2015-09-24



The Vellore Institute of Engineering Entrance Exam (VITEEE) to be conducted by Vellore Institute of Technology (VIT). The institute has published VITEEE 2016 syllabus at the official website, the link for which is vit.ac.in.
The candidates can check the syllabus mentioned below:
BIOLOGY
TaxonomyNeed  for  classification;  three  domains  of  life.  Linnaean,  Whittaker,  Bentham  and  Hooker systems of classification. Salient features of non-chordates up to phyla levels and chordates up to class levels
Cell and Molecular Biology
Cell  theory.  Prokaryotic cell and it's  ultra structure. Eukaryotic  cell-cell  wall,  cell  membrane, cytoskeleton,   nucleus,   chloroplast,   mitochondria,   endoplasmic   reticulum,   Golgi   bodies, ribosomes,  lysosomes,  vacuoles  and  centrosomes. Cell cycle  and division-amitosis,  mitosis and meiosis. Search for genetic material; structure of DNA and RNA; replication, transcription, genetic code, translation, splicing, gene expression and regulation (lac operon) and DNA repair
Reproduction

Asexual   reproduction-binary   fission,   sporulation,   budding,   gemmule   formation   and fragmentation. Vegetative  propagation in  plants, sexual  reproduction  in  flowering  plants and structure  of  flowers.  Pollination,  fertilization,  development  of  seeds  and  fruits, seed  dispersal, apomixis,  parthenocarpy and  poly-embryony.  Human reproductive  system. Gametogenesis, menstrual  cycle,  fertilization,  implantation,  embryo  development upto  blastocyst  formation, pregnancy, parturition and lactation. Assisted reproductive technologies.

