AMIE Syllabus 2014
Section A is inclusive of basic sciences as well as engineering science. The course of study also focuses on adequate knowledge and application of engineering science, appreciation of the environment and society on engineering activities and adequate engineering skills.
Section B on the other hand contains various skills and branches of engineering.
The syllabus for AMIE exam is also differenciated on the basis of
• Diploma Stream Syllabus
• Non Diploma Stream Syllabus
The course structure of 15 engineering disciplines have been divided into two parts. Listed below is combined syllabus for diploma and non diploma streams of engineering.
SECTION A Examination Syllabus (Non Diploma Stream) [CODE 2]
Code
|
Subject
|
Syllabus
|
AN 201
|
Fundamentals of Design and Manufacturing
|
Engineering design process and its
structure. Identification and analysis of need, product design specifications,
standards of performance and constraints.
Searching for design concepts; morphological analysis, brainstorming. Evaluation of design concepts for physical reliability, economic feasibility and utility. Detailed design; design for manufacture, assembly, shipping, maintenance, use, and recyclability. Design checks for clarity, simplicity, modularity and safety. Standardization and size ranges. Reliability and robust design. Design organisation and communication, . technical reports, drawings, presentations and models. Concept of manufacturing; classification of manufacturing processes. Fundamentals of casting. Basic understanding of commonly used casting processes (sand casting, investment casting and permanent mould casting processes). Fundamentals of metal forming; hot and cold working; basic understanding of primary metal forming processes (rolling, forging, extrusion and drawing processes, punching and blanking). |
AN 202
|
Material Science and Engineering
|
Introduction to
materials. Metal and alloys, ceramics, polymers and semi conducting
materials-introduction and application as engineering materials.
Defects in solids.
Point, line and surface defects. Diffusion in solids.
Phase diagrams.
Mono-component and binary systems, non-equilibrium system, phase diagram and.
application in crystalline and non-crystalline solids.
Mechanical
properties. Tensile strength, yield strength, elastic and viscoelastic
properties, creep, stress relaxation and impact. Fracture behaviour. Ductile
fracture, Griffith theory, effect of heat treatment and temperature on
properties of metals.
Deformation of
metals. Elastic and plastic deformation, slip, twin, dislocation theory,
critical resolved shear stress, deformation in polycrystalline materials;
season cracking, Bachinger's effect, strengthening mechanics; work hardening
recovery, crystallization and grain growth, cold and hot working.
|
AN 203
|
Computing and Informatics
|
Programming languages. C including
C++; Languages-declarations, expressions, control statements, arrays,
functions, pointers and structures; Algorithms and flow charts. Introduction
to Pascal.
Informatics. Information systems for decision making; Data management and database management technology; Office automation system-LAN, WAN, electronic mail, electronic .data interchange; client server technology; overview of TCP/IP; Information systems for business; Strategic information systems; Information resources management. |
AN 204
|
Society and Environment
|
·
Societal Structures and Dynamics
·
Development Processes
·
Technology Assessment
|
AN 205
|
Mechanical Science
|
·
Mechanics of Solids
·
Dynamics and Statics
·
Mechanics of Deformation
|
AN 206
|
Engineering Physics and Chemistry
|
Atomic structure,
Rutherford and Bohr's models, atomic process. Proton and neutron, radioactivity
and decays. Nuclear energy and reactions, nuclear reactor. Introduction to
quantum physics.
Inter-atomic forces
in solids, anisotropic properties. Distinction between metal and semi-metals.
Semiconductor; insulator and superconductor. Dielectric materials. Types of
dielectric polarisation. Piezo, pyro and ferroelectric materials and their
electrical and optical properties.
Kinetic theory of
gases. Temperature and kinetic energy, ideal gas laws. Principle of
statistical mechanics. Boltzman’s law, Brownian movement, equiportion of
energy and thermal equilibrium of radiation.
Optics.
Interference, diffraction and polarisation, laser, holography, fibre optics.
Crystalline and
amorphous material, crystal geometry, crystal directions and planes. Space
lattices. Crystal symmetry and structure. Crystal bonding. Inter-atomic
forces in solids. Anisotropic properties.
|
AN 207
|
Engineering Graphics and Drawing
|
Projection graphics. Objects, condition
and methods of projection; Gnomonic, stereographic and orthographic
projections; Coordinate systems and grid scales, scale distortion, and
conditions of conformality and equivalence. Axonometric projections;
Isometric; Dimetric and oblique projections; Conical equivalent and.
equivalent cylindrical projections.
Spatial graphics. Basic principles of
multiview drawings and Monge's projections; Points in quadrants and octants;
Projections of lines and traces of lines; True relative positions of two
planes and of a straight line and a plane; Method of revolution. Projections
of polyhedrons, curved lines and surfaces; Contour mapping of curved
surfaces; Plane sections .of polyhedrons and curved surfaces; Intersection of
planes and surfaces and lines and surfaces; Development of curved surfaces.
