Jamia Millia Islamia Entrance Exam for M.Tech. (Energy Sciences) 2020 or JMI Entrance Exam M.Tech. (Energy Sciences) 2020 is the entrance examination for admission to M.Tech. (Energy Science and Engg.) and M.Tech. (Energy Science and Technology). JMI Entrance Exam M.Tech. (Energy Sciences) 2020 is conducted by Jamia Millia Islamia University.
JMI Entrance Exam M.Tech. (Energy Sciences) for the year 2020 has been announced by Jamia Millia Islamia University and will be held on 12/10/2020. The application forms will be available from 21/02/2020 till 14/09/2020. The exam is in written mode. The duration of the exam will be 90 minutes. It is being conducted in English and Hindi languages. The result date will be announced later.
The minimum Academic Qualifications for JMI Entrance Exam M.Tech. (Energy Sciences) 2020 required are that students should have passed B.Tech / B.E from a recognized board.
The degree required for eligibility are n Electronics/ Computer/ Electrical/ Mechanical/ IT.
Students should have passed M.Sc. from a recognized board.
The degree required for eligibility are n Physics/Applied Physics/Electronics/Chemistry/Applied Chemistry/Nanoscience/Material Science/Energy Studies/Energy Tech.
|All Categories||55% Marks|
|Events||Start Date||Last Date|
|Application Form||21/02/2020||14/09/2020 11:55 am|
|JMI Entrance Exam M.Tech. (Energy Sciences) 2020 Exam Date||
|Application Fee||Rs. 700/-|
General Instructions for filling up the Application Form
Students applying for the JMI Entrance Exam M.Tech. (Energy Sciences) 2020 have to fill up the application form on the official site.
A student can submit the application for only once; multiple forms will be rejected.
The submission is ONLINE only.
Requirements to be readied before you start filling up the Application Form of JMI Entrance Exam M.Tech. (Energy Sciences) 2020
Candidates are not allowed to make any correction at a later stage after submission of an application. O correction is entertained via post, fax, email or by hand.
The Usual Steps in filling up the Online Application Form of the JMI Entrance Exam M.Tech. (Energy Sciences) 2020
Step-1: Students have register for Online Application Form. A login and Password are created.
Step-2: Student has to Complete the Application Form and its various sections
Step-3: Required documents in the form of Scanned Images of Candidate’s Photograph, Candidate’s Signature.
Step-4: Payments have to be made by Net Banking, Credit Cards, Debit Cards & Demand Draft
Important Instructions Application Process
Syllabus for JMI Entrance Exam M.Tech. (Energy Sciences) 2020Basics of Energy Sciences
Energy Conversion, Energy Storage, and Energy Utilization; Conversional and Alternative Energy Sources, Renewable and Non-renewable Energy Sources, Fossil Energy, Hydro Energy, Wind Energy, Solar Energy: Solar Photovoltaic and Solar Thermal, Nuclear Energy, Geothermal Energy, Bio-fuel and Bio-mass, Fuel CellTechnology International Energy Scenario, Basics of National and International Energy Policies
Elementary Materials Science:
Bonding and cohesive energy, Crystalline and non crystalline materials, Miller and Miller-Bravais indices Point group, symmetries in crystals, Bravais lattices, Space group andspace group symmetries. Quasiperiodic lattices, Close packing of spheres. Structure of common metals, alloys, ionic, covalent and molecularcrystals. Limitations of classical theory of electrical conductivity and thermal conductivity, Matthiessen’s rule. Free electron theory, Somerfield theory of electrical conductivity, Energy bands in crystals, Brillouin zones Intrinsic and extrinsic semiconductors. Intrinsic carrier concentration. Carrier mobility. Impurity conduction. Elemental, compound (II-VI, III-V) and amorphous and organic semiconductors. Mechanical Properties of Materials:tensile strength, compressive strength, hardness, toughness, elasticity, plasticity, ductility, malleability Magnetic properties: Types of Magnetism. Ferromagnetic domains. Soft and hard magnetic materials. Measurement of magnetic susceptibility. Applications of magnetic materials. Superconductivity: Basic phenomenon. Type I and II superconducting materials. Applications of superconductors. Dielectric properties: Dielectric polarization. AC response. Breakdown strength. Measurement of complex dielectric constant. Applications of dielectrics. Thermal properties: Specific heat. Thermal conductivity. Thermal expansion. Thermal shock resistance. Thermoelectric effect. Optical Properties: Birefringence. Elementary ideas about nonlinear optics, photoelectric emission, photoconductivity and photoluminescence
Elementary Polymer Science
Classification of Polymers, Electroactive polymers, Electronic structures in crystallographically ordered conjugated polymers, Ferroelectric polymers (PVDF, etc), Liquid crystal polymers. Electronic properties of polymers, Mechanisms of charge transfer, Electrical conducting polymers like poly pyrrole, Polythiophene, Polyaniline their properties and applications, Polymers for molecular electronics, Optoelectronic properties of materials, Polymer composites and their properties.
