Jamia Millia Islamia Entrance Exam for M.Tech. (Earthquake Engg.) 2020 or JMI Entrance Exam M.Tech. (Earthquake Engg.) 2020 is the entrance examination for admission to M.Tech. (Earthquake Engg.). JMI Entrance Exam M.Tech. (Earthquake Engg.) 2020 is conducted by Jamia Millia Islamia University.
JMI Entrance Exam M.Tech. (Earthquake Engg.) 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.
|All Categories||60% Marks|
|Events||Start Date||Last Date|
|Application Form||21/02/2020||14/09/2020 11:55 am|
|JMI Entrance Exam M.Tech. (Earthquake Engg.) 2020 Exam Date||
|Application Fee||Rs. 700/-|
General Instructions for filling up the Application Form
Students applying for the JMI Entrance Exam M.Tech. (Earthquake Engg.) 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. (Earthquake Engg.) 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. (Earthquake Engg.) 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. (Earthquake Engg.) 2020
Mechanics of Solids
Stress and Strain, Stress-Strain diagtums for different materials; Mechanical properties of materials, Saint Vainant's principle, principle of superposition, bars Of uniform and variable cross sections, compound/ composite bars, temperature Stresses. Analysis of stress & strain, plane stress & plane strain, Mohr's circle; Strain Rosettes; Hooke's law, elastic constants and their relationships. Shear Force and Bending Moment; Thin and thick cylindrical shells; Torsion: circular and non-circular shafts; Simple theory of bending, shear Stresses in beams: Unsymmetrical bending; Short compression members: middle third rule, core or kernel; Long columns: Euler'S. Rankine'S and Secant formulae. Deflection: Double integration and Macaulay's method, moment area method, conjugate beam method; Energy methods, Law of conservation of energy, virtual work on rigid and elastic bodies; Betti's law and Maxwell's law Of reciprocal deflection; Method Of virtual work, unit load method, Castigliano•s theorems.
Civil Engineering Materials
Cement: types of Portland cement, pozzolanic Cement, hydration mechanism and hydration products, grade of cement, tests On cements, relevant IS codes. Plain concrete; additives and their types, concrete mix design; Reinforced cement concrete, prestressed Concrete, polymer concrete, fiber reinforced concrete; Ferro-cement; ready mix concrete; self compacting concrete; Other Materials: Fly-ash, smart materials, composite materials. Timber: Structure of wood, defects in timber, seasoning, preservation.
Stability and static determinacy & indeterminacy; 3-hinged parabolic & circular arches, spandrel braced arches, 2-hinged arches and fixed arches; Deflection Of pin-jointed plane trusses, rigid frames, due to loads and temperature variation; fabrication error and camber; Influence Line Diagrams and Muller Breslau Principle for determinate and indeterminate structures. Analysis of cables and suspension bridges with three & two hinged stiffening girders; Three Moment Theorem; Slope deflection method; Moment distribution method; Column analogy method; Substitute frames, cantilever and portal method; Force/ flexibility methods, stiffness/displacement methods; Plastic analysis Of steel Structures: yield moment and plastic moment, shape factor and methods Of analysis, Gable frames or frames with inclined members, two bay portal frames; Structural Dynamics: Simple harmonic motion, free vibrations, damping, mass and stiffness.
Design of Structures
Steel: Limit State Design; bolted and uelded connections; Design of tension and compression members; Design Of Slab base and gusseted base; Design of beams; Design Of plate girder, gantry girder and roof trusses. Concrete: Design philosophies — Working stress and limit state; Design Of singly/ doubly rectangular and flanged beam sections in flexure, shear and torsion; Design of one way and two way slabs; Flexural and anchorage bond stress, development length and anchorage length; Design of short columns under axial compression and uni-axial bending; Design Of isolated and combined footings. Pre-stressed concrete: methods and systems, anchorages, pre-stress losses, analysis and design of sections for flexure by working stress method.
Origin and formation of soils, classification of soils, permeability Of soils, stress distribution, shear strength, lateral earth pressure, stability of Slopes, site investigations, soil stabilization, bearing capacity of soils, types Of foundation.
The Subjects included for JMI Entrance Exam M.Tech. (Earthquake Engg.) 2020 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|