Genetics and evolution Chromosomes-structure   and   types,   linkage   and   crossing   over,   recombination   of chromosomes,  mutation  and chromosomal  aberrations. Mendelian  inheritance,  chromosomal theory  of  inheritance,  deviation  from Mendelian  ratio  (incomplete  dominance,  co-dominance, multiple  allelism,  pleiotrophy), sex linked  inheritance  and  sex determination  in  humans. Darwinism, neo  Darwinism,  Hardy  and  Weinberg's  principle  and  factors  affecting  the equilibrium: selection, mutation, migration and random genetic drift.
Human health and diseases
Pathogens,  parasites  causing  human  diseases(malaria,  dengue,  chicken gunia,  filariasis, ascariasis, typhoid, pneumonia, common cold, amoebiasis, ring worm) and their control. Basic concepts  of  immunology,  vaccines,  antibiotics,  cancer,  HIV  and  AIDS.  Adolescence,  drug  and alcohol abuse.
BiochemistryStructure and function of carbohydrates, lipids and proteins. Enzymes-types, properties and enzyme action. Metabolism-glycolysis, Kreb'scycle and pentose phosphate pathway.
Plant physiologyMovement of water, food, nutrients, gases and minerals. Passive diffusion, facilitated diffusion, and  active  transport.  Imbibition, osmosis,  apoplast  and  symplast  transport  and guttation.Transpiration, photosynthesis   (light   and   dark   reactions)and   electron   transport   chain.
Hormones  and  growth regulators,  photo-periodism  and  vernalization.Nitrogen  cycle  andbiological nitrogen fixation.
Human physiologyDigestionand  absorption,  breathing  and  respiration,  body  fluids  and  circulation,  excretorysystem,endocrinesystem,  nervous  system,  skeletaland  muscular  systems. Locomotion  andmovement, growth, aging and death.Hormones-types of hormones, functions and disorders.
Biotechnology and its applications Recombinant  DNA  technology,  applications  in  health,  agriculture  and  industries;  genetically modified  organisms; Human  insulin,  vaccineand  antibiotic  production.  Stem  cell  technologyand gene therapy. Apiculture and animal husbandry. Plant breeding, tissue culture,single cellprotein, fortification, Bt  crops  and transgenicanimals.Microbes  in  food  processing,  sewage treatment, waste management and energy generation. Biocontrol agents and biofertilizers. Bio-safety issues, biopiracyand patents.
Biodiversity, ecology and environment Ecosystems:   components,   types,   pyramids,   nutrient   cycles   (carbon   and   phosphorous), ecological  succession  and energy  flow  in an ecosystem; Biodiversity-concepts,  patterns, importance,  conservation,  hot  spots,  endangered  organisms,  extinction, Red  data  book,botanical  gardens,  national  parks,  sanctuaries, museums, biosphere  reserves  and  Ramsarsites. Environmental issues: pollution and its control.Population attributes-growth, birth and death rate and age distribution.
Mathematics
Matrices and their ApplicationsAdjoint , inverse-properties, computation of inverses, solution of system of linear equations bymatrix inversion method.
Rank  of  a  matrix-elementary  transformation  on  amatrix,  consistency  of  a  system  of  linear equations, Cramer's rule, non-homogeneous  equations,  homogeneous  linear system  and rank method.Solution of linear programming problems (LPP) in two variables.
2.Trigonometry and Complex NumbersDefinition, range, domain, principal value branch, graphs of inverse trigonometric functionsand their elementary properties. Complex number system-conjugate,properties, ordered pair representation. Modulus-properties, geometrical representation, polar form,principal value, conjugate, sum, difference,  product,quotient,  vector  interpretation,  solutions  of  polynomial  equations, DeMoivre's theorem and its applications. Roots of a complex number-nthroots, cube roots, fourth roots.
3.Analytical Geometry of two dimensionsDefinition  of  a  conic-general  equation  of  a  conic,  classification  with  respect  to  the  general equation of a conic, classification of conics with respect to eccentricity.
Equations  of  conic  sections (parabola,  ellipse  and  hyperbola)  instandard forms  and  general forms- Directrix, Focus and Latus-rectum-parametric form of conicsandchords.-Tangents and  normals - Cartesianform  and  parametric  form-equation  of  chord  of  contact  of  tangents from a point (x1,y1) to all the above said curves.
Asymptotes, Rectangular hyperbola-Standard equation of a rectangular hyperbola.
4.Vector AlgebraScalar  Product-angle  between  two  vectors,  properties  of  scalar  product, and  applications of dot  product. Vector product, right  handed  and  left  handed  systems,  properties  of  vector product, applications of cross product.
Product of three vectors-Scalar triple product, properties of scalar triple product, vector tripleproduct, vector product of four vectors, scalar product of four vectors.
5.Analytical Geometry of Three DimensionsDirection  cosines-direction ratios-equation  of a straight line passing through  a given pointand parallel to a givenline, passing through two given points, angle between two lines.
Planes-equation of a plane, passing through a given point and perpendicular to aline, giventhe distance from the origin and unit normal, passing through a given point and parallel to two given lines, passing through two given points and parallel to a given line, passing through threegiven  non-collinear  points,  passing  through  the  line  of  intersection  of  two  given  planes,  thedistance  between  a  point  and  a  plane,  the  plane  which  contains  two  given  lines (co-planarlines), angle between a line and a plane.
Skew  lines-shortest  distance  between  two  lines,  condition  for  two  lines  to  intersect,  point  of intersection, collinearity of three points.
Sphere-equation of the sphere whose centre and radius are given, equation of a sphere when the extremities of the diameter are given.
Differential CalculusLimits,  continuity  and  differentiability  of  functions-Derivative as  a rate  of  change,  velocity, acceleration, related rates, derivative as a measure of slope, tangent, normal and angle between curves.
Mean  value  theorem- Rolle's  Theorem,  Lagrange Mean  Value  Theorem,Taylor's and Maclaurin's  series,  L'Hospital's  Rule,  stationary  points,  increasing,  decreasing,  maxima,minima, concavity, convexity and points of inflexion.
Errors  and  approximations-absolute,  relative,  percentage  errors-curve  tracing,  partialderivatives,Euler's theorem.
7.Integral Calculus and its ApplicationsSimple definite integrals-fundamental theorems of calculus, properties of definite integrals.
Reduction formulae-reduction formulae,Bernoulli's formula.
Area of bounded regions, lengthof the curve.
8.Differential Equations Differential equations-formation of differential equations, order and degree, solving differential equations (1storder),variables separable, homogeneous andlinear equations.
Second  order  linear differential equations-second  order  linear differential  equations  with constant co-efficients, finding the particular integral if f(x)=emx, sin mx, cos mx, x, x2.
9.Probability DistributionsProbability-Axioms-Addition law-Conditional probability-Multiplicative law-Baye's Theorem-Random variable-probability density function, distribution function, mathematical expectation, variance
Theoretical distributions-discrete distributions, Binomial, Poisson distributions-Continuous distributions, Normal distribution.
10.Discrete Mathematics Functions-Relations-Basics of counting.
Mathematical logic-logical   statements,   connectives,truth   tables, logical   equivalence, tautology, contradiction. Groups-binary  operations, semi  groups, monoids,  groups, order  of  a  group,order of  anelement, properties of groups.
Chemistry
Atomic Structure
Bohr's atomic model-Sommerfeld's extension of atomic structure; Electronic configuration and Quantum numbers; Shapes of s,p,d,f orbitals - Pauli's exclusion principle - Hund's Rule of maximum multiplicity- Aufbau principle. Emission spectrum, absorption spectrum, line spectra and band spectra; Hydrogen spectrum - Lyman, Balmer, Paschen, Brakett and Pfund series; deBroglie's theory; Heisenberg's uncertainty principle - wave nature of electron - Schrodinger wave equation (No derivation). Eigen values and eigen functions. Hybridization of atomic orbitals involving s,p,d orbitals.