Affine correspondence and its applications.
Product graphics. Introduction to
various product features; identification of functional and non-functional,
surfaces; Selection of datum; Tolerancing of dimensions. Compatibility of
product elements for manufacturing and assembly requirements; Sectional and
auxiliary views. .
Computer graphics. Basic principles for
interactive computer graphics; Systems and peripherals required; Point
plotting technique; Line drawing displays; Modelling of two and
three-dimensions; Display of solid objects.
|
AN 208
|
Electronics
|
Electronics
Semiconductor
materials, intrinsic and extrinsic semiconductors. p-n junction diodes,
rectifiers-;half wave, full wave, capacitive filters, Zener diodes, their
operation, characteristics and applications.
Transistors-p-n-p and n-p-n transistors, transistor as amplifier-CE, transistor characteristics, blasting and biasing stability, small signal equivalent circuits. Field effect devices-MOSFET -characteristics and applications. BJT -characteristics. Amplifiers-Hybrid parameter equivalent circuits for common emitter configuration, current and voltage gain, . input-output impedance, frequency response_ concepts of feedback amplifiers, regenerative feedback and conditions for oscillation. Thyristors-characteristics and applications. Triacs and GTOs. Integrated circuits: IC devices. OP AMP applications. Analogue to, Digital Conversion (ADC), Digital to Analogue Conversion(DAC). |
AN 208
|
Instrumentation
|
Instrumentation
Indicating instruments. Moving coil, moving iron, rectifier and dynamometer type meters for measurement of voltage, current, resistance and power. Integrating meters. Electronic voltmeters-peak, r.m.s. and average reading type voltmeters. CRO-functional block diagram, operation and application. Electronic instruments. Q-meters, distortion meters, spectrum analyzers, audio oscillators and RF signal generators, introduction to digital voltmeters; digital display devices. Sensors and transducers. Resistive, inductive and capacitive pick ups for non electrical quantities. Analogue and digital data acquisition and transmission systems. |
AN 209
|
Engineering Mathematics
|
Calculus of functions of one variable:
Successive differentiation, Leibnitz theorem, Roll’s and Mean value theorems.
Taylor's and Maclaurin’s expansion theorems. Fundamental theorem of integral
calculus. Elementary reduction formulae for integrals. Applications to
length, area, volume, surface area of revolution, moments of centre of
gravity. Infinite series-convergence, divergence ratio tests, etc.
Calculus of functions of several variables: Partial derivatives, gradient and directional derivatives. Differentiation of implicit functions, exact differentials, tangents, normals, maxima; minima, saddle points. Method of Lagrange’s multiplier. Multiple integrals. Vector Calculus: Scalar and vector fields. Line and surface integrals. Gradient and divergence. Green's and Stoke's theorems and their applications Linear Algebra: Vector spaces-linear independence and dependence of vectors, inner products, linear transformations. Matrices and determinants. Systems of linear equations¬ consistency and inconsistency. Gauss elimination, rank of a matrix, inverse of a matrix. . Eigen values and eigenvectors of a matrix, diagonalization of a matrix. |
AN 210
|
Electrical Sciences
|
Review of basic concepts in
electrostatics and magnetostatics, Basic laws due to Ohm, Coulomb, Faraday,
Ampere and Kirchhoff, Network parameters and theorems, Superposition theorem,
Thevenin and Norton’s Theorems, Network analysis, Steady state response of
circuits to sinusoidal functions. Power and power factor. Phasor
representation of sinusoidal complex impedances. Resonance. Magnetic field
calculations. Magnetization curves. Magnetic circuits concepts and
calculation. Hysteresis and eddy current losses. Relays.
Polyphase circuits-Three-phase supply systems. Phase sequence. Balanced three-phase circuits. Star and delta connected loads. Unbalanced three-phase circuits. Symmetrical components. Power measurement in three-phase circuits. Active and reactive power. Power factor improvement. |
Section A
(Diploma Streams) [CODE- 03
Code
|
Subject
|
AD 301
|
Fundamental of Design and Manufacturing
|
AD 302
|
Material Science and
Engineering
|
AD 303
|
Computing and Informatics
|
AD 304
|
Society and Environment
|
Section B
Code
|
Subject
|
04
|
CHEMICAL ENGINEERING
|
05
|
CIVIL ENGINEERING
|
06
|
COMPUTER SCIENCE AND
ENGINEERING
|
07
|
ELECTRICAL ENGINEERING
|
08
|
ELECTRONICS AND COMMUNICATION
ENGINEERING
|
11
|
MECHANICAL ENGINEERING
|
12
|
MATERIALS AND METALLURGICAL
ENGINEERING
|
13
|
MINING ENGINEERING
|
14
|
PRODUCTION ENGINEERING
|
15
|
TEXTILE ENGINEERING
|
Categories:
Syllabus
Posts
0 comments:
Post a Comment
Thank you for posting your comment. Your comment is gone for moderation.