to axial load.

3rd Testing of HYSD Steel

8th Stress-strain diagram for mild steel and HYSD steel, mechanical properties, factor of safety.

9th Temperature stresses and strains 4th 10th Extension of uniform bar under its

own weight 4th Revision

11th relationship between the elastic constants

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12th poisson's ratio, volumetric strain 5th 13th Shear Force and Bending

Moment: Concept of a beam and supports (Hinges, Roller and Fixed), types of beams: simply supported, cantilever, propped, over hang, cantilever and continuous beams (only concept).

5th Determination of Young's modulus of elasticity for steel wire with searl's apparatus

14th Types of loads (dead load, live load, snow load, wind load seismic load as per IS Codes etc)

15th Concept of bending moment and shear force, sign conventions

6th 16th Bending Moment and shear force diagrams for cantilever, simply supported and overhanging beams

6th Revision

17th Relationship between load, shear force and bending moment, point of maximum bending moment

18th types of loading (point, uniformly distributed and uniformly varying loads)

7th 19th subjected to concentrated, uniformly distributed

7th Determination of modulus of rupture of a concrete beam

20th point of contraflexure 21th Assignment-I

8th 22th Test-I 8th Revision 23th Moment of Inertia:

Concept of moment of inertia and second moment of area and radius of gyration

24th theorems of parallel and perpendicular axis,

9th 25th second moment of area of common geometrical sections: rectangle, triangle, circle (without derivations)

9th Determination of maximum deflection and young's modulus of elasticity in simply supported beam with load at middle third point

26th Second moment of area for L, T and I sections, section modulus.

27th Bending Stresses in Beams: Concept of pure/simple bending

10th 28th Assumptions made in the theory of simple bending

10th Revision

29th derivation and application of bending equation to circular cross-section, I section, T&L sections only

30th Moment of resistance,

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Calculations of bending stresses in simply supported beam

11th 31th Shear Stresses in Beams: Concept of shear stresses in beams

11th Verification of forces in a framed structure

32th shear stress distribution in rectangular, circular I, T, L sections for S.S. beams and Portland

33th Assignment-2 12th 34th Test-2 12th Revision

35th Slope and Deflection: 36th Determination of slope and

deflection using Moment Area Theorem for simply supported beam for pointed load and U.D.L.(no derivation, numerical problems)-1

13th 37th Determination of slope and deflection using Moment Area Theorem for simply supported beam for pointed load and U.D.L.(no derivation, numerical problems)-2

13th Numerical Practice

38th Columns: Theory of columns

39th Problem solving using Rankine Formula

14th 40th Problem solving using Eulers Formula

14th Numerical Practice

41th Analysis of Trusses: Concept of a perfect, redundant and deficient frames

42th Assumptions and analysis of trusses by a) Method of joints

15th 43th Method of sections 15th Numerical Practice 44th Assignment-3 45th Test-3

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LESSON PLAN

Name of faculty : Mr. Anoop Banwala

Discipline : Civil Engineering

Semester : 6th Semester

Subject :C. M. A.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-04, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test) Practical

Day Topic

1st 1st Introduction of construction management, significance of construction mang.

2nd Objective of CMA & overview, function of construction management

3rd Classification of construction into light, heavy & industrial const.

4th stages in construction from conception to completion, the constrution team & thier function

2nd 5th Importance of construction planning,stages of construction planning: pre & post tender

6th introduction of scheduling of construction by bar charts: definition & identification of activites

7th Prepration of bar chart & schedules forlabour,material,machiery,finance & limitation of bar chart

8th Introductin to network tech:CPM,PERT / Diff b/w CPM& PERT terminology

3rd 9th Types of organization: line, staff their function & characterstics

10th Assignment(1) of chapter 1-3 11th Introdction & principle of storing

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& stacking of material at site 12th Location of equipment &

prepration of actual job layout for a building

4th 13th organizing labour at site 14th Introduction about condition of

construction work in India, wages paid to workers

15th Important provision Act: Labour Welfare Fund Act 1936, Payment of Wages Act 1936

16th Minimum Wages Act 1948 5th 17th Class test chapter 1,2

18th Introduction about control of progress

19th Methods of recording progress 20th Introduction about analysis of

progress

6th 21th Taking corrective actions keeping head office informed

22th Cost time optimization of simple jobs

23th Sessional test 1 24th Direct &Indirect cost, Variation

with time

7th 25th Cost optimization 26th Assignment - 2 27th Introduction about Inspection &

quality control

28th Need for inspection & quality control

8th 29th principles of inspection 30th stages of inspection & quality

control: Earth work,Masonry

31th RCC, Sanitary & water supply services

32th Introduction about safety and accidents in construction

9th 33th Accident causes and remedies 34th Safety measures for excavation

work

35th Drilling & Blasting 36th Hot bituminous Works

10th 37th scaffolding work 38th Ladders, Form work 39th Demolitions

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40th Sessional test 2 11th 41th Introduction about safety campaign

and safety devices

42th Introduction about Accounts 43th Public Works accounts 44th Introduction of technical sanction

