Course/ Code Engineering Mechanics 3 1-3 Teaching Total contact hours - 64 Engineering Physics Course Objectives: The students completing this course are expected to understand the concepts of forces and its resolution in different planes, resultant of force system, Forces acting on a body, their free body diagrams using graphical methods. They are required to understand the concepts of centre of gravity and moments of inertia and their application, Analysis of frames and trusses, different types of motion, friction and application of work - energy method. UNIT I Introduction to Engg. Mechanics Basic Concepts. Systems of Forces : Coplanar Concurrent Forces Components in Space Resultant Moment of Force and its Application Couples and Resultant of Force Systems. Introduction, limiting friction and impending motion, coulomb s laws of dry friction, coefficient of friction, cone of friction. UNIT II Equilibrium of Systems of Forces: Free Body Diagrams, Equations of Equilibrium of Coplanar Systems, Spatial Systems for concurrent forces. Lamis Theorm, Graphical method for the equilibrium of coplanar forces, Converse of the law of Triangle of forces, converse of the law of polygon of forces condition of equilibrium. UNIT III Centroid : Centroids of simple figures (from basic principles ) Centroids of Composite Figures. Centre of Gravity : Centre of gravity of simple body (from basic principles), centre of gravity of composite bodies, pappus theorem. Area moments of Inertia : Definition Polar Moment of Inertia, Transfer Theorem, Moments of Inertia of Composite Figures, Products of Inertia, Transfer Formula for Product of Inertia. Mass Moment of Inertia : Moment of Inertia of Masses, Transfer Formula for Mass Moments of Inertia, mass moment of inertia of composite bodies.
UNIT I V Kinematics : Rectilinear and Curvilinear motions Velocity and Acceleration Motion of Rigid Body Types and their Analysis in Planar Motion. Kinetics: Analysis as a Particle and Analysis as a Rigid Body in Translation Central Force Motion Equations of Plane Motion Fixed Axis Rotation Rolling Bodies. UNIT V Work Energy Method: Equations for Translation, Work-Energy Applications to Particle Motion, Connected System-Fixed Axis Rotation and Plane Motion. Impulse momentum method. Torsional vibration- The compound pendulum- General case of moment proportional to angle of rotation- D Alembert s principle in rotation. Course Outcomes: 1. To understand the concepts of forces and its resolution in different planes. 2. To understand the concepts of Equilibrium of Systems of Forces, law of Triangle of forces and converse of the law of polygon of forces. 3. To understand the concepts of Area moments of Inertia, Mass Moment of Inertia. 4. To understand the concepts of Equations for Translation, D Alembert s principle in rotation. TEXT BOOKS: 1. Engg. Mechanics - S.Timoshenko & D.H.Young., 4 th Edn -, Mc Graw Hill publications. 2. Engineering Mechanics statics and dynamics:a Nelson, Mc Graw Hill publications 3. Engineering Mechanics: GS Sawhney, PHI Learning Pvt. Ltd. 4. Engineering Mechanics: Basudeb Bhattacharyya, Oxford University Press REFERENCES: 1. Engineering Mechanics: statics and dynamics I.H.Shames, Pearson Publ. 2. Mechanics For Engineers, dynamics: - F.P.Beer & E.R.Johnston 5 th Edn Mc Graw Hill Publ. 3. Engineering Mechanics: Fedinand. L. Singer, Harper Collins. Useful Web-links : http://nptel.ac.in/courses.php http://mit.espe.edu.ec/courses/mechanical-engineering/
Course/ Code Engineering Drawing 3 1-3 Teaching Total contact hours - 64 Aptitude to learn Course Objectives: Engineering drawing being the principle method of communication for engineers, the objective is to introduce the students, the techniques of constructing the various types of polygons, curves and scales. The objective is also to visualize and represent the 3D objects in 2D planes with proper dimensioning, scaling etc. UNIT I Introduction to drawing Instruments and uses. Lettering. Polygons : Construction of regular polygons using given length of a side; Curves used in Engineering Practice, conic sections, construction of conics by different methods, cycloidal curves, epi and hypo-cycloids. Involutes. UNIT II Scales : Vernier and Diagonal scales. Introduction to orthographic projections; projections of points; projections of straight lines parallel to both the planes; projections of straight lines parallel to one plane and inclined to the other plane. Projections of straight lines inclined to both the planes, determination of true lengths and angle of inclinations and traces. UNIT III Projections of planes: Regular planes perpendicular/parallel to one plane and inclined to the other reference plane; inclined to both the reference planes. UNIT IV Projections of Solids Prisms, Pyramids, Cones and Cylinders with the axis inclined to one of the planes. UNIT V Conversion of isometric views to orthographic views; Conversion of orthographic views to isometric views. Prospective Projection.
Course Outcomes: 1. To understand the concepts and use of drawing Instruments and Curves used in Engineering Practice. 2. To understand the concepts of Vernier and Diagonal scales and concepts of orthographic projections. 3. To understand the concepts of Projections of isometric views to orthographic views. TEXT BOOKS: 1. Engineering Graphics by PI Varghese, McGrawHill Publishers 2. Engineering Drawing by N.D. Butt, Chariot Publications 3. Engineering Drawing by K.L.Narayana & P. Kannaiah, Scitech Publishers. REFERENCE BOOKS: 1. Engineering Drawing by Agarwal & Agarwal, Tata McGraw Hill Publishers 2. Engineering Drawing by Shah & Rana, Pearson Publishers 3. Engineering Drawing + AutoCad K Venugopal, V. Prabhu Raja, New Age Publishers Useful Web-links : http://nptel.ac.in/courses.php http://mit.espe.edu.ec/courses/mechanical-engineering/
Course/ Code ENGINEERING WORKSHOP 3 2 Teaching Total contact hours - 24 Aptitude to learn Course Objective: To impart hands-on practice on basic engineering trades and skills. Note: At least two exercises to be done from each trade. Trade: Carpentry Fitting Black Smithy House Wiring Tin Smithy 1. T-Lap Joint 2. Cross Lap Joint 3. Dovetail Joint 4. Mortise and Tennon Joint 1. Vee Fit 2. Square Fit 3. Half Round Fit 4. Dovetail Fit 1. Round rod to Square 2. S-Hook 3. Round Rod to Flat Ring 4. Round Rod to Square headed bolt 1. Parallel / Series Connection of three bulbs 2. Stair Case wiring 3. Florescent Lamp Fitting 4. Measurement of Earth Resistance 1. Taper Tray 2. Square Box without lid 3. Open Scoop 4. Funnel