lesson plan - gpsanghi.ac.inlaw of forces using 2nd fundamental units and derived units....

Lesson Plan

Name of the Faculty : SANDEEP (VTF in CIVIL ENGG.)

Discipline : CIVIL Engg.

Semester : 3rd

Subject : Applied Mechanics

Lesson plan duration : 15 Weeks(July 2018 to Nov 2018)

Week

Theory Practical Lecture Day

Topic (including assignments /tests)

Practical Day

Topic

Week-1

1st Concept of engineering mechanics definition of mechanics, statics, dynamics 1st

Overview of the subject, Importance in industry & Applications of the subject.2nd Application of engineering

mechanics in practical fields3rd Different systems of units (FPS,

CGS, MKS and SI)

2nd

Overview of the subject, Importance in industry & Applications of the subject

4th Their conversion from one to another e.g. density, force, pressure, work, power, velocity,acceleration

Week 2

1st Simple Numerical Problems

1st

Verification of the polygon law of forces using Gravesand’s apparatus.2nd Fundamental Units and Derived Units.

3rd Concept of rigid body, scalar and vector

quantities 2nd

Verification of the polygon law of forces using Gravesand’s apparatus.4th Revision

Week 3

1st Mock Test

1st

To verify the forces in different members of jib crane.

2nd Laws of forces Definition of force, Bow’s Notations, types of force

3rd Point force/concentrated force &Uniformly distributed force, effects of force, characteristics of a force.

2nd

To verify the forces in different members of jib crane.

VF4

CIVIL

4th Different force systems,principle of transmissibility offorces, law of super-position

Week4

1st Composition and resolution of coplanar concurrent forces, resultant force, method of composition of forces 1st

To verify the reaction at the supports of a simply supported beam.

2nd laws of forces, triangle law of forces

3rd polygon law of forces - graphically, analytically, resolution of forces 2nd

To verify the reaction at the supports of a simply supported beam.4th Free body diagram

Equilibrant force and itsdetermination

Week 5

1st Lami's theorem [Simple problems on abovetopics]

1st

To find the mechanicaladvantage, velocity ratioand efficiency in case of aninclined plane.2nd Moment - Concept of moment

Moment of a force and units ofmoment

3rd Varignon's theorem (definitiononly)Principle of moment and itsapplications

2nd

To find the mechanicaladvantage, velocity ratioand efficiency in case of aninclined plane.4th (Levers – simple and compound,

steel yard, safety valve, reaction at support)

Week 6

1st Parallel forces (like and unlike parallel force), calculating their resultant

1st

To find the mechanical advantage, velocity ratio and efficiency of a screw jack.

2nd Concept of couple, itsproperties and effectsGeneral conditions ofequilibrium of bodies undercoplanar forces

3rd Position of resultant force bymoment

2nd To find the mechanical advantage, velocity ratio

[Simple problems on the abovetopics] and efficiency of a screw

jack.4th Revision of Chapter

Week 7

1st Mock Test1st Practice2nd Friction- Definition and

concept of friction, types of friction, force of friction, Limiting Friction

3rd Laws of static friction,coefficient of friction, angle offriction, angle of repose.

2nd Practice4th Equilibrium of a body lying on a

horizontal plane, equilibrium of a body lying on a rough inclinedplane

Week 08

1st Calculation of least forcerequired to maintain equilibriumof a body on a rough inclinedplane subjected to a force:

a) Acting along the inclinedplane

1st

To find the mechanicaladvantage, velocity ratioand efficiency of worm andworm wheel.

2nd b) At some angle with theinclined plane

3rd Ladder frictionAdvantages and Disadvantagesof friction

2nd

To find the mechanicaladvantage, velocity ratioand efficiency of worm andworm wheel.4th Methods of

increasing/decreasing the forceof friction.(Simple problems )

Week 09

1st Assignment1st

To find mechanicaladvantage, velocity ratioand efficiency of singlepurchase crab.

2nd Test

3rd Centre of Gravity - Concept, definition of centroid of plain figures

2nd

To find mechanicaladvantage, velocity ratioand efficiency of singlepurchase crab.

4th centre of gravity of symmetricalsolid bodies, difference betweencentroid and C.G

Week 10

1st Determination of centroid of plain and composite lamina using moment method only

1st

Practice2nd centroid of bodies with removed

portion3rd Determination of center of

gravity of solid bodies - cylinder

2nd Practice

4th Determination of center of gravity of solid bodies - cube, cuboid

Week 11

1st Determination of center of gravity of solid bodies- sphere

1st

To find out center of gravityof regular lamina.

2nd Determination of center ofgravity of solid bodies-composite bodies and bodieswith portion removed

3rd Simple problems on the above topics

2nd To find out center of gravityof regular lamina.

4th Simple problems on the above topics

Week12

1st Assignment on Chapter Centre of Gravity

1st

To find out center of gravityof irregular lamina.

2nd Mock Test

3rd Simple Machines- Definitionof Simple and compoundmachine (Examples) 2nd

To find out center of gravityof irregular lamina.

4th Definition of load, effort,velocity ratio, mechanical

advantage and efficiency of amachine

Week 13

1st load, effort, velocity ratio,mechanical advantage theirrelationship, law of machinesand efficiency of a machine 1st Practice

2nd Definition of ideal machine,reversible and self lockingmachine

3rd Effort lost in friction, Load lostin friction

2nd

Practice4th Determination of maximum

mechanical advantage andmaximum efficiency

Week 14

1st System of pulleys (first, second)1st

To determine coefficient offriction between three pairsof given surface.