12th 45th Administrative approval, allotment of funds

46th Assignment 3

47th Class test 48th Introduction about Re

appropriation of funds Bill

13th 49th Contractor ledger, measurement book runnuing & final account bill complete

50th Prepration of bill of quantites(BOQ)

51th Completion certificate & report, hand receipt, aquittance roll

52th Muster roll Labour,casual labour roll duties & responsibilites of different cadres

14th 53th Budgets-stores,return account of stock , misc

54th P.W. Advances T&P 55th Road metal material charged direct

to works, account- expeditre & revenue hea

56th Remittance & deposit head 15th 57th Definition of cash,precaution in

custody of cashbook

58th Imprest account,temporary advance, treasury challan

59th Prepration of finalbills, prepare accunt register, stock register.

60th Sessional test 3

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LESSON PLAN

Name of faculty : Mrs. Kartik sharma

Discipline : Civil Engineering

Semester : 4th Semester

Subject :C.T.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-02

Week Theory Practical Lecture

Day Topic (Including assignment/test) Practical

Day Topic

1st 1st Introduction of concrete, Definition of concrete

1st To determine the physical properties of cement

2nd Different type of concrete in comparison to the other building material.

3rd Classification of aggregates according to its shape & size

2nd 4th characterstics of aggregates its shape,particle size,surface texture

2nd To determine the flakiness & elongation index of aggregate

5th sp.gr, buk dnsity,watrer absorption,bulking sand,sondness

6th Grading of aggregate,fineness modulus,water quality req. IS code

3rd 7th Hydration of cement,principle of w/c ratio

3rd Discussion of pervious two

8th Duff Abram's W/c ratio,limitation of W/c ratio law

9th Effects on st. Of concrete, factor affcing workability

4th 10th Measurement of workability: slump,compacting factor test

4th Determination of sp. Gravity & water absorption of aggregate

11th Vee Bee consistometer,slump placement acc. IS:456-2000

12th Properties of concrete in plastic stage:workability,segregation

5th 13th Bleeding,harshness properties of concrete in harden stage

5th Determination of bulk density & voids of aggregates

14th Sessional test 1 15th Strength,

durability,impermeability,dimension

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changes 6th 16th Objective of mix design,various

gardes,normal mix design as IS cod 6th Discussion of pervious two

17th Bulking of fine,water absorption, workability of aggregates

18th Diff. b/w nominal & controlled concrete,controlled mix as per IS

7th 19th Introduction to admixtures for improving performance of concrete

7th To determine the surface moisture in fine aggregates by dsplacement

20th concreting under sp. Cond. Difficulties & precation before &after

21th cold weather, under water, hot weather concreting

8th 22th RMC,FRC,polymer concrete,fly ash, silica fume concrete

8th To determine workability of slump test

23th Storing of cement in warehouse,site 24th effect of storage on st. Of

cement,warehouse capacity for storage

9th 25th Assignment(1) chapter1-3 9th Discussion of pervious two 26th Storing of aggregate at site,

Batching of cement & aggregates

27th Measuremnt of water, Mixing of concrete by hand mixing

10th 28th Sessional test 2 10th Compaction factor test for workability

29th machine mixing: type & capacity of mixer, size & operation

30th Maintence & care of M/c, Transportation of concrete & type

11th 31th Placement of concrete: checking formwork,shuttering,precaution

11th Non destructive test by: rebound hammer, ultra sonic pulse velocity

32th Compaction: Hand & m/c compaction, types of vibrators

33th selection of suitable vibrator, finishing concrte slab-screeding

12th 34th Objective of curing,methods of curing:ponding,steam,membrane

12th Discussion of pervious two

35th Duration of curing & removal of formwork

36th jointing: location of joints,treatment of construction & expansion

13th 37th joints importance & location 13th Test for Compressive strength of concrete cubes for diff. Grade concrete

38th defects in concrete: identification & methods of repair

39th Importance & methods of NDT.

