To be issued by the head of the organization where the candidate works/is employed). The supervisor(s) will be allowed to visit the organization periodically to monitor and assess the research work of the candidate. JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD ENTRANCE TEST FOR ADMISSION TO PART-TIME RESEARCH PROGRAM 2017-18 Name of the Faculty Name of the Department/Subject External Programme.
The decision of the examination center chief inspector is final in all these matters. Candidates working in colleges affiliated to the universities are eligible to apply provided the place of research work is either the institution where they are working or the constituent college/unit of the university where necessary facilities are available. The list of supervisors and their respective specializations for each department is given in this notification for the benefit of the candidates seeking Ph.D/M.S admission in the academic year 2017-18.
In the case of part-time applicants working in the organizations, information must be provided about the availability of the necessary research facilities at the place of work. Part-time applicants who work in the company/organization/college must present a "No Objection Certificate" from the head of the organization on the organization's letterhead containing name, designation mobile no., e-mail of the person issuing the certificate for the candidate to undertake the research work, and permission for the supervisor from the university to periodically visit the organization to monitor and assess the candidate's research work. METHOD OF SELECTION: Based on the entrance test to be conducted by JNTUH and interview performance including the weightage of research publications and PPT presentation of the proposed research work.
The entrance examination schedule will be displayed on the JNTUH website www.jntuh.ac.in after the deadline.
Annexure - II
- Programming and Data Structures
- Computer Organization and Architecture
- Computer Networks
- Operating Systems and system Programming
- Automata, compilers and OOPS
- Data Base Management Systems
- Software Engineering
- Computer Graphics and Image Processing
- PHYSICAL CHEMISTRY
- SOLID STATE DEVICES & QUANTUM MECHANICS
- NANO TECHNOLOGY
- NANO MATERIIALS FOR ENERGY AND ENVIRONMENT AND NANO ETHICS
- PROGRAMMING IN C, DATA STRUCTURES & DISCRETE MATHEMATICS
- ELECTRONICS & CONTROL SYSTEMS
- WATER POLLUTION AND WASTEWATER TREATMENT
- FUNDAMENTALS OF GROUNDWATER HYDROLOGY
Air Pollution: Types of pollutants, their sources and impacts, air pollution meteorology, air pollution control, air quality standards and limits. Electromechanical energy conversion, performance analysis of all types of DC generators and DC motors. Logic Families, Bipolar Logic & Interfaces, Digital ICs: Standard 74xx & CMOS 40xx Series, Boolean Algebra, Combinational Circuits & Their Design, Design Using VHDL, Sequential Circuits & Their Design, Threshold Logic, 8085 & 8086 Microprocessor Architecture, Set instructions, addressing methods, 8051 microcontroller - architecture, modes of operation, interrupt structure, memory and I/O interfaces.
Comparison of PSK, FSK, ASK and QPSK in terms of BW and error probability, matched filter, optimal filter, coherent and incoherent reception, average information, Shannon's theorem, channel capacity, error detection and correction codes, fundamentals of communication optics, fiber types, attenuation , losses, dispersion, light sources and detectors. Thermodynamics and rate processes: laws of thermodynamics, activity, equilibrium constant, applications in metallurgical systems, solutions, phase equilibria, Ellingham and phase stability diagrams, thermodynamics of surfaces, interfaces and defects, adsorption and segregation; basic kinetic laws, order of reactions, rate constants and rate-limiting degrees; principles of electrochemistry - single-electrode potential, electrochemical cells and polarizations, aqueous corrosion and protection of metals, oxidation and high-temperature corrosion - characterization and control; heat transfer - conduction, convection and ratios of heat transfer coefficients, radiation, mass transfer - diffusion and Fick's laws, mass transfer coefficients; momentum transfer - concepts of viscosity, balance shells, Bernoulli's equation, friction factors. Mechanical metallurgy: Elasticity, yield strength and plasticity; defects in crystals; elements of dislocation theory - types of dislocations, slip and twins, origin and propagation of dislocations, stress fields around dislocations, partial dislocations, dislocation interactions and reactions; strengthening mechanisms; tensile, fatigue and creep; super-plasticity; fracture - Griffith theory, basic concepts of linear elastic and elastoplastic fracture mechanics, ductile to brittle transition, fracture toughness; error analysis; mechanical testing - tension, compression, torsion, hardness, impact, creep, fatigue, fracture toughness and deformability.
Machining mechanics, single and multi-point cutting tools, tool geometry and materials, tool life and wear; processing economy; principles of non-traditional processing processes; work holding principles, glass and equipment design principles. Bioprocess engineering: Principles of microbial growth, growth kinetics and substrate utilization in batches, fed batches and continuous systems. Unit-2: Catalysis: Types of catalytic reagents; Types of Catalysis; Theory of homogeneous catalysis; Theory of heterogeneous catalysis; Kinetics of heterogeneous reactions.
Unit-10: NMR spectroscopy: principles of NMR spectroscopy; Characteristics of a PMR spectrum such as number of signals, chemical shift, integration, spin-spin coupling etc. Unit-11: Mass Spectroscopy and ESR Spectroscopy: Basic Principles; Instrumentation – Electron – impact mass spectrometer; GC-MS and double focusing instruments; Types of ions in the mass spectrometer – Meta-stable peaks – Mass spectral fragmentation patterns of some selected class of organic compounds such as hydrocarbons, alcohols, acids, etc. Definition, scope and principles of ecology, physical, chemical, environmental factors and their relationships with organisms;.
Origin and age of the earth, internal constitution of the earth, geological processes, basic principles of structural geology, geomorphic cycle, definition and types of weathering, erosion cycle, denudation. CHEMICAL EQUILIBRIUM : Reversibility – Dynamic nature of equilibrium Kp, Kc and their interrelation, derivation of quantitative expression for equilibrium constants for some typical reactions, factors affecting equilibrium constants. GASEOUS STATE: Kinetic theory of gases – Derivation of kinetic equation and derivation of gas laws – Mean free path, collision number and diameter of collision – principles of energy balance – Heat capacities for mono, di and tri atomic molecules deviation from gas laws – Vander wall equation Critical phenomena – Isotherms of carbon dioxide – Determination of critical constants – Derivation of relation between Vander wall constants and critical constants – law of corresponding states and its utility/applications.
Energy characteristics - Basics of the environment, Assessment of the environmental impacts of nano materials used in energy and the environment, and their properties. Physics of semiconductor devices and their characteristics (BJT, JFET, MOSFET,. MESFET), photonic devices (LED, laser, photoconductor detectors and solar cells). Laser principles and characteristics – Einstein coefficient – Laser velocity equations – Principles of optical fibers – Numerical aperture – Acceptance angle – Fiber in communication.
Occurrence of groundwater in consolidated and unconsolidated formations – Types of aquifers, properties – porosity, specific yield, storage capacity, hydraulic conductivity and transmissivity – Darcy's law, groundwater management – artificial recharge methods, geological and geophysical exploration of groundwater, well logging wells, open wells, tube wells, construction of wells, groundwater modeling techniques.
Annexure – II
MANAGEMENT SCIENCE