Department of BME, REC

               UNIT III           DYNAMICS OF PARTICLES                                               12
               Displacements,  Velocity  and  acceleration,  their  relationship  –  Relative  motion  –  Newton’s
               laws of motion – Work Energy Equation– Friction force – Laws of sliding friction – equilibrium
               analysis of simple systems with sliding friction.

               UNIT IV          MECHANICS OF SOLIDS                                                   12
               Rigid  bodies  and  deformable  solids  –  Tension,  Compression  and  Shear  Stresses  –
               Deformation of rigid and non rigid bodies - Centroids and centre of mass- Centroids of lines
               and  areas  -  Rectangular,  circular,  triangular  areas  by  integration  –  Principal  moments  of
               inertia of plane areas – Principal axes of inertia - Mass moment of inertia – mass moment of
               inertia for prismatic, cylindrical and spherical solids from first principle.

               UNIT V          BASICS OF MECHANICS OF FLUIDS                                          12
               Fluids – density – pressure – blood pressure and gravity – buoyancy – moments of force and
               stability – movement in water –Newton’s laws of viscosity – Definitions and simple problems
               on  Newtonian  fluid,  Non-Newtonian  fluid,  Euler  equations  and  Navier  Stoke’s  equations,
               Viscoelasticity, laminar flow, Couette flow, turbulent flow and Hagen-Poiseuille equation.

                                                                                   TOTAL:  60 PERIODS
               OUTCOMES:
               At the end of the course students will be able to:
                   •  Use  scalar  and  vector  analytical  techniques  for  analysing  forces  in  statically
                       determinate structures
                   •  Analyse the impact of force on bodies/structure
                   •  Solve rigid body subjected to dynamic forces
                   •  Apply fundamental concepts of kinematics and kinetics of particles to the analysis of
                       simple practical problems
                   •  Analyse fluid flow under different pressure and volume (hemodynamic conditions)

               TEXT BOOKS:
                   1.  Beer,  F.P  and  Johnston  Jr.  E.R.,  “Vector  Mechanics  for  Engineers  (In  SI  Units):
                       Statics  and  Dynamics”,  8th  Edition,  Tata  McGraw-Hill  Publishing  company,  New
                       Delhi (2004).
                   2.  Dr. R. K. Bansal, A Text Book of Fluid Mechanics, Laxmi Publications (P) Ltd., New
                       Delhi.

               REFERENCES:
                  1.  Hibbeller,    R.C    and    Ashok    Gupta,    “Engineering    Mechanics:    Statics    and
                     Dynamics”,  11th Edition, Pearson Education 2010.
                  2.  Vela Murali, “Engineering Mechanics”, Oxford University Press (2010).
                  3.  Lee  Waite,  “Biofluid  Mechanics  in  Cardiovascular  Systems”,  The  McGraw-Hill
                     Companies, 2006.


               CY19142                 CHEMISTRY FOR ELECTRONICS ENGINEERING             L  T  P  C

                                                Common to B.E. – ECE & BME                       3  0  2  4

               OBJECTIVES
                   •  To understand the principles of electrochemical processes and corrosion control
                   •   To get familiarised with the functioning batteries of and fuel cells

               R 2019 Curriculum & Syllabus/ B.E Biomedical Engineering                       Page 19