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14th 40th Revision 14th Discussion of pervious 41th Assignment 42th Revision

15th 43th Sessional test 3 15th Practice 44th Dicussion about Concrete

technology

45th Take overall test

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LESSON PLAN

Name of faculty : Mrs. Annu Rani

Discipline : Civil Engineering

Semester : 6th Semester

Subject :E.S.-II LAB

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load (Lecture / Practical) per week (in hours): Lectures-00, Practicals-02

Week Theory Practical Lecture

Day Topic

(Including assignment/test)

Practical Lectures

Topic

1 1st-2nd Oral Practice: Mock interview

2 3rd-4th Lab Practice of Mock interview 3 5th-6th Preparing for meeting

4 7th-8th Lab Practice of Preparing for meeting 5 9th-10th Group discussion 6 11th-12th Lab Practice of Group discussion 7 13th-14th Seminar presentation 8 15th-16th Lab Practice of Seminar presentation 9 17th-18th Making a presentation-Elements of good

presentation 10 19th-20th Lab Practice of Making a presentation-Elements

of good presentation 11 21th-22th Making a presentation-Structure and tools of

presentation 12 23th-24th Lab Practice of Making a presentation-Structure

and tools of presentation 13 25th-26th Making a presentation-Paper reading 14 27th-28th Lab Practice of Making a presentation-Paper

reading 15 29th-30th Making a presentation-Power point presentation

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LESSON PLAN

Name of faculty : Mrs. Annu Rani

Discipline : Civil Engineering

Semester : 6th Semester

Subject :E.E.

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Study of Importance of Environmental Engineering: Importance of clean environment, control of environmental pollution with respect to air, land and water.

2nd Conservation of natural resources, environmental education and awareness, sustainable development

3rd Environments and Ecology: Definition and understanding of environment and ecology concept

2nd 4th ecosystem and types of ecosystems, energy flow in an ecosystem

5th food chain, ecological pyramids 6th consortium and ecological balance

3rd 7th Water Pollution: Causes of pollution in surface and underground water

8th eutrophication of lakes and its preventing measure

9th BIS standards for water quality 4th 10th Air Pollution:

Definition, principal air pollutants

11th atmospheric parameters influencing air pollution, types of air contaminants and their sources

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12th effects of air pollution on human beings, plants, animals

5th 13th automobile pollution 14th BIS ambient air quality standards 15th measures to combat air pollution

6th 16th Assignment-1 17th Test-1 18th Noise Pollution:

Definition, unit of measurement of noise, sources

7th 19th effects of noise pollution and control of noise pollution

20th Effects of mining, blasting and deforestation: Ill effects of mining, blasting

21th Ill effects of deforestation on the environment human life and wild life.

8th 22th Land Use: Effect of land use on environmental quality

23th land use and natural disasters 24th soil degradation problems

9th 25th erosion, water logging 26th soil pollution, land slides 27th Assignment-2

10th 28th Test-2 29th Environmental Impact

Assessment: Definition and requirements, environmental impact assessment

30th Flour chart of environmental impact assessment methodology-1

11th 31th Flour chart of environmental impact assessment methodology-2

32th Describe the need and importance of EIA-1

33th Describe the need and importance of EIA-2

12th 34th Legislation to Control Environmental Pollution: Indian legislative acts for water, land and air pollution control

35th provisions, scope and

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implementation

36th Global Issues of Environmental Engineering: Global warming, ozone depletion,

13th 37th acid rain, oil pollution; radiation hazards

38th their control, concept of clean technology

39th carbon credits 14th 40th Renewable Source of

Energy: Role of non-conventional sources of energy

41th biogas, solar, wind 42th Conservation of energy resources-

like coal, oil etc

15th 43th alternative fuels, bio-diesel etc. 44th Assignment-3 45th Test-3

Page 38: ggsgpcheeka.ac.inggsgpcheeka.ac.in/downloads/files/n5c3334f3e8d97.pdf · Topic (Including assignment/test) Practical Day . Topic 1. st . 1. st . Elements of Engineering Seismology:

LESSON PLAN

Name of faculty : Mrs. Annu Rani

Discipline : Civil Engineering

Semester : 4th Semester

Subject :S.S.LAB

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load (Lecture / Practical) per week (in hours): Lectures-00, Practicals-02

Week Theory Practical Lecture

Day Topic

(Including assignment/test)

Practical lectures

Topic

1 1st-2nd Concept of team building, behavior in a team 2 3rd-4th Developing Interpersonal Relations- empathy,

sympathy 3 5th-6th Communication skills-improving non-verbal

communication 4 7th-8th Conflict Management 5 9th-10th Motivation 6 11th-12th Leadership 7 13th-14th Professional Ethics and Values 8 15th-16th Health, Hygiene, Cleanliness 9 17th-18th Safety 10 19th-20th Sports 11 21th-22th NCC/NSS 12 23th-24th Camp – Environment 13 25th-26th Cultural Event 14 27th-28th Work in a team 15 29th-30th Develop Communication Skills

