WIXLIB

Lesson PlanName of the Faculty :Guest FacultyDiscipline:Civil Engg.Year/Semester:1st Year (Annual System)Subject:Applied MechanicsLesson Plan duration :37 weeks (from 30thJuly, 2018 to 30 th April, 2019)Work load per week :Lecture – 02, Practical – rd6th4th7th8th9th5th6thTopic(Including assessment/test)Introduction : Concept ofengineering mechanics definition ofmechanicsTopic1stStatics, dynamics.Different systems of units (FPS, CGS,MKS and SI) and their conversionfrom one to another.Simple Numerical Problems,Fundamental Units and Derived UnitsConcept of rigid body, scalar andvector quantities2ndVerification of thepolygon law of forcesusing Gravesand’sapparatus.3rdVerification of thepolygon law of forcesusingGravesand’sapparatus.Laws of forces : Definition of force,Bow’s Notations, types of forcePoint force/concentrated force &Uniformly distributed force, effects offorce, characteristics of a forceDifferent force systemsPrinciple of transmissibility of forces4th510thLaw of super-position11thComposition and resolution ofcoplanar concurrent forces, resultantIntroduction about theLab and briefdiscussion over thepractical work to beconductedth6thChecking of PracticalFileTo verify the forces indifferent members ofjib crane.To verify the forces in

12th13th7th14th15thForce Method of composition offorcesLaws of forces, triangle law of forcesPolygon law of forces - graphically,analytically, resolution of forces10thEquilibrant force and itsDetermination16thLami's theorem17thSimple problems on above topicsst18th119thAssessment20thMoment : Concept of moment21thMoment of a force and unitsofmoment22thVarignon's theorem (definition only)23thPrinciple of moment and itsApplications12th2425th13th14th15th27thConcept of couple, its properties29h9thTo verify the reactionat the supports of asimply supportedbeam.10thEffects of CoupleGeneral conditions of equilibrium ofChecking of PracticalFile11thTo find the mechanicaladvantage, velocityratio and efficiency incase of an inclinedplane.12thTo find the mechanicaladvantage, velocityratio and efficiency incase of an inclinedplane.Steel yard, safety valve, reaction atsupport)Parallel forces (like and unlike parallelforce) calculating their resultant288thTo verify the reactionat the supports of asimply supportedbeam.7Levers – simple and compound,26ththChecking of PracticalFileInternal Assessment Exam11thththFree body diagram8th9thdifferent members ofjib crane.13thChecking of PracticalFile14th1st InternalAssessment Exam(Tentative)15thTo find the mechanical

bodies under coplanar forces16th17th30thPosition of resultant force by moment31thSimple problems on the above topics32thFriction : Definition and concept offriction, types of friction33thForce of friction, Limiting Friction34thLaws of static friction35thCoefficient of friction angle offriction, angle of repose18th36th37th19th3820th21stthEquilibrium of a body lying on ahorizontalplaneAdvantages and Disadvantages ofFriction Methods ofincreasing/decreasing the force offriction.Problems40th2nd Internal Assessment Exam41stCentre of Gravity : Concept42nd4423rd45th17thChecking of PracticalFile18th19thTo find themechanicaladvantage, velocityratio and efficiency ofworm and wormwheel20thChecking of PracticalFile21stTo find mechanicaladvantage, velocityratio and efficiency ofsingle purchase crab.22ndTo find mechanicaladvantage, velocityratio and efficiency ofsingle purchase crab.Difference between Centroid and C.GDetermination of Centroid of plainand composite lamina using momentmethod onlyTo find the mechanicaladvantage, velocityratio and efficiency ofa screw jack.To find themechanicaladvantage, velocityratio and efficiency ofworm and wormwheelDefinition of Centroid of plain figuresCentre of gravity of Symmetrical solidbodies22ndth16thEquilibrium of a body lying on arough inclined plane Ladder friction39th43rdadvantage, velocityratio and efficiency ofa screw jack.23rdChecking of Practical

ntroid of bodies with removedPortionDetermination of center of gravity ofsolid bodies – CylinderDetermination of center of gravity ofsolid bodies - Cube,Determination of center of gravity ofsolid bodies CuboidDetermination of center of gravity ofsolid bodies SphereDetermination of center of gravity ofcomposite bodiesDetermination of center of gravity ofsolid bodies with portion removed53rdProblems of above topic54thSimple Machines : Definition ofSimple and compound 0th61stDefinition of load, effort, velocityratio, mechanical advantageEfficiency of a machine and theirrelationship, law of machinesDefinition of ideal machine, reversibleand self locking machineEffort lost in friction, Load lost infriction.Determination of maximummechanical advantage and maximumefficiencySystem of pulleys (first, second, thirdsystem of pulleys)Determination of velocity ratio,mechanical advantage and efficiency31st25thTo find out center ofgravity of regularlamina.26th27th28th29th30th31st6232nd24thTo find out center ofgravity of regularlamina.nd63rdWorking principle and application ofwheel and axleWeston’s Differential Pulley Block64thSimple screw jack32ndChecking of PracticalFile2nd InternalAssessment Exam(Tentative)To find out center ofgravity of irregularlaminaChecking of PracticalFileTo find out center ofgravity of irregularlaminaChecking of PracticalFileTo determinecoefficient of frictionbetween three pairs ofgiven surface

33rd65thWorm and worm wheel66thSingle and double winch crab.67thExpression for their velocity ratio andfield of their application of above m/c34th6835thth69thNumerical problems of effort lost70thNumerical problems of load lost.71st36th72nd37thNumerical Problems of MA andEfficiencyNumerical problems of pulley 1 st and2nd systems to calculated V.R ,M.Aand efficiencyrdNumerical problems of 3 systempulley systems to calculated V.R ,M.Aand king of PracticalFileTo determinecoefficient of frictionbetween three pairs ofgiven surfaceChecking of PracticalFileInternal Viva36thInternal Viva37th