2nd Third system of pulleys

3rd Determination of velocity ratio,mechanical advantage andefficiency

2nd

To determine coefficient offriction between three pairsof given surface.

4th Working principle and application of wheel and axle, Weston’s Differential Pulley Block

Week 15

1st simple screw jack, worm and worm wheel 1st Practice

2nd single and double winch crab.3rd Expression for their velocity

ratio and field of theirapplication[Simple problems on the abovetopics]

2nd Practice

4th Mock Test

Lecture Day

Topic

(including assignment /

test)

Practical

DayTopic

1st Introduction 1st

2nd Classification of bdg

3rd Parts Of Bdg

4th Foundation 3rd

5th Shallow Foundation

6th Spread Foundation

7th Deep Foundation 5th

8th Earthwork

9th Walls & its Purposes

10th Load bearing walls 7th

11th Material Classification

12th Partition wall

13th Scaffolding 9th

14th Brick Masonary

15th English Bond

16th Flemish Bond 11th

17th Test

18th Wall Constn

19th Mortar & its preperation 13th

20th Rubble Stone masonary 14th

21st Ashlar Stone masonary 15th

22nd Arch & Lintels

23rd Type Of Arches

24th Parabolic Arches

25th Stone Arches 17th

26th Brick Arches

27th Door & Windows


29th Windows

30th Door Frames

31st Damp Proofing

32nd Sources of Dampness

33rd Ill Effect Of Dampness

34th Damp Proofing Material 21th

35th Basement Damp Proof

36th Floors

37th Concrete Floor

38th Wooden Floor

39th Level / Slope

40th Roof

41st Pitched roof

42nd Arched Roof

16th

18th

20th

22th

24th

To construct brick bonds (English bond only) in

one, one and half and two brick thick: Walls for L,

T and cross junction

To construct brick bonds (English bond only) in

one, one and half and two brick thick: Columns

Laying of tile flooring on an already prepared lime

concrete base

Demonstration of following items of work : -

Timbering of excavated trenching

13th23th

14th

Construction of masonry walls

Laying of tile flooring on an already prepared lime

concrete base

11th

12th

Laying damp proof courses

9th

10th19th

6th12th

7th

8th

4th8th

5th10th

2nd4th

3rd6th

Demonstration of tools and plants used in

building construction

To prepare Layout of a building: two rooms

building with front verandah

Name of Faculty : Mr Prateek Malik (T&P)

Discipline : Civil Engineering Department

Semester : 3rd

Subject : Building Construction ENGINEERING

Lesson Plan Duration : 15 Weeks (July 2018 - Nov 2018)

Week

Theory Practical

1st2nd

**Work load (lecture/practical) per week (in hours): Lectures-04 , Practicals-02

43rd Rain Water Drainage 25th

44th False Ceiling

45th Stairs

46th Assignment

47th Clasification of Stairs


49th Layout Of Staircase

50th Geometrical Stairs

51st Surface Finishes

52nd Plastering

53rd Pointing

54th Paiting

55th Exterior Surfaces

56th Grooving And Hacking

57th Test

58th Anti Termite Tmt

59th Tmt of Wooden Area

60th Tmt in Existing Building

Interlocking tiles

26th

28th

29th

30th

Plastering and pointing exercise

Constructing RCC work

Pre-construction and post construction termite

treatment of building and woodwork

19th

20th

16th27th

17th

18th

15th

Govt. Polytechnic Education Society Meham (Rohtak) Civil Engineering Department

Lesson Plan Name of the Faculty Mr. ASHOK KUMAR (VTF In Civil Engg.)

Discipline Civil Engineering

Semester 3rd

Subject Building Drawing

Lesson Plan Duration From July 2018 to Nov 2018

Work Load (Theory/Practical) per week Practical - 06

week Day Practical

1

1st Details of spread footing foundations load bearing and non-load bearing wall for Given thickness of walls with the help of given data or rule of the thumb showing Offsets ,position of DPC. The details of the concrete and brick apron have to be shown in the drawing

2nd Details of spread footing foundations load bearing and non-load bearing wall for Given thickness of walls with the help of given data or rule of the thumb showing Offsets ,position of DPC. The details of the concrete and brick apron have to be shown in the drawing

2 1st Plans of‘ T ’and Corner junction of walls of 1Brick,1-1/2 Brick and 2 brick thick in English bond

2nd Drawing plan, elevation of arches : circular arch, segmental arch

3

1st Elevation, sectional plan and sectional side elevation of flush door, glazed door, Panelled door with wire gauge shutter.

2nd Elevation, sectional plan and sectional side elevation of flush door, glazed door, Panelled door with wire gauge shutter.

4 1st Elevation, sectional plan and sectional side elevation of flush door, glazed door, Panelled door with wire gauge shutter.

2nd Drawing plan, elevation of a small building by measurement and foundation detail And sectional elevation.

5 1st Drawing plan, elevation of a small building by measurement and foundation detail And sectional elevation.