2.  p,d and f - Block Elements
p-block elements - Phosphorous compounds; PCl3, PCl5 - Oxides. Hydrogen halides, Inter halogen compounds. Xenon fluoride compounds. General Characteristics of d - block elements - Electronic Configuration - Oxidation states of first row transition elements and their colours. Occurrence and principles of extraction: Copper, Silver, Gold and Zinc. Preparation, properties of CuSO4, AgNO3 and K2Cr2O7.
Lanthanides - Introduction, electronic configuration, general characteristics, oxidation state - lanthanide contraction, uses, brief comparison of Lanthanides and Actinides.

3.  Coordination Chemistry and Solid State Chemistry
Introduction - Terminology in coordination chemistry - IUPAC nomenclature of mononuclear coordination compounds. Isomerism, Geometrical isomerism in 4-coordinate, 6-coordinate complexes. Theories on coordination compounds - Werner's theory (brief), Valence Bond theory. Uses of coordination compounds. Bioinorganic compounds (Haemoglobin and chlorophyll).
Lattice - unit cell, systems, types of crystals, packing in solids; Ionic crystals - Imperfections in solids - point defects. X-Ray diffraction - Electrical Property, Amorphous solids (elementary ideas only).

Thermodynamics, Chemical Equilibrium and Chemical Kinetics
I and II law of thermodynamics - spontaneous and non spontaneous processes, entropy, Gibb's free energy - Free energy change and chemical equilibrium - significance of entropy. Law of mass action - Le Chatlier's principle, applications of chemical equilibrium. Rate expression, order and molecularity of reactions, zero order, first order and pseudo first order reaction - half life period. Determination of rate constant and order of reaction . Temperature dependence of rate constant - Arrhenius equation, activation energy.

5.  Electrochemistry
Theory of electrical conductance; metallic and electrolytic conductance. Faraday's laws - theory of strong electrolytes - Specific resistance, specific conductance, equivalent and molar conductance - Variation of conductance with dilution - Kohlrausch's Law - Ionic product of water, pH and pOH - buffer solutions - use of pH values. Cells - Electrodes and electrode potentials - construction of cell and EMF values, Fuel cells, Corrosion and its prevention.
6.  Isomerism in Organic Compounds
Definition, Classification - structural isomerism, stereo isomerism - geometrical and optical isomerism. Optical activity- chirality - compounds containing chiral centres - R - S notation, D - L notation.

7.  Alcohols and Ethers
Nomenclature of alcohols - Classification of alcohols - distinction between 10, 20 and 30 alcohols - General methods of preparation of primary alcohols, properties. Methods of preparation of dihydric alcohols: Glycol - Properties - Uses. Methods of preparation of trihydric alcohols - Properties - Uses. Aromatic alcohols - preparation and properties of phenols and benzyl alcohol.
Ethers - Nomenclature of ethers - general methods of preparation of aliphatic ethers - Properties - Uses. Aromatic ethers - Preparation of Anisole - Uses.

8.  Carbonyl Compounds
Nomenclature of carbonyl compounds - Comparison of aldehydes and ketones. General methods of preparation of aldehydes - Properties - Uses. Aromatic aldehydes - Preparation of benzaldehyde - Properties and Uses. Ketones - general methods of preparation of aliphatic ketones (acetone) - Properties - Uses. Aromatic ketones - preparation of acetophenone - Properties - Uses, preparation of benzophenone - Properties. Name reactions; Clemmenson reduction, Wolff - Kishner reduction, Cannizzaro reaction, Claisen Schmidt reaction, Benzoin Condensation, aldol Condensation. Preparation and applications of Grignard reagents.

