FOR ADMISSION TO DEGREE PROGRAMME, 2010
PATTERN OF SET-III
SLIET Entrance Test SET-III for admission to Degree Programme will consist of two papers each of two hours duration. Paper-I : This paper will have 100 objective type questions of 100 marks from English, General Knowledge, Mental Aptitude, Mathematics, Physics and Chemistry.
Paper-II : This paper will also consist of 100 objective type questions of 100 marks from Basics of Engineering.
Note : In both the papers candidate is required to attempt all the questions. Answers of the objective type questions
are to be filled in the OMR answer sheet given separately. There will not be any negative marking.
SYLLABUS AND MODEL QUESTIONS
PAPER-I
Marks: 100 Time: 2 Hours
GENERAL KNOWLEDGE, MENTAL APTITUDE & ENGLISH
Marks: 25 (25 Questions)
S! yllabus :
The paper will include questions covering the following topics:-
1. General Science
2. Current events of National and International importance
3. History of India
4. Indian Politics and Economy
5. Indian National Movement and also General Mental ability
6. Idioms/Phrases
7. Usage of Tenses
MATHEMATICS
Marks: 25 (25 Questions)
Syllabus :
Algebra : Solution of quadratic equations, relationship between their roots and coefficients. Equations reducible to quadratic equation. Symmetric Functions of roots. Formation of a quadratic equation with given roots. Arithmetic progression, Geometric progression and Arithmetico-Geometric series. Series of natural numbers (∑ n, ∑ n2, ∑ n3). Mathematical induction. Permutations and Combinations. Binomial theorem for any index.
Trigonometry : Trigonometric ratios and their ! relations. Trigonometric Identities. T-ratios of allied angles! . Additi on and Subtraction formulae. Transformation of product into sum or difference and vice-versa. T-ratios of multiple and sub-multiple angles. Heights and distances. Solution of Trigonometric Equations. Solution of Triangles.
Coordinate Geometry : Rectangular Cartesian coordinates. Distance between two points. Section formulae. Locus of a
point. Equation of a straight line in various forms. Angle between two given lines. Condition for two lines to be parallel or
perpendicular. Distance of a point from a line. Line through point of intersection of two given lines. Concurrency of lines.
Equation of a circle in various forms including parametric form. Intersection of a circle with a straight line. Equations of
tangent and normal to a circle. Intersection of two circles. Equations of the parabola, ellipse and hyperbola in the standard
forms & parametric forms.
Calculus : Function, its domain and range. Limit, continuity and! differentiability of a function. Derivative of sum, difference,
product and quotient of two functions. Derivative of algebraic, trigonometric, exponential, logarithmic, hyperbolic and
Inverse trigonometric functions. Chain rule. Derivative of functions expressed in implicit and parametric forms. Logarithmic
differentiation. Maxima & Minima, Rate measure & Error. Equation of tangent and normal. Integration as the inverse
process of differentiation. Integration by parts, by substitution and by partial fractions. Integration of rational and irrational
functions. Definite integral and its application for the determination of area (simple cases). Trapezoidal & Simpson’s Rule
for numerical integration.
CHEMISTRY
Marks: 25 (25 Questions)
Atoms, Molecules and Chemical Arthmatic : Symbols, formulae, oxidation, reduction, oxidation number, balancing of simple chemical equations, mole concept,! empirical formulae and molecular formulae.
Chemical fam! ilies - Periodic Properties: Mendeleev’s and Modern periodic tables, classification of elements into s, p, d and f blocks, periodic properties (ionization potential, electron affinity, atomic and ionic radii, oxidation states).
Atomic Structure, Bonding and Molecular Structure: Bohr’s theory, brief description of hydrogen spectrum, the wave nature of matter, de-Broglie’s theory, Uncertainty principle, Quantum numbers, Pauli’s exclusion principle, Hund’s rule of maximum multiplicity, shapes of orbitals, electronic configuration of atoms upto atomic no. 30. Types of bonding (ionic, covalent and co-ordinate covalent), Lewis structure, VSEPR theory, orbital overlap and molecular shapes, hybridization (sp, sp2 and sp3) and molecular structure, hydrogen bond, metallic bond, Vander Walls forces.
PHYSICS
Marks: 25 (25 Questions)
Description of Motion : Motion in a straight line, uniform motion, speed a! nd velocity, equation of motion in a straight line, position time graph, instantaneous velocity and acceleration, motion in two dimensions, projectile motion, uniform circular motion, torque, angular momentum, conservation of angular momentum, centripetal and centrifugal forces, centre for mass, motion of centre of mass and momentum conservation.