2nd Drawing detailed plan ,elevation and section of a two room residential building From a given line plan, showing details of foundations ,roof and parapet

6 1st Drawing detailed plan ,elevation and section of a two room residential building From a given line plan, showing details of foundations ,roof and parapet

2nd Drawing detailed plan ,elevation and section of a two room residential building From a given line plan, showing details of foundations ,roof and parapet

7 1st Drawing detailed plan ,elevation and section of a two room residential building From a given line plan, showing details of foundations ,roof and parapet

2nd Drawings of following floors Cement concrete floors on ground and at first floor

8 1st Wooden flooring

2nd Bonded cement concrete flooring

VF3

9 1st Ceramic / vitrified tile flooring

2nd Drawing of flat roof, showing the heat/ thermal insulation provisions.

10 1st Drawing detail s of damp proofing

2nd Show the rain water drainage arrangement also

11 1st arrangement of roof sand walls as per BIS Code

2nd Drawing Damp Proofing details in basement of buildings

12 1st Drawing Damp Proofing details in basement of buildings.

2nd Drawing Damp proofing details in water

13 1st soil retaining structures 2nd Drawing Damp Proofing details in basement of buildings.( sheet -2) after

completion

14 1st soil retaining structures.( sheet -2) after completion

2nd Drawing Damp Proofing details in basement of buildings.( sheet -2) after completion

15 1st Drawing Damp Proofing details in basement of buildings.( lecture)

2nd Drawing Damp Proofing details in basement of buildings.( lecture)

Lecture

day

Topic

(Including assignment/ Test)

Practical

Day Topic

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* * 2

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* * 4

* * 5

* * 6

* * 7

* * 8

* * 9

* * 10

* * 11

* * 12

* * 13

* * 14

* * 15

* * 16

* * 17

* * 18

* * 19

* * 20

* * 21

* * 22

* * 23

* * 24

* * 25

* * 26

* * 27

* * 28

* * 29

* * 30

* * 31

* * 32

* * 33

* * 34

* * 35

* * 36

* * 37

* * 38

* * 39

* * 40

* * 41

* * 42

* * 43

* * 44

* * 45

* * 46

* * 47

* * 48

1

2

3

Name of Faculty : Mr. Prateek Malik


Semester : 5th

Subject : COMPUTER APPLCATION IN CIVIL ENGINEERING

Lesson Plan Duration : 15 Weeks (July 2018 - Nov 2018)


Week

Theory Practical

4

5

6

7

8

INTRODUCTION

AUTO CAD

2D DRAWINGS

ELEVATION OF 2 ROOM

BUILDING

DEMONSTRATION OF STAAD-

PRO

DEMONSTRATION OF MS

PROJECT

DEMONSTRATION OF AUTO-

CIVIL

DEMONSTRATION OF MX ROAD

* * 49

* * 50

* * 51

* * 52

* * 53

* * 54

* * 55

* * 56

* * 57

* * 58

* * 59

* * 60

* * 61

* * 62

* * 63

* * 64

* * 65

* * 66

* * 67

* * 68

* * 69

* * 70

* * 71

* * 72

* * 73

* * 74

* * 75

* * 76

* * 77

* * 78

* * 79

* * 80

* * 81

* * 82

* * 83

* * 84

* * 85

* * 86

* * 87

* * 88

* * 89

* * 90

DESIGN OF DOUBLE STOREY

BUILDING USING 2D CAD

9

10

11

12

13

DESIGN OF 2 ROOM USING 2D

CAD

14

15

DEMONSTRATION OF

PRIMAVERA PROJECT PLANNER

AUTOCAD 2D

AUTOCAD 3D

STAAD PRO

DESIGN OF SINGLE STOREY

BUILDING USING 2D CAD

AJAYVF3

GOVERNMENT POLYTECHNIC MEHAM

Name of Faculty: SANDEEP (VTF in CIVIL ENGG.)Discipline: CIVIL ENGG.Semester: 5th

Subject: Environmental Education.Lesson Plan Duration: 15weeks (July 2018-Nov. 2018)Work load (Theory/Practical) per week (in hours): Theory-03

Week

Theory

1st

Week

1st

DayDefinition, Scope

2nd

DayImportance of Environmental Education

3rd

DayBasics of ecology

2nd

Week

1st

Daybiodiversity

2nd

Dayeco system

3rd

Daysustainable development

3rd

Week

1st

DaySources of pollution - natural and manmade

2nd

Daycauses

3rd

Dayeffects

4th

Week

1st

Daycontrol measures ofpollution

2nd

DayAir

3rd

DayWater

5th

Week

1st

DayRadioactiv

2nd

DayNoise

3rd

DaySoil and Nuclear

VIKASH SANGWAN

6th

Week

1st

DayAnd their units ofmeasurement

2nd

DaySolid waste management

3rd

DayCauses

7th

Week

1st

Dayeffects and control measures of urban andindustrial waste

2nd

DayDoubt of Unit 1st will be taken.

3rd

DayTest of Unit 1st.

8th

Week

1st

DayMining and deforestation

2nd

DayCauses

3rd

Dayeffects and control measures

9th

Week

1st

DayDoubt of 2nd will be taken.

2nd

DayTest of Unit 2nd

3rd

DayEnvironmental Legislation

10th

Week

1st

DayWater (prevention and control of pollution) Act 1974,

2nd

DayAir (Prevention and Control of Pollution) Act 1981

3rd

DayEnvironmental ProtectionAct 1986

11th

Week

1st

DayRole and Function of State Pollution Control Board

2nd

DayEnvironmentalImpact Assessment (EIA)

3rd

DayDoubt of Unit 3rd will be taken.

