DMCM 3723 MECHANIC OF MACHINES                        Strength  of  Materials,  New  Delhi:  PHI
                    LEARNING OUTCOMES                                     Learning.
                    At the end of this course, students should be able   b.   Cleghorn,  W.L.,  2009,  Mechanics  of
                    to:                                                   Machines,  New  York:  Oxford  University
                    LO1  Demonstrate kinematics principle to solve        Press.
                          flat and V-belt problems.                   c.   Ramamurti,  V.,  2010,  Mechanics  of
                    LO2  Apply the concept of gear transmission           Machines, Manohar Puslisher & Distributor.
                          system in the real world applications.      d.   Gupta, B.V.R., 2011, Theory of Machines:
                    LO3  Solve  related  problems  in  balancing          Kinematics and Dynamics, I. K. International
                          system of rotating body using graphical         Publishing House Pvt. Ltd.
                          or trigonometric method.                    e.   Balakannan,  K.,  2011,  Mechanics  of
                    LO4  Demonstrate  the  usage  of  free  body          Machines, Lambert Academic Publishing.
                          diagram  to  solve  problems  in  flywheel
                          and   governor   and   explain   its
                          functionality.                              DMCD 3523 ENGINEERING DESIGN
                    LO5  Analyze the effect of gyroscopic couple      LEARNING OUTCOMES
                          to the real world applications.             At the end of this course, students should be
                    LO6  Evaluate  the  natural  frequency  in  free   able to:
                          vibration  system  using  either  Energy    LO1  Recognize terminology used in machine
                          Conservation   Method,   Equivalent              components and its design.
                          Method or Newton’s Law Method.              LO2  Explain the type of failures of machine
                    SYNOPSIS                                               components design.
                    This  course  will  cover  the  power  transmission   LO3  Apply the formulation of the safe
                    system  (belt  drive,  gears  application,  gear       design for machine components.
                    efficiency),  Dynamic  system  balancing  (rotor   LO4  Design the most suitable size and shape
                    balancing such as planar and multi planar and          of machine components.
                    reciprocating balancing such as in-line engine,   LO5  Analyze and design machine components
                    radial and V-engine), Governors (Flywheel and          under different loads and conditions.
                    Porter  governor),  Gyroscope,  Free  vibration   SYNOPSIS
                    (pendulum  system,  spring-mass  system  and      This  course  covers  Introduction  to  Engineering
                    shaft-inertia   system   by   using   energy      Design, Design of Static and Fatigue Strength,
                    conservation  method,  equivalent  method  and    Design  of  Threaded  and  Welded  Joints,
                    Newton’s  Law  method),  Free  vibration  with    Bearings,  Shafts/rods,  Gears  and  Springs.
                    viscous damping (basic principle).                Student will learn to design a simple machine
                    REFERENCES                                        applying foundation of mechanical engineering
                    a.   Sawhney,  G.S.,  2009,  Fundamentals  of     concept.  A  part  from  that,  a  topic  on
                        Mechanical  Engineering:  Thermodynamics,     sustainability  of  design  is  introduced  for  eco-
                        Mechanics,  Theory  of  Machines  and         friendly design.



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