Basics of Nanotechnology
Features of Nano-systems, Characteristic length scales of materials and their properties, Density of states in 1-D, 2-D and 3-D, Variation of density of states and band gap with crystal size, Quantum Confinement. Electronic, optical, magnetic and optoelectronic properties of nanomaterials, Carbonaceous Nanomaterials; Fullerenes, Graphene and Carbon Nanotubes: Properties and applications
Basics of Electrical Engineering:
Kirchhoff’s law, ideal and practical voltage and current sources. Mesh and Nodal analysis (Super node and super Mesh excluded). Source transformation. Star delta transformation. Superposition theorem, Thevenin’s theorem Norton’s theorem, maximum power transfer theorem,concept of cycle period, frequency, instantaneous, peak, average, r.m.s. values, peak factor and form factor, phasors, Single phase AC Circuits: Study of series and parallel R-L, R-C, R-L-C circuits, concept of impedance and admittance for different combinations, wave form and relevant voltage current phasor diagrams. Concept of active, reactive, apparent, complex power and power factor, resonance in series and parallel RLC circuit, Faraday’s law of electromagnetic induction, Maxwell’s Equations and their applications.
Elements of Mechanical Engineering:
Fundamental concepts and principles of engineering mechanics, Forces on particles, vector additionConcurrent forces in a plane, Free body diagram, Forces in space, Principles of transmissibility, Moment of a force, Varignon's theorem, Equivalent system of forces, Reduction of system of forces into single force and couple-Equipollent system of forces, Types of supports and corresponding reactions, Equilibrium of rigid bodies in two dimensions., Equilibrium of a two force body, Centre of Gravity, Rectilinear motion, D’Alembert’s principle, Principle of work and energy and its Applications, Conservative forces, Principle of impulse and momentum, Impulsive motion, Impact of elastic bodies. Thermodynamics laws and their applications; Enthalpy; Entropy associated with different processes; Gibbs and Helmholtz free energy; Criteria of equilibrium. Relationship between chemical and electrical driving forces, Nernst equation, concentration and formation of cells. Activation energy and its applications; Homogeneous and heterogeneous reactions; Factors affecting the heterogeneous reactions kinetics in solid – solid, solid – gas and solid – liquid systems; Rate controlling steps; Kinetic model equations.
Semiconductor Diodes and Applications, Bipolar Junction Transistors, BJT operation, BJT Voltages and Currents, BJT amplification, Common Base, Common Emitter and Common Collector Characteristics, Field Effect Transistors and their configurations. Operational Amplifiers, Ideal OPAMP, Inverting and Non Inverting OPAMP circuits, OPAMP applications: voltage follower, addition, subtraction, integration, differentiation. Digital Electronics: Introduction, Switching and Logic Levels, Digital Waveform, Number Systems, Boolean Algebra Theorems, De Morgan’s theorem, Digital Circuits
The Subjects included for JMI Entrance Exam M.Tech. (Energy Sciences) 2020 Exam are:
Syllabus Link: View/Download
Preparation for the Exam Day
Before entering the Exam Centre
After entering the centre
Result dates may be checked on the official webpage.
|Result URL||Check your result here|