12th

Week

1st

DayTest of Unit 3rd

2nd

DayRole of Non-conventional Energy Resources

3rd

DaySolar

13th

Week

1st

DayWind

2nd Bio

Day

3rd

DayHydro

14th

Week

1st

DayCurrent Issues in Environmental Pollution

2nd

DayGlobal Warming, Green House Effect

3rd

DayDepletion of Ozone Layer

15th

Week

1st

DayRecycling of Material, Environmental Ethics, RainWater Harvesting, Maintenance of Groundwater, Acid Rain, Carbon Credits.

2nd

DayDoubt of Unit 4th will be taken.

3rd

DayTest of Unit 4th.

Govt. Polytechnic Education Society Meham(Rohtak)

Civil Engineering DepartmentLesson Plan

Name of the Faculty Mr. ASHOK KUMAR (VTF in Civil Engg.)


Semester 3rd

Subject Fluid Mechanics


Work Load (Theory/Practical) per week

Theory – 03 / Practical - 02

week

Day Theory Day

Practical

1

1st

day1Introduction:1.1Fluids: Real and ideal fluids

1st

dayTo verify Bernoulli’s Theorem

2nd

day1.2FluidMechanics,Hydrostatics, Hydrodynamics, Hydraulics

3rd

day2.Properties ofFluids (definition only)2.1Mass density, specific weight, specific gravity, viscosity,

2

1st

daysurface tension cohesion, adhesion and capillarity, vapour pressure and compressibility

1st

dayTo find out

venturimetercoefficient

2nd

day2.2Units of measurement and their conversion

3rd

day3.Hydrostatic Pressure 3.1Pressure, intensity of pressure, pressure head,

3

1st

dayPascal's law and its applications 1st

dayTo determine coefficient

of velocity (Cv)2nd

day3.2Total pressure, resultant pressure, and centre of pressure

3rd

day3.3Total pressure and centre of pressure on horizontal,

4

1stday vertical and inclinedplane surfaces of rectangular, triangular, trapezoidal shapes and

1st

dayTo determine

coefficient of velocity (Cv)

AJAY

circular. (No derivation)2ndday Doubt will be taken3rdday 4.Measurement of Pressure:

4.1Atmospheric pressure, gauge pressure, vacuum pressure and absolute pressure.

5

1st

day4.2 Piezometer, simple manometer and differential manometer, Bourden gauge and dead weight pressure gauge

1st

dayCoefficient of contraction (Cc) of an orifice verify the between them relation

2nd

day5.Fundamentals of Fluid Flow:5.1Types of Flow: Steady and unsteady flow, laminar and turbulent flow,uniform and non uniform flow

3rd

day5.2Discharge and continuity equation (flow equation){No derivation}

6

1st

day5.3Types of hydraulic energy: Potential energy, kinetic energy, pressure energy

1st

dayTo perform Reynold's experiement

2nd

day5.4Bernoulli's theorem; statement and description (without proof of theorem)and simple numerical problems

3rd

dayUnit test will be conduct

7

1st

day6.Flow Measurements(brief description with simple numerical problems)6.1Venturimeter

1st

day To verify loss of head in pipe flow due toa)Sudden enlargement2nd

day6.2Mouthpiece and Pitot tube

3rd

day6.3Orifice and Orificemeter

8

1st

day6.4 Current meters 1st

daySudden contraction

2nd

day6.5Notches and weirs (simple numerical problems)

3rd

dayRevision of unit 6

1st

day7.Flow through Pipes: 1st Sudden bend

9 7.1Definition of pipe flow; Reynolds number

day

2nd

daylaminar and turbulent flow-explained through Reynolds’s experiment

3rd

day7.2Critical velocity and velocity distributions in a pipe for laminarFlow

10

1st

day7.3Head loss in pipe lines due to friction, sudden expansion and sudden contraction,

1st

dayDemonstration of use of current meter

2nd

dayentrance, exit, obstruction and change of direction (Noderivation of formula)

3rd

day7.4Hydraulic gradient line and total energy line

11

1st

day7.5Flow from one reservoir to another through a long pipe of uniform crosssection (simple problems)

1st

dayDemonstration of use of pitot tube

2nd

day7.6Pipes in series and parallel

3rd

day7.7Water hammer phenomenon and its effects (only definition anddescription)

12

1st

day8.Flow through open channels:8.1Definition of an open channel, uniform flow and non uniform flow

1st

dayTo determine coefficient of discharge of a rectangular notch

2nd

day8.2Discharge through channels using(i) Chezy's formula (no derivation)

3rd

dayDoubt will be taken

13

1st

dayii)Manning's formula (no derivation)iii)Simple Numerical Problems

1st

dayTo determine coefficient of discharge of a triangular notch

2nd

day8.3Most economical channel sections(no derivation)(i)Rectangular

3rd

dayii)Trapezoidal(iii)Simple Numerical Problem

14

1st

day8.4Headloss in open channel due to friction

1st

dayTo verify Bernoulli’s Theorem (revision)

2nd


3rd

day9.Hydraulic Pumps:

15

1st

dayHydraulic pump, reciprocatingpump

1st

dayVisit to Hydraulic researchstation is must to explain the various concepts

2nd

day

Centrifugal pumps(No numerical and derivations) (may be demonstrated with the help of working models)

3rd

dayStudy of previous year questions paper

Lecture

Day

Topic

(including assignment / test)

