Will you please provide the syllabus for the Regional Transport Officer exam in Maharashtra?
RTO (Regional Transport Officer) exam is conducted by Public Service commission ( state wise ) and the exam is held for this following posts
1) Judicial post
2) Clerkship post
3) Sub - assistance engineer post The subjects for RTO exam is given below:
Compulsory Subjects:
Marathi
English
General Studies – I
General Studies - II Optional Subjects:
Computer Science
Mechanical Engineering Here i am providing the syllabus of Mechanical Engineering as per your requirements:
Total Marks : 200
Section - A( Marks : 50 )
Materials and Their Behaviour
Fundamentals : Force, moment, couple, resultant of forces, Equilibrium offorces, friction and friction angle, columb friction, rolling friction andbelt friction, frictional torque in pivot and Collar bearings, MI, Work andenergy
Strength of Materials : Normal and Shearstresses, Stress-strain diagram, thermal stresses, shear force and bendingmoment diagrams, bending stresses in solid, hollow and built up sections,deflection of beams, shear stress distribution, strain energy, torsion ofbars, shafts and helical springs, Deflection of beam under differentconditions, impact load
Theory of Machines : Kinematic link,pair, chain, Mechanism and structure, degrees of freedom, Cams, Gear trains,fluctuation of speed and energy in flywheel, Gyroscope, Balancing of rigidrotor, Single and multi-cylinder engines and V-engines, belts and chaindrives, Hydrodynamic bearing
Engineering Materials : Crystallinestructure of metals and alloys, defects in crystalline materials, Iron-Carbonequilibrium diagram, plain carbon steel, alloy steel, cast iron and types,Brass and Bronze, Aluminum, lead, Tin, Zinc- their properties andapplications, Plastic deformation, bearing materials, plastics, ceramics,composite materials, Heat treatment of steels
Mechanical Engineering syllabus details for MPSC Exam
Section - B( Marks : 50 )
Design of Elements : Theories of failure,factor of safety, combined stressesPressure vessels, struts and columns Design of Screw and bolt, power screw, Design of Shafts and springs,keys, couplings
Design of Gears : (Spur, helical, bevel and worm), Designof clutches and brakes, fatigue consideration in design
System Design : Design of mechanical systems, specification of components, Design of system including material handling systems, power plants, refrigeration and air conditioning systems, pneumatic and hydraulic systems, etc
Dynamics of machines : Inertia force analysis, law of gearing, interference and minimum number of teeth,Longitudinal - transverse and torsional vibration, free-forced vibration,critical and whirling speed of shaft, vibration isolation.
Mechanical Engineering syllabus details for MPSC Exam
Section - C( Marks : 50 )
Manufacturing Science :Theory of metal cutting, Merchant's force analysis, Tool materials, Taylor's tool life equation, Machinability,economics, cutting fluids, Chip removal, Calculation of cutting force onsingle point cutting tools, twist drills, milling cutter, broaches, reamers,Jigs and fixtures Recent machining methods - EDM, ECM, PAM, Ultrasonic and Laser, etc
Manufacturing Processes : Casting, moulding- Types, equipments and defects, hot and cold working of metals - blanking,shearing, punching, piercing, coining, embossing, drawing, spinning andforging, Metal joining processes- welding, soldering, brazing, High energy rate forming, electroplating, surface finishing processes
Manufacturing Management : Production planning and control, forecasting - Moving average, moving range, exponential smoothening, scheduling, assembly line balancing, Inventory Control - ABC analysis, EOQ models, Statistical quality control and TQM, TPM Elements of cost, job costing, process costing, estimation of machining time
Operation Research : Linear programming -Graphical and simplex methods, transportation and assignment models, game theory, queuing models, CPM and PERT, Replacement models, value analysis
Section - D( Marks : 50 )
CAD / CAM
CAD : Overview and benefits of CAD,primitives, 2D / 3D animation, Bazier curves and splines, Wire -frame modeling, surface and solid modeling, kinematic analysis of open and closedloop mechanisms, stiffness matrix, finite element analysis, optimum design,constrained optimization - Penalty function method, computer aided optimumdesign of gears, bearing sand shafts
Product Development : Design materials, human factors in design, applied ergonomics, product development processes, customer needs,product specifications, concept generation and selection, product architecture, product design methods - function analysis, objective trees,QFD, morphological chart method, weighted objective method, value engineering method Design for manufacturing, legal issues in product design, economics
Machine Tool Design : Kinematics of machine Tools, structural and ray diagrams for speed, stepped and step less regulation of speed, static and dynamic rigidity of machine tools, Vibration of machine tools, chatter, Slide ways and guide ways
CAM : Types of automation, Steps in NC manufacturing, manual and NC part programming, APT, Machining centres, FMS,Computer Aided Process Planning, CMM, CIMS & its components, Robotics
Last edited by Aakashd; May 18th, 2019 at 11:27 PM.
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