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PM2K 507(P) : HEAT TRANSFER LABORATORY[common with ME2K 507(P)] 3 hours practicals per week Introduction to fundamentals of heat transfer  condensation and boilyheat exchanges experimental techniques in thermal sciences Exercise
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Sessional work assessment Laboratory practicals and record = 30 Test/s = 20 Total marks = 50 PM2K 508(P) : PRODUCTION ENGINEERING LAB II [common with ME2K 508(P)] 3 hours practicals per week Introduction: limits and fits  horizontal milling machine  vertical milling machine  shaping machine  slotting machine  surface, centreless and cylindrical grinding  spindle drives  milling cutters  indexing head  simple, compound, differential and angular indexing  grinding wheel  drilling  reaming  tool layout Exercises:
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Sessional work assessment Laboratory practicals and record = 30 Test/s = 20 Total marks = 50 PM2K 601 : METROLOGY & INSTRUMENTATION 3hours lecture & 1 hour tutorial per week Module I (11 hours) Characteristics of instruments  generalised measurement systems  inputoutput configurations  static characteristics  errors in measurement drift noise accuracy precision  static sensitivity resolution traceability  loading effects on instruments  dynamic response of measuring instruments  zero, first and second order instruments  response of instruments to step, ramp, impulse and periodic inputs  experimental determination of measurement system parameters Module II (13 hours) Metrology  tolerances interchangeability  ISO system of limits and fits  design of limit gauges  tolerance analysis  linear measurements  slip gauges micrometers  variable inductive transducers comparators  mechanical, electrical, pneumatic and optical comparators  optical methods of dimensional measurement  measuring microscope  profile projector  autocollimator interferometer  metallurgical microscope, etc.  thread measurements  measurement of pitch  effective and root diameter  gear measurements  measurement of gear tooth thickness  tooth spacing and pitch circle diameter Module III (15 hours) Measuring devices  transducer elements and types  bonded strain gauges  differential transformers  piezoelectric transducers  synchros, etc. measurement of strain  various types of strain gauges  application of strain gauges for measurement of load  torque  measurement of force and torque  hydraulic and electrical dynamometers  cutting tool dynamometers for measurement of force and torque during turning milling  drilling etc  measurement of temperature  thermo couples  resistance thermometers  resistance temperature detectors  radiation thermometers  thermistors, etc  typical applications in metal cutting  metal casting processes and automobile engineering  pressure and sound measurement  low and high pressure measurement  sound meter  various types of microphones sensitivity  air pollution measurement  orsat apparatus  principle of gas chromatography  measurement of vibration  principles of accelerometer and seismometer Module IV (13 hours) Data acquisition and processing  analog and digital sensor processing filters  A/D and D/A converters  microprocessor applications Modern measuring instruments/machines  coordinate measuring machinehard probes  touch trigger probes  noncontact sensors  probe calibration  drive systems  performance evaluations  geometric and scanning softwares  effect of environments  surface finish measurements  stylus instruments  skid, skidless and noncontact types  measurement of roughness parameters  Ra, Rq, Rt, Rk, Rmax, tp, etc.  machine vision  image formation  image analysis and image interpretation  charge coupled device and charge injected devices  typical application examples Reference books
Sessional work assessment 3 Tests 2 x 15 = 30 2 Assignments 2 x 10 = 20 Total marks = 50 University examination pattern Q I  8 short type questions of 5 marks each, 2 from each module Q II  2 questions A and B of 15marks each from module I with choice to answer any one Q III  2 questions A and B of 15marks each from module II with choice to answer any one Q IV  2 questions A and B of 15marks each from module III with choice to answer any one Q V  2 questions A and B of 15marks each from module IV with choice to answer any one PM2K 602 : 0PERATIONS RESEARCH (common with ME2K 602) 3 hours lecture and 1 hour tutorial per week Module I: Linear algebra (13 hours) Vectors  vector space and Euclidean space  vector operations  matrix operations  unit vector  sum vector  linear dependence  bases  spanning set  rank  simultaneous equations  basic solutions  point sets  lines and hyper planes  linear inequalities  convex sets  extreme points  fundamental theorem of linear programming Module II: Linear programming (13 hours) Statement of the LP problem  slack and surplus variables  basic feasible solutions  reduction of a feasible solution to basic feasible solution  artificial variables  optimality conditions  unbounded solutions  Charnes’ M method  two phase method  degeneracy  duality Module III: Transportation, assignment & game problems (13 hours) The transportation problem  the coefficient matrix and its properties  basic set of column vectors  linear combination of basic vectors  the tableau format  stepping stone algorithm  UV method  inequality constraints  degeneracy in transportation problems  the assignment problem as a maximally degenerate transportation problem  Köening’s method  rectangular zero sum games  Von Neuman’s theorem  saddle points  pure and mixed strategies  formulation of the primal and dual LP problem for fixed strategies  dominance  graphical solutions Module IV: Queueing theory (13 hours) Basic structure of queueing models  exponential and Poisson’s distributions  the birth and death process  queueing models based on Poisson inputs and exponential service times  the basic model with constant arrival rate and service rate  finite queue  limited source queue models involving nonexponential distributions  single service model with Poisson arrival and any service time distribution  Poisson arrival with constant service time  Poisson arrival and Erlang service times  priority disciplines  dynamic programming  Bellman’s principle of optimality  formulation and solution of simple problems Text books
Reference books
Sessional work assessment 3 Tests 2 x 15 = 30 2 Assignments 2 x 10 = 20 Total marks = 50 University examination pattern Q I  8 short type questions of 5 marks each, 2 from each module Q II  2 questions A and B of 15marks each from module I with choice to answer any one Q III  2 questions A and B of 15marks each from module II with choice to answer any one Q IV  2 questions A and B of 15marks each from module III with choice to answer any one Q V  2 questions A and B of 15marks each from module IV with choice to answer any one 