Practical

DayTopic

1st INTRODUCTION

2nd IRC CLASSIFICATION

3rd ROAD GEOMETRICS

4th AVG SPEED , SIGHT DISTANCE

5th CURVES

6th SUPERELEVATION

7th CROSS SECTION OF ROAD

8th CUTTING & FILLING

9th CURVE ALIGNMENT

10th HIGHWAY SURVEY

11th TOPOGRAPHIC MAP

12th ALIGNMENT OF ROAD IN PLAIN AREA

13th ALIGNMENT OF ROAD IN HILLY AREA

14th MARKING OF ALIGNMENT

15th DATA ANALYSIS OF TOPOGRAPHIC MAP

16th ROAD MATERIAL & ITS TYPES

17th SOIL & AGGREGATES

18th BINDER MATERIAL

19th BITUMEN

20th PROPERTIES AS PER BIS

21st TEST / ASSIGNMENT

22nd PENETRATION TEST

23rd VISCOSITY TEST

24th BITUMEN MODIFIERS

25th FLEXIBLE PAVEMENTS

26th RIGID PAVEMENTS

27th TYPICAL CROSS SECTION OF ROADS

28th CBR METHOD

29th AGGREGATE AND ITS PROPERTIES

30th ALIGNMENT OF ROAD

31st BENCH MARK & GRADIENTS

32nd STABILIZATION

33rd GRANULAR BASE COARSE

34th BITUMEN COARSE

35th METHOD OF CONSTRUCTION

36th TYPE OF SURFACING

37th SURFACE COATING

38th JOINTS IN RIGID PAVEMENTS

39th COMPACTING & FINISHING

40th TEST / ASSIGNMENT

41st TYPICAL CROSS SECTION OF HILL ROADS

42nd LANDSLIDE

43rd DRAINAGE & EROSION

44th SNOW & LAND SUBSIDENCE

45th DRAINAGE OF ROAD


15th

8th 8th

Name of Faculty : Mr Prateek Malik (T&P)


Semester : 5th

Subject : HIGHWAY ENGINEERING

Lesson Plan Duration : 15 Weeks

Week

Theory Practical

1st

2nd

3rd

4th

5th

6th

7th

6th

7th

1st

13th

14th

9th

10th

12th

9th

10th

11th 11th

12th

2nd

3rd

4th

5th

15th

14th

13th

Determination of penetration value of

bitumen

Determination of softening point of

bitumen

Determination of ductility of bitumen

Determination of impact value of the road

aggregate

Determination of abrasion value (Los

Angeles’) of road aggregate

46th CROSS DRAINAGE WORKS

47th STORM DRAINS

48th EMBANKMENT

49th TYPICAL CROSS SECTION

50th MAINTANANCE OF ROAD

51st FAILURE OF FLEXIBLE PAVEMENT

52nd CAUSES & REMEDIES

53rd SEAL COAT & PATCH WORK

54th MAINTANANCE OF CONCRETE ROAD

55th MAINTANANCE OF TRAFFIC CONTROL DEVICE

56th CONSTRUCTION EQUIPMENT

57th TRACTOR & TRUCKS

58th ASPHALT MIXERS

59th ROAD PAVERS BOILERS

60th TEST / ASSIGNMENT

61st AIRPORT ENGINEERING

62nd AVIATION SCENARIO

63rd SITE SELECTION

64th ZONING LAWS

65th RUNWAY

66th TAXIWAYS

67th APRON

68th SUBGRAD EPREPERATION OF ROADS

69th BERMS

70th ROAD SHOULDERS

71st IRC CLASSIFICATION

72nd CRRI

73rd MORTH

74th NHAI

75th DIFF B/W RIGID & FLEXIBLE PAVEMENT

24th

25th

18th

21st

22nd

23rd

16th

17th

16th

17th

18th

19th

20th

19th

20th

21st

22nd

23rd

29th

30th

24th

25th

26th

27th

28th

Mixing and spraying equipment

A compulsory visit to Ready Mix Concrete

plant

Determination of the California bearing

ratio (CBR) for the sub-grade soil

Visit to Hot mix plant

Visit to highway construction site for

demonstration of operation of:

Tipper, tractors (wheel and crawler),

scraper, bulldozer, dumpers, shovels,

grader,

roller, dragline, road pavers, JCB etc.

Govt. Polytechnic Education Society Meham(Rohtak)

Civil Engineering DepartmentLesson Plan

Name of the Faculty Mr. ASHOK KUMAR (VTF In Civil Engg.)


Semester 5th

Subject Soil and Foundation Engineering


Work Load (Theory/Practical) per week

Theory – 04 / Practical - 02

week

Day Theory Day

Practical

1

1st

day1.Introduction:1.1 Importance of soil studies in Civil Engineering

1st

dayTo determine the moisture content of A given sample of soil

2nd

day1.2 Geological origin of soils with special reference to soil profiles in India

3rd

dayresidual and transported soil, alluvial deposits, lakedeposits, local soil found in J&K, dunes and loess,

4th

dayglacial deposits, black cotton soils,condition in which above deposits are formed and their engineering characteristics

2

1st

day1.3 Names of organizations dealing with soil engineering work in India, soil map of India

1st

day2.Auger Boring and StandardPenetration Testa)Identifying the equipment and accessoriesb)Conducting boring and SPTat a given location

2nd

dayPhysical Properties of Soils:2.1Constituents of soil and representation by a phase diagram