Moment of Inertia: Moment of Inertia (M.I.) of rigid body, radius of gyration, theorem of parallel and perpendicular axes, M.I. of a straight rod, circular ring, circular disc, relation between torque and M.I., kinetic energy, motion of point mass tied string to the wound on a cylinder, motion of cylinder rolling without slipping on an inclined plane.
Kinetic Theory of Gasses: Boyle’s and Charles’s laws, gas equation, gas constant, pressure exerted by gas, kinetic energy of molecules, kinetic interpretation of temperature, derivation of gas laws from kinetic theory of gases. Electromagnetic Waves, Atomic and! Nuclear Physics: Production and properties of e.m. waves, spe! ctrums, nature and velocity of e.m. waves, propagation of radio waves in earth’s atmosphere, photoelectric effect, laws of photoelectric effect, production of x-rays, soft and hard x-rays, uses of x-rays, Radio activity laws, half life and average life for radioactive materials, nuclear fission and fusions.
Objective Type Questions
Fill the choice of the alternative you think to be correct answer in the OMR answer sheet.
Q1. A ball thrown up is caught by the thrower 4s after start. The height to which the ball has risen is
(assuming g =10 m/s2)
(a) 20 m (b) 10m (c) 400m (d) 2m
Q2. What determines the nature of path followed by the particle?
(a) speed (b) velocity (c) acceleration (d) none of these
PAPER-II
BASICS OF ENGINEERING
Marks : 100 (100 Questions) Time : 2 hours
COMPUTER SCIENCE AND ENGINEERING/INFORMATION TECHNOLOGY
Introduct! ion to Computer: Block diagram, basic components, concept of primary and secondary memories,
working of hard disk and magnetic tape, input/output devices; Operating System: Introduction to various
operating systems, single user, multiuser, batch processing, time sharing, real time, multiprogramming and
multiprocessing systems, distributed computing, resources management, memory management ; System
Software: Introduction, system software, application software, compilers, assemblers, loaders, linkers;
Application Development: Algorithms and flowcharts, program writing, debugging and execution, compilation,
interpretation, programming using C language, Object Oriented Programming concepts; Information
Technology: Introduction to IT, Internet and its applications, web browser, E-mail; Data management and
organization: Introduction to databases, architecture and structure of DBMS, data models, introduction to ! data
structure, arrays, linked list, stacks and queues; ! Networki ng: Applications, introduction to OSI and TCP/IP,
Networking topologies/technologies; Latest Technologies: Latest processor and memory configurations and
related technologies.
ELECTRONICS AND COMMUNICATION ENGINEERING
Conductors, semiconductors, insulators, Extrinsic & Intrinsic semiconductors. PN Junction Diode - its VI
characteristics Rectifiers, filters. BJT - various transistor configurations their input/output characteristics. FET, MOSFET their construction & characteristics. Modulation - Need & types of modulation (AM, FM, PM). Radio Receivers - TRF & superheterodyne. Pulse modulation PAM, PWM, PPM. Logic gates - Definition, symbols & truth table of NOR, OR, AND, NAND, EX-OR gates, various Flip Flops (SR, JK, T, D), Registers & counters. Operational Amplifier - Inverting & Non inverting amplifiers, Op Amp as an inverter, scale changer, adder, subtractor, differentiator, integrator.
ELECTRICAL AND INSTRUMENTATION ENG! INEERING
AC fundamentals: single phase, rms value, peak to peak value, average value. RL, RC & RLC circuits, Power & Power factor, power measurement. DC& AC Bridges: Wheatstone bridge, Maxwell’s Bridge, De-Sauty’s Bridge, Owen’s Bridge, Kelvin’s Double Bridge, Hay Bridge. Network Theorems: Thevenin’s, superposition, Norton, maximum power, reciprocity and Tellegen’s theorems. Electromagnetic & Magnetic circuits: Principle of AC & DC machines and Transformers. DC Circuits: Circuit components (resistor, inductor and capacitors) and DC Circuits resonance. Error in measurement system, Galvanometer, PMCC and Moving iron instruments, DC potentiometers, Multimeter, LED/LCD/Segment Displays, CRO, Basic components of instrumentation system, sensor & transducer, resistive, capacitive & inductive transducers. Signal Conditioning: A/D and D/A converters, filtering and impedance matching, operational amplifiers.
Ther! mal Engi neering: Basic concepts, thermodynamic properties: intrinsic and extrinsic, open, closed and
isolated systems, heat and work, specific heat, thermal and thermodynamic equilibrium, Zeroth law and first law of
thermodynamics, internal energy, entropy, enthalpy. Clausius and Kelvin-Plank statement of second law, different
thermodynamic processes like isobaric, isochoric, isothermal. Elements of heat transfer, conduction, convection,
radiation.
