Free download E-Books for AMIE Section A and B Students of all branches. Download excellent quality study note and ebooks of amie section a in pdf,ppt, doc format: 73 Best study notes on microprocessor. About AMIE Courses (Study Material) by AMIE Study Circle, Roorkee. Downloads · Student Section · Enrolment NumberDeaspatch StatusDownload ReceiptOnline Support which includes course updates, unsolved papers, iQuiz , eBooks and video Well, we cover entire AMIE syllabus as prescribed by IEI, Kolkata.
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download section-A and section-B study notes. Design and manufacturing, computing and informatics, material science and engineering, etc. AD Networking Fundamentals (91 Pages - PDF Document - New) (Available to Super. subjects for section A are 1) engineering materials 2)Manufacturing Pdf 32 Free download excellent study materials for amie section a and b. Material Science subject of amie section A and take some words as take each word and add "lecture aracer.mobi or aracer.mobi" with it and.
However you are advised to join as early as possible, because it will give you more time for study and revision of the course material. The entire printed course material in the form of notes is divided into number of modules consisting of basic concepts and examples to bring out clarity. At the end of the module, number of problems are given in assignment sheets.
Objective type questions compulsory 20 marks are also incorporated at the end of assignment sheet. To bring total quality in the course, we are using kaizen strategy continuous improvement in the process of course development. However, we skip those topics which have not been asked for a long long time. Material : Functions, objectives, planning and control including inventory models with or without storage costs, price break excluding dynamic and probabilistic considerations.
Different classes of inventory. Group B Financial management: Introduction to standard forms of financial statements, i. Fixed and current asset items. Fixed and current liability items. Linkage of two successive balance-sheets through income or profit and loss statement.
Funds flow statement. Financial ratios and their implications. Managerial economics: Concepts, theory of production, marginal productivity and cost. Introduction to theory of firm. Quality management: Quality definition, quality planning, quality control and quality management, Total quality management, ISO systems, simple quality control techniques like control charts and acceptance sampling.
Marketing management consumer behaviour, market research, product design and development pricing and promotion. Project management: Introduction. Concept of a project, project management concepts, project simulation, cost or project and means of financing, economic evaluation criteria of the project, project implementation, project planning, scheduling and monitoring, project control PERT, CPM techniques including crashing. Project evaluation. Information technology and management. Role of information, management information system and decision support system, Information technology-introduction to e-business, e- commerce and integration tools like enterprise resource planning ERP.
Typical layout of thermal and hydro power stations-main and auxiliary equipment. Load management: Base and peak loads. Load curves Definitions of load factor, diversity factor, demand factor.
Capacity planning. Load forecasting. Capital and running costs for different types of plants. Different electricity tariffs-flat rate, two part and TOD tariff. Generator excitation systems: Speed and excitation control of generators. Load sharing of generators in a system. Stability of power system: Definitions of transient and steady state stability. Swing equation and its solution by step-by-step method.
Equal area criterion for transient stability. Group B Transmission of electrical power: Overhead and underground transmission line configurations. Materials for transmission line conductors and insulators. Power station and sub-station switchyard and layouts. ACSR conductors, bundled conductors.
Overhead line poles, towers and cross arms. Untransposed and transposed 3-phase transmission lines. Overhead, line sag calculation. Effect of wind pressure and ice loading on transmission lines. Transmission line parameters: Resistance, inductance and capacitance calculations. Skin and proximity effects. Corona and radio interference of EHV lines. Voltage distribution in suspension insulators. String efficiency. Different types of cables. Capacitance of cables.
Intersheath grading. Zero regulation condition of power transmission. Regulation and efficiency of medium lines. Propagation constant and characteristic impedance of a long line.
Ferranti effect. Infinite line. Wavelength of line. Determination of A, B, C, D constants of transmission lines.
Transmission line charts: Power factor and power angle of a transmission line. Power angle diagram of an interconnector. Use of shunt and series capacitor in a transmission line. Concept of tree, loop current and node pair voltage. Tie set and tie set matrices-cut set and cut set matrices. Solution of equilibrium equations on loop and node basis.
Application of Laplace transforms for solving transient equations of electrical circuits. Unit step, impulse and ramp inputs. Laplace transform for shifted and singular functions. Fourier series and its applications. Exponential form of the Fourier series.
Relation between frequency spectra and. Laplace transform of the Fourier series. The concept of complex frequency, transform impedance and admittance; series and parallel. Terminals and ports. Driving point and transfer impedances. S-plane representation: Poles and zeros.
Time domain behaviour from pole and zero plots. Procedure for finding network functions for general two-port network. Radian frequency and sinusoidal network functions in terms of poles and zeros. Resonance, Q-factor and bandwidth. Asymptotic change of magnitude with frequency in terms of poles and zeros. The symmetrical lattice.. Group B Field Theory Vectors and vector calculus. Gradient, divergence and curl of a vector.
Gauss, Stokes and Helmholtz theorems.
Electrostatics: Potential and electric field intensity. Conducting boundaries, Coaxial spheres and cylinders. Laplace's and Poisson's equations. Electrostatic energy. Uniqueness theorem. Method of images; dipoles. Dielectric polarisation, electric flux density, permittivity. Boundary conditions. Stationary currents.
Ohm's law; E. Resistance of arbitrary shaped conductors.
Boundary conditions and refraction, current flow lines. Numerical solutions of Laplace's equation by the method of iterations.
Magneto static : Magnetic field intensity and flux density. Vector potential. Magnetic dipole. Divergence of B. Ampere's law of force. Ampere's circuital law. Differential equation for vector potential. Magnetic polarisation and permeability.
Boundary conditions for and H. Time varying fields: Faraday's law. Dynamically and statically induced E.
Inductance and stored energy. Hysteresis loss, Maxwell's equations. Displacement current. Deviation of generalised wave equations from v1axwell's equations for the magnetic vector potential. Plane wave propagation and eddy current phenomenon as solutions of the above relevant equations.
Reflection and refraction of plane waves at the plane boundary of electromagnetic media. Speed control of D. Testing of D. Transformers: Construction of 3-phase transformers.
Connections of 3- phase transformers- Star, delta, zig-zag, Scott and Vee connections. Grounding transformers. On load tap changing arrangement of transformers.
Synchronous machines: Regulation of synchronous generators.
Salient pole synchronous machines. Direct and quadrature axis reactances. Synchronisation of 3-phase generators. Starting of synchronous motors.
V-curves for synchronous motors. Synchronous condensers. Load and torque angles of synchronous machines. Group B Three-phase induction motors: Torque-slip characteristics.
Starting maximum and pull out torques. Circle diagram of induction motors. Starters for induction motor. Speed control of induction motor. Testing of induction motor. Single-phase A. At the end of the module, number of problems are given in assignment sheets. Objective type questions compulsory 20 marks are also incorporated at the end of assignment sheet. To bring total quality in the course, we are using kaizen strategy continuous improvement in the process of course development.
However, we skip those topics which have not been asked for a long long time. Such topics are unimportant and waste precious time of AMIE aspirants. To further strengthen our AMIE course, we are giving online support which includes AMIE question papers, model papers, online objective questions, video lectures, audio lectures, eBooks and coure updates.