AJAY

3rd

day2.2Definitions of void ratio, porosity, water content,

4th

daydegree of saturation,specific gravity, unit weight, bulk density/bulk unit weight,

3

1st

daydry unit weight,saturated unit weight and submerged unit weight of soil grains and correlation between them

1st

dayc)Collecting soil samples andtheir identificationd)Preparation of boring log and SPT graphse)Interpretation of test results

2nd

day2.3Simple numerical problems with the help of phase diagrams

3rd

day3.Classification and Identification of Soils3.1.Particle size, shape and theireffect on engineering properties of soil,particle size classification of soils

4th

day3.2Gradation and its influence on engineering properties

4

1stday 3.3Relative density and its use in describing cohesionless soils

1st

dayExtraction of Disturbed andUndistrubed Samplesa)Extracting a block sampleb)Extracting a tube sample

2ndday 3.4Behaviour of cohesive soils with change in water content, Atterberg’s limit definitions, useand practical significance

3rdday 3.5Field identification tests for soils

4th

day3.6Soil classification system as

per BIS 1498; basis, symbols,major division sand sub divisions, groups, plasticity chart; procedure for classification of a given soil

5

1st

day4.Flow of Water Through Soils:4.1Concept of permeability and its importance

1st

dayc)Extracting a disturbed samples for meChemical analysis.d)Field identification of samples

2nd

day4.2Darcy's law, coefficient of permeability, seepage velocity and factors affecting permeability

3rd

day4.3Comparison of permeability of different soils as per BIS

4th

day4.4Measurement of permeability in the laboratory

6

1st

day.5Effective Stress: (Conceptonly)5.1Stresses in subsoil

1st

dayField) Density Measurement (Sand Replacement and Core Cutter MethodCalibration of sandb)Conducting field density test at a given location

2nd

day5.2Definition and meaning of total stress, effective stress and neutral stress

3rd

day5.3Principle effective stress of

4th

day5.4Importance of effective stress in engineering problems6 Deformation of Soils6.1Meaning, conditions/situations of occurrence with emphasis on practical significance of

1st

daysignificance of(a) 1st Determination of water

7

Consolidation and settlementb)Creepc)Plastic flow

day contentd)Computation and interpretation of results

2nd

dayd)Heavinge)Lateral movementf)Freeze and thaw of soil

3rd

day6.2Definition and practical significance of compression index, coefficient ofconsolidation, degree of consolidation

4th

day6.3Meaning of total settlement, uniform settlement and differential settlement;rate of settlement and their effects

8

1st

day6.4Settlement due to construction operations and lowering of water table

1st

dayLiquid Limit and Plastic Limit Determination:a)Identifying various grooving toolsb)Preparation of samplec)Conducting the testd)Observing soil behaviour during testse)Computation, plotting and interpretation of results

2nd

day6.5Tolerable settlement for different structures as per BIS

3rd

day7.Shear Strength Characteristics of Soil7.1.Concept and Significance ofshear strength

4th

day7.2Factors contributing to shear strength of cohesive and cohesion less soils,Coulomb's law

7.3Examples of shear failure in soils

9

1st

day8.Compaction:8.1Definition and necessity of compaction

1st

day6.Mechanical Analysisa)Preparation of sampleb)Conducting sieve analysisc)Computation of results

2nd

day8.2Laboratory compaction test (standard and modified proctor test as perBISdefinition and importance of optimum water content,

3rd

daymaximum drydensity; moisture dry density relationship for typical soils with differentcompactive efforts

4th

day8.3.Compaction control; Density control, measurement of field density by corecutter method and sand replacement method, moisture control,

10

1st

dayProctor'sneedle and its use, thickness control, jobs of an embankment supervisor inrelation to compaction

1st

dayd)Plotting the grain size distribution curvee)Interpretation of the curve

2nd

day9.Soil Exploration:9.1Purpose and necessity of soilexploration

3rd 9.2Reconnaissance, methods of

day soil exploration, Trial pits, borings (auger,wash, rotary, percussion to be briefly dealt

4th

day9.3Sampling; undisturbed, disturbed andrepresentative samples; selection oftype of sample; thin wall and piston samples; area ratio, recovery ratio

11

1st

daysamples and their significance, number and quantity of samples, resetting,sealing and preservation of samples.9.4Presentation of soilinvestigation results

1st

dayLaboratory Compaction Tests (Standard ProctorTest)a)Preparation of sampleb)Conducting the test

2nd


3rd

day10.1Definition and significance of ultimate bearing capacity, netsafe bearingcapacity and allowable bearing pressure

4th

day10.2 Guidelines of BIS (IS 6403) for estimation of bearing capacity of soil

12

1st

dayDoubt will be taken 1st

dayObserving soil behavior during testd)Computation of results and plotting

2nd

day10.3 Concept of vertical stress distribution in soils due to foundation loads, pressure bulb

e)Determination of optimum moisturecontentand maximum dry density

3rd

day10.4Applications of SPT, unconfined compression test and direct shear test inestimation of bearing capacity

4th

day10.5Plate load test (no procedure details) and its limitations

13

1st

day10.6 Factors affecting bearing capacity

1st

day8.Demonstration of Unconfined Compression Testa)Specimen preparationb)Conducting the test