Lesson PlanName of the Faculty :Guest FacultyDiscipline:Civil EngineeringYear/Semester:1st Year-(Annual System) Subject: ENGINEERING GRAPHICSLesson Plan duration :37 weeks (from 30thJuly, 2018 to 30th April, 2019)Work load per week :Lecture – 00, Practical – h5th5th6th6thTopicUnit:-1 Introduction to Engineering DrawingDefinition of Engineering Drawing, Introduction to drawinginstruments, materials, layout and sizes of drawing sheets and drawingboards, engineering graph book, different grades of pencils to be used.Different types of lines in engineering drawing as per BISspecificationsPractice of vertical, horizontal and inclined linesPrinciples of dimensioning: Types, elements, placing, differentmethods of dimensioning1.5 Practice of geometrical figures such as –triangles, rectangles, circles,ellipses and parabola, hexagonal, pentagon with the help of drawinginstruments.Definition and classification of lettering, single stroke vertical andinclined lettering at 750 (alphabet and numerals)Freehand letter writing and sketches of various kind of objects ingraph Sketch book/graph paper.Unit:- 2 Graphics using CADMeaning, requirement of computer graphics, CAD, screen structure andtoolbars in AutoCAD, coordinate system, Drawing Limits, Units.Practice of LINE command, coordinates-Absolute, incremental,polar. POLYLINE, CIRCLE(3P,2P, TTR), ARC, ELLIPSEUsing above geometrical commands for making figure e.g. triangle,rectangle, hexagon, pentagon, parabola.2.4 Editing commands-Scale, erase, copy, stretch, lengthen andexplodeUse of SNAP, GRID and ORTHO mode for selection of pointsquickly. Use of these modes while picking points in LINE, CIRCLE,PLINE, ARC, ELLIPSE etc commands.

7th7th8th8thUnit:-3 Scales3.1 Scales-their needs and importance (theoretical instructions), typesof scales, definition of Representative Fraction(R.F.) and length ofscale.3.2 Construction of Plain and diagonal scale.9th9th1st Internal Assessment Exam nit:-4 Orthographic ProjectionTheory of orthographic projections (Elaborate theoreticalinstructions)Projections of points in different quadrantsProjection of line (1st angle and 3rd angle)4.3.1 Line parallel to both planes44.3.2 Line perpendicular to any one of the principal plane4.3.3 Line inclined to any one of the principal plane and parallel toother.Projection of Solid-Cube, Cuboid, Cone, Prism, pyramidThree views of orthographic projections of different objects (Atleast one sheet in 3rd angle)4.6 Making above sheets in AutoCAD of:- point line solids and twoobjectsUnit:- 5 Sectioning and Identification of surfaces5. 1 Identifications of surfaces, Importance and salient features ofsectioning of objects5. 2 Description of full section, half section partial or broken outsections, Offset Sections, revolved sections and removed sectionsUnit:- 6 Isometric Views6.1 Fundamental of isometric projections and isometric scale6.2 Isometric views of different objects6.3 AutoCAD for the isometric views sheets. Making single computersheet showing all the three views and an isometric (in single splitscreen view) of any object showing understanding of use of AutoCADin making isometric views – at least 1 sheetUnit:- 7 Common Symbols and conventions used in Engineering7.1 Civil Engineering sanitary fitting symbols2nd Internal Assessment Exam (Tentative)Winter Vacations 25.12.2018 to 08.01.201921st21st22nd22nd23rd23rd24th24th7.2 Electrical fitting symbols for domestic interior installations 7.3Safety symbols used in engineering worksUnit:-8 Development of surfaces (cylinder, cuboid, cone)8.1 Parallel line, radial line methodUnit:-9 Detailed and assembly drawing9.1 Principle and utility of detailed and assembly drawings9.2 Wooden joints i.e. corner mortise and tenon joint, Tee Halvingjoint, Mitre faced corner joint, Tee bridle joint , crossed wooden joint,

37thcogged joint, dovetail joint, through Mortise and tenon joint, furnituredrawing – freehand and with the help of drawing instruments9.3 Making Wooden Joint sheets in AutoCAD, rendering & showingassembly animation at least 1 sheetUnit:- 10 Screw threads and threaded fastener10.1 Thread Terms and Nomenclature10.1.1 Type of threads-external and internal threads, right and lefthand threads (actual conventional representation), Single and multiplestart thread.10.1.2 Different forms of screw threads –V threads (B.S.W. threads,B.A thread, American National and Metric thread), Square threads(Square, Acme, buttress and Knuckle thread)10.2. Nuts and Bolts10.2.1 Different views of hexagonal and square nuts. Square andhexagonal headed bolt.10. 2. 2 Assembly of Hexagonal ended bolt and Hexagonal nut withwasher.10. 2. 3 Assembly of square headed bolt with hexagonal and withwasher.10. 3. Locking Devices10. 3. 1 Different types of locking devices-Lock nut, castle nut, splitpin nut, locking plate, slotted nut and spring washer.10. 3. 2 Foundations bolts-Rag bolt, Lewis bolt, Curved bolt and eyebolt.10. 3. 3 Drawing of various types of studsUnit :- 11 Keys and Cotters11. 1 Various types of keys and cotters-weir practical application,drawings of various keys and cotters showing keys and cotters inposition11. 2 Various types of Joints -Spigot and Socket Joints -Gib and cotterjoint -Knuckle jointUnit:- 12 CouplingsIntroduction to coupling, their use and typesMuff couplingFlange coupling (protected)Flexible CouplingREVISION