Applied Mechanics, Strength of Material and Machine Design: Concept of mechanics and applied mechanics,
laws of forces, moments, friction and laws of motion. Stress & strain, concept of load, tensile, compressive and
shear stress and strains, stress concentration, types of loading, theories of failure, factor of safety, endurance
limit, efficiency of riveted and welded joints, keys and its types, stress in shafts, design of shafts (solid and
hollow).
Manufacturing Engineering & Management: Introduction and classification of engineering materials, thermal,
chemical, electrical and mechanical properties of commonly used engineering materials. Purpose of heat
treatment, hardening, case hardening, annealing, normalizing, tempering, heat treatment processes and their
applications. Arc and gas welding processes, patterns, cores, basic foundry processes and powder metallurgy.
Different machining operations, principles of operations, cutting tools and machine tools used to carry out turning,
milling, drilling, shaping & planning operations. Quality control, control charts,! acceptance sampling, TQM.
Plant location, layout and li! ne balan cing. Types of plant layouts. Inventory control, Inventory classification, and
EOQ and ABC analysis.
CHEMICAL ENGINEERING
Chemical Engineering Thermodynamics: Laws of thermodynamics, thermodynamic properties, general thermodynamic relationships. Application for open/closed systems and reversible/irreversible processes. Chemical reaction equilibrium.
Chemical Reaction Engineering: Molecularity and order of reaction, reaction kinetics, different types of ideal reactors and their performance equations.
Heat Transfer: Different modes of heat transfer with governing relationships. Heat transfer equipments and their industrial applications.
Mass Transfer: Mass transfer operations and their applications. Molecular diffusion, eddy diffusion, diffusion in
solids. Concept of distillation, crystallization, drying, absorption, equipment for separation and industrial
application.
Fluid flow: Fluid properties and their relationship to flow. Different type of pumps.
Material and Energy balance: Material and energy balance calculation in processes with recycle/bypass/purge. Chemical Process Industries: Raw material and process description for the manufacturing of ammonia, urea, ammonium phosphate, cement, soda ash, caustic soda, glass, sulphuric acid, hydrochloric acid and nitric acid. Degree of polymerization, types of polymerization, classification of rubbers, vulcanization of rubber. Classification and composition of crude petroleum. Raw material and various additives for paper industry. Raw material for the manufacturing and composition of oils and fats.
Process Instrumentations: Instruments for temperature, pressure, liquid level, flow and pH measurement.
Environmental Engineering and Safety: Different types of liquid, air an! d solid pollutions from industries, effect of chemical polluti! on on ec ology and environment. Pollution control methods. Hazards from wastes, toxic gases, chemicals; symptoms and their remedial action. Fire, noise pollution in industry and their control.
FOOD TECHNOLOGY
Different methods of heat transfer, Fourier’s law, Steady state heat transfer through plain and composite slab,
Cylindrical and spherical surfaces, Natural and forced convection, LMTD and effectiveness of parallel and counter
flow heat exchanger, Radiation heat transfer, Fick’s law of diffusion and basic concepts of convective mass
transfer, Moisture content on dry and wet basis, Equilibrium moisture content, Constant and falling rate phase
calculations, Critical moisture content, Concept of psychrometry and its use, Refrigeration cycles, Load
calculations, Physical properties of fluid, Classification of fluid flow, Continuity equation, Bernoulli’s theorem and its
application, Concept of! Reynold’s number and its determination, Navier-Stokes equation, Flow through parallel plates
and circular pipes, Study and performance of different type of pumps like centrifugal, reciprocating, rotary and
piston displacement pumps, valves and joints, Concept of viscosity, Newtonian and non-Newtonian fluids,
Calculation of energy required in grinding by Ritinger’s law and Bond’s law, Crushing efficiency, Mixing index, Rate of
mixing, Constant rate filtration, constant pressure filtration, Filter cake compressibility, Ultrafilteration and reverse
osmosis, Basic Separation equation, Rate of separation, liquid-Liquid separation, Centrifuge equipment like cream
separator, Bactofuge and clarifiers used in dairy industry, crystallization, Separation based on size, Effectiveness
of screens, Fineness modulas of sample, Raoult’s Law, Relative volatility, Azeotropic and extractive distillation,
Simple (different! ial) distillation, Rectification (Fractionating column) distil! lation. Thermal processing, general methods
for calculation of process time.
mole concept numericals
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