2nd

day10.7 Bearing Capacity of soilConcept of bearing capacity

3rd

day10.8Improvement of bearing capacity by sand drain method

4th

daycompaction, use of geo synthetics

14

1st

day, use of geo synthetics 1st

dayc)Plotting the graphd)Interpretation of results andfinding/bearing capacity

2nd

dayRevision of questions paper

3rd

day11.Foundation Engineering:Concept of shallow and deep foundation;

4th

daytypes of shallow foundations:isolated combined, strip mat,and their suitability. Factors affecting the depth of shallowfoundationsUnit test will be conduct

15

1st

dayUnit test will be conduct 1st

dayDemonstration of:a)Direct Shear andVane Shear Test on sandysoil samples

2nd

daydeep foundations, type of piles and their suitability

3rd

daypile classification on the basis of material, pile group and pile

cap b)Permeability test apparatus4th

daySolve out the previous year questions paper


Name of faculty :- Sh. SandeepDiscipline :- Civil Engg.Semester :3rdSubject :- SOFT SKILL-Ilesson plan duration :-15 weeks

Practicalweek

1st 1st day Soft Skills - Concept

2nd Soft Skills - Conceptday

2nd 1st day Soft Skills - importance

2nd Soft Skills - importanceday

3rd 1st day Communication Skills- Improving verbal communication

2nd Communication Skills- Improving verbal communicationday

4th 1st day Communication Skills practice

2nd Communication Skills practiceday

5th 1st dayReport Writing

2nd Report Writingday

6th 1st dayMethod to enhance memory and concentration

2nd Method to enhance memory and concentrationday

7th 1st day Component of overall concept of overall personality

2nd

day Component of overall concept of overall personality

8th 1st day Cultural activity

2nd Cultural activityday

9th 1st day Sports

2nd Sportsday

10th 1st day Dressing sense

2nd

day Dressing sense

11th 1st day Etiquettes

2nd Etiquettesday

12th 1st day body language

2nd body languageday

13th 1st day Set goal for overall personality

2nd Set goal for overall personalityday

14th 1st day Understand the concept of quality and its implementation.

2nd Understand the concept of quality and its implementation.day

15th 1st day Mock interview

2nd Mock interviewday

Name of the Faculty :

Discipline CIVIL ENGINEERING

Semester 5th

Subject Soft Skills

Lesson Plan Duration : From July 2018 to Nov2018

Work Load (Theory/Practical) per week: Practicals-05

Week Practical

Practical

DayTopic

1 Unit1:Career Planning-Introduction

2 Benefits of Career Planning

3 Guidelines for choosing a career

4 Myths about choosing a career

5 Tips for successful Career Planning

1 Developing career goals

2 Final Thoghts on Career Planning

3 Things one should know while starting career and during his career

4 Revision and Assignment

5 Oral Test

1 Unit 2:Body Language-Introduction

2 Body Talk

3 Voluntary and Involuntary Body Language

4 Origin of Body Language

5 Uses of Language

1 Body Language in building Interpersonal relations

2 Body Language in building Industrial relations

3 Reasons to study Body Language

4 Improving your Body Language

5 Types of Body Language

1 Gender Differences

2 Female interest

3 Shaking hands with women

4 Interpreting Body Language

5 Developing confidence with correct Body Language


2 Oral Test

3 Unit 3:Time Management-Introduction

4 Take a good look at the people around you

5 Examine your work

1 Sense of Time Management

2 Time is Money

3 Features of Time

4 Three secrets of Time Management

5 Time Management Matrix

1 Effective scheduling

2 Grouping of Activities

3 Five steps to successful Time Management

4 Difficulties in Time Management

5 Evils of not planning

1 Time Management is a Myth

2 Overcoming Procastination

3 Ways to find free time

4 Time Management tips for students

5 Interesting facts about Time

1 Ideal way of spending a Day

2 Time Wasters

3 Time Savers

4 Realizing the value of Time

5 Time Circle Planner

2nd

1st

9th

8th

7th

6th

5th

4th

CIVIL ENGINEERING DEAPRTMENT

LESSON PLAN

10th

3rd


2 Oral Test

3 Unit 5: Stress management-Introduction

4 Meaning of stress

5 At one level stress may be a positive aid to performance

1 At one level stress may be a negative aid to performance

2 Effects of stress

3 Kinds of stress

4 Source of stress

5 Few other common sources of stress

1 Case Studies

2 Behaviour identified with stress

3 Assessing the existence of stress

4 What are the signs of stress?

5 Spotting stress in you

1 Stree Management Tips

2 Teenage stress

3 Make the morning memorable


5 Oral Test

1 Lecture on Harrasement of Women at WorkPlace

2 Lecture on Indecent Portrayal of women

3 Lecture on Harrasement of Male by Misuse of Acts

4 Revision

5 Revision

15th

14th

13th

12th

11th


Name of Faculty: SANDEEP (VTF in CIVIL ENGG.)Discipline: CIVIL ENGG.Semester: 5th

Subject: Steel Structure Design.Lesson Plan Duration: 15weeks (July 2018-Nov. 2018)Work load (Theory/Practical) per week (in hours): Theory-05

Week

Theory

1st

Week

1st

DayStructural Steel and Sections

2nd

DayProperties of structural steel as per IS Code

3rd

DayDesignation of structural steel sections as per IS handbook andIS:800 - 2007

4th

DayRiveted Connections

5th

DayTypes of rivets, permissible stresses in rivets, types of riveted joints, specificationsfor riveted joints as per IS 800

2nd

Week

1st

DayFailure of a riveted joint. Assumptions in thetheory of riveted joints. Strength and efficiency of a riveted joint

2nd

DayDesign ofriveted joints for axially loaded members ( No Staggered riveting).