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LESSON PLAN

Name of faculty : Mr. Sumeet Bura & Mr. Anoop Banwala

Discipline : Civil Engineering

Semester : 4th Semester

Subject :Surveying-II

Lesson Plan Duration :15 Weeks (from January, 2019 to April, 2019)

Work Load(Lecture / Practical) per week(in hours) :Lectures-02, Practicals-05

Week Theory Practical Lecture

Day Topic (Including assignment/test)

Practical Day

Topic

1st 1st Contouring: Concept of contours, purpose of contouring, contour interval and horizontal equivalent, factors effecting contour interval,

1st Contouring: Preparing a contour plan by radial line method by the use of a Tangent

Clinometer/Tachometer

2nd characteristics of contours, methods of contouring: Direct and indirect, use of stadia measurements in contour survey

2nd

2nd 3rd interpolation of contours; use of contour map, Drawing cross section from a contour map;

3rd Preparing a contour plan by method of squares

4th marking alignment of a road, railway and a canal on a contour map, computation of earth work and reservoir capacity from a contour map

4th

3rd 5th Theodolite Surveying: Working of a transit vernier theodolite, axes of a theodolite and their relation;

5th Preparing a contour plan of a Road/Railway track/Canal by taking cross sections.

6th temporary adjustments of a transit theodolite; concept of transiting, swinging, face

6th

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left, face right and changing face; 4th 7th measurement of horizontal and

vertical angles. Prolonging a line (forward and backward) measurement of bearing of a line;

7th Theodolite: Taking out the Theodilite, mounting on the tripod and placing it back inthe box

8th traversing by included angles and deflection angle method;

8th

5th 9th traversing by stadia measurement, theodolite triangulation, plotting a traverse

9th Study of a transit vernier theodolite; temporary adjustments of theodolite

10th concept of coordinate and solution of omitted measurements (one side affected)

10th

6th 11th errors in theodolite survey and precautions taken to minimize them;

11th Reading the vernier and working out the least count, measurement of horizontal angles by repetition andreiteration methods

12th limits of precision in theodolite traversing. Height of objects – accessible and non-accessible bases

12th

7th 13th Assingnment-1 13th Measurement of vertical angles and use of tachometric tables

14th Test-1 14th 8th 15th Tacho-metric surveying :

Tachometry, Instruments to be used in tachometry, methods of tachometry, stadia system of tachometry,

15th Measurement of magnetic bearing of a line

16th general principles of stadia tachometry, examples of stadia tachometry and Numerical problems.

16th

9th 17th Curves: Simple Circular Curve: Need and definition of a simple circular curve; Elements of simple circular curve - Degree of the curve, radius of the curve, tangent length, point of intersection (Apex point), tangent point, length of curve, long chord deflection angle, Apex distanceand Mid-ordinate.

17th Running a closed traverse with a theodolite (at least five sides) and its plotting

18th Setting out of simple circular curve: a) By linear measurements only: - Offsets from the tangent

18th

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10th 19th Setting out of simple circular curve: a) By linear measurements only: - Successive bisection of arcs

19th Height of objects with and without accessible bases

20th Setting out of simple circular curve: a) By linear measurements only: - Offsets from the chord produced

20th

11th 21th Setting out of simple circular curve: b) By tangential angles using a theodolite

21th Setting out of a simple circular curve with given data by the following methods a) Offsets from the chords produced

22th Transition Curve: Need (centrifugal force and super elevation) and definition of transition curve; requirements of transition curve; length of transition curve for roads; by cubic parabola;

22th

12th 23th calculation of offsets for a transition curve; setting out of a transition curve by tangential offsets only

23th Setting out of a simple circular curve with given data by the following Methods b) One theodolite method

24th Vertical curve: Setting out of a vertical curve

24th

13th 25th Assingnment-2 25th Demonstration and use of minor instruments like Ceylon Ghat Tracer, Tangent Clinometer, Pantagraph, Abney level etc.

26th Test-2 26th 14th 27th Introduction to the use of

Modern Surveying equipment and techniques such as: a) EDM or Distomat b) Planimeter c) Total station d) Introduction to remote sensing,GIS and GPS

27th Use of planimeter for computing areas

28th Minor Instruments:- Introduction and use of minor instruments like Ceylon Ghat Tracer,Clinometer, Pantagraph, Abney Level etc. Use of planimeter for computing areas

28th

15th 29th Assinment-3 29th Demonstration of digital instruments through field visits to Survey of India and other government agencies.

30th Test-3 30th Total Station (only demonstrations).