3rd

DayBolted and Welded connections

4th

DayTypes of bolts and bolted joints, specifications for bolted joints as per IS:800 - 2007

5th

DayTypes of welds and welded joints, advantages and disadvantages of weldedjoints and bolted joints design of fillet and butt weld

3rd

Week

1st

DayPlug and slot welds(Descriptive No numerical on plug and slot welds)

2nd

DayDoubt of Unit 1st will be taken.

3rd

DayDoubt of Unit 2nd will be taken.

4th

DayTension Members

VF3

5th

DayAnalysis and design of single

4th

Week

1st

Daydouble angle section

2nd

Daytension members and theirrivetted and welded connections

3rd

Daytension members and theirrivetted and welded connections with gusset plate.

4th

DayCompression Members

5th

DayDoubt of Unit 3rd will be taken.

5th

Week

1st

DayAnalysis and design of single angle section (Compression Member)

2nd

DayAnalysis and design of double angle section (Compression Member)

3rd

DayAnalysis and design of single and double angle sections compression members(struts) and their welded connections with gusset plate as per IS:800

4th


5th

DayTest of Unit 1st.

6th

Week

1st

DayTest of Unit 2nd.

2nd

DayRoof Trusses

3rd

DayForm of trusses, pitch of roof truss

4th

Dayspacing of trusses, spacing of purlins

5th

Dayconnection between purlin and roof covering

7th

Week

1st

DayConnection between purlin andprincipal rafter (no design, only concept)

2nd

DayDoubt of unit 5th will be taken.

3rd

DayTest of unit 3rd.

4th

DayTest of unit 4th.

5th

DayColumns

8th

Week

1st

DayConcept of buckling of columns

2nd effective length and slenderness ratio

Day

3rd

Daypermissible stresses in compression as per IS:800 for different endconditions

4th

DayAnalysis and Design of axially loaded single section steelcolumn

5th


9th

Week

1st


2nd


3rd

DayTypes of column bases (Descriptive only)

4th

DayBeam and column, frame and seated connections (descriptive only, nodesign)

5th

DayBeams

10th

Week

1st

DayAnalysis and design of single section

2nd

Daysimply supported laterally restrained steelbeams

3rd

DayIntroduction to plate girder and functions of various elements of a plategirder

4th


5th


11th

Week

1st

DayFabrication and Erection of Steel Structures like trusses

2nd

Daycolumns and girders

3rd


4th


5th


12th

Week

1st


2nd

DayMasonry structures

3rd

DayDesign of brick column

4th

DayDesign of wall Foundation

5th

DayDoubt of unit 10th will be taken.

13th

Week

1st


2nd

DayRevised 1st Unit.

3rd

DayRevised 2nd Unit.

4th

DayRevised 3rd Unit.

5th

DayRevised 4th Unit.

14th

Week

1st


2nd


3rd


4th


5th


15th

Week

1st


2nd

DayPrevious question papers will be discussed

3rd


4th


5th



Name of Faculty: MOHD SHAD Discipline: CIVIL ENGG. Semester: 5th

Subject: Structural Drawing Lesson Plan Duration: 15weeks (July 2018-Nov. 2018) Work load (Theory/Practical) per week (in hours): Practical-06

Week Practical

1st Week

1st Day Drawing No. 1: RC Slabs - One way slab, Two way slab and Cantilever Slab.

2nd Day Drawing No.2 : Beams - Singly and doubly reinforced rectangular beams and Cantilever beam (All beams with vertical stirrups)

2nd Week

1st Day Drawing No.3 : Columns and Footings – Square, Rectangular and Circular Columns with lateral ties and their isolated sloped column footings.

2nd Day Drawing No. 4 : Portal Frame – Three bay two storey RC portal frame with blow up of column beam junctions

3rd Week

1st Day Revised Drawing No. 1

2nd Day Revised Drawing No. 2

4th Week

1st Day Sheet Evaluation

2nd Day Sheet Evaluation

5th Week

1st Day Drawing No.5: Dog legged stairs for single storey building

2nd Day Drawing No.6 : Draw atleast one sheet using CAD software

6th Week

1st Day Revised Drawing No. 2


7th Week



8th Week

1st Day Drawing No. 1: Roof Truss – Drawing of Fink Roof Truss with details of joints, fixing details of purlins and roof sheets.

2nd Day Drawing No.2 : Column and Column Bases - Drawing of splicing of steel columns

9th Week

1st Day Drawings of slab base, gusseted base and grillage base for single section steel columns


10th Week


2nd Day Drawing No.3 : Column Beam Connections

VF4VF4

11th Week

1st Day Sealed and Framed Beam to Beam Connections

2nd Day Sealed and Framed beam o Column Connections

12th Week

1st Day Drawing No. 4 : Plate Girder

2nd Day Plan and Elevation

13th Week

1st Day Plate Girder with details at supports and connection of stiffness, flange angles and cover plate with web highlighting curtailment of plates.

2nd Day Drawing No. 5 : Draw atleast one sheet using CAD software

14th Week



15th Week



lesson plan - gpsanghi.ac.inlaw of forces using 2nd fundamental units and derived units....

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