9.  Carboxylic Acids and their derivatives
Nomenclature - Preparation of aliphatic monobarboxylic acids - formic acid - Properties - Uses. Monohydroxy mono carboxylic acids; Lactic acid - Synthesis of lactic acid. Aliphatic dicarboxylic acids; Preparation of oxalic and succinic acid. Aromatic acids; Benzoic and Salicylic acid - Properties - Uses. Derivatives of carboxylic acids; acetyl chloride (CH3COCl) - Preparation - Properties - Uses. Preparation of acetamide, Properties - acetic anhydride - Preparation, Properties. Preparation of esters - methyl acetate - Properties.

10. Organic Nitrogen Compounds
Aliphatic nitro compounds - Preparation of aliphatic nitroalkanes - Properties - Uses. Aromatic nitro compounds - Preparation - Properties - Uses. Distinction between aliphatic and aromatic nitro compounds. Amines; aliphatic amines - General methods of preparation - Properties - Distinction between 10, 20 and 30 amines. Aromatic amines - Synthesis of benzylamine - Properties, Aniline - Preparation - Properties - Uses. Distinction between aliphatic and aromatic amine. Aliphatic nitriles - Preparation - properties - Uses. Diazonium salts - Preparation of benzene diazoniumchloride - Properties.
Physics:
Laws of Motion & Work, Energy and PowerLaw of conservation of linear momentum and its applications. Static and kinetic friction-laws of friction-rolling friction-lubrication.
Work done by a constant force and a variable force; kinetic energy-work-energy theorem-power.
Conservative forces: conservation of mechanical energy (kinetic and potential energies)-non-conservative forces: motion in a vertical circle-elastic and inelastic collisions in one and two dimensions.
2.Properties of MatterElastic  behaviour-Stress-strain  relationship-Hooke's  law-Young's  modulus-bulk  modulus-shear modulus  of  rigidity - Poisson's  ratio-elastic  energy.  Viscosity-Stokes'  law-terminal  velocity-streamline and turbulent flow-critical velocity. Bernoulli's theorem and its applications.
Heat-temperature-thermal  expansion: thermal  expansion  of  solids-specific  heat  capacity: Cp,Cv-latent heat capacity. Qualitative ideas of Blackbody radiation: Wein's displacement Law-Stefan's law.
3.Electrostatics Charges and their conservation;
Coulomb's law-forces between two point electric charges-Forces between multiple electric charges-superposition principle. Electric field-electric field due to a point charge, electric field lines; electric dipole, electric field intensity due to a dipole - behaviour of a dipole in a uniform electricfield.Electric  potential-potential  difference-electric  potential  due  to  a  point  charge  and  dipole-equipotential surfaces-electrical potential energy of a system of two point charges.
Electric  flux-Gauss's theorem and its applications. Electrostatic  induction-capacitor  and  capacitance-dielectric  and  electric  polarisation-parallel  plate  capacitor  with  and  without  dielectric  medium-applications  of  capacitor-energy  stored  in  a  capacitor-Capacitors  in  series  and  in  parallel-action  ofpoints -Van de Graaff generator.
4.Current Electricity Electric  Current-flow  of  charges  in  a  metallic  conductor-drift  velocity  and  mobility  and  their  relationwith  electriccurrent. Ohm's  law,  electrical  resistance-V-I  characteristics-electrical  resistivity  and conductivity-classification of materials in terms of conductivity-Carbon resistors-colour code for carbon resistors-combination of resistors-series and parallel-temperature dependence of resistance -internal resistance of a cell-potential difference and emf of a cell-combinations of cells in series and in parallel.
Kirchoff's  law-Wheatstone's  Bridge  and  its  application  for  temperature  coefficient  of  resistance measurement - Metrebridge -special case of Wheatstone bridge -Potentiometer principle-comparing the emf of two cells.
5.Magnetic Effects of Electric Current Magnetic  effect  of  electric  current-Concept  of  magnetic  field-Oersted's experiment-Biot-Savart  law-Magnetic  field  due  to  an  infinitely  long  current  carrying  straight  wire  and  circular  coil-Tangent galvanometer-construction and working-Bar magnet as an equivalent solenoid-magnetic field lines.
Ampere's circuital law and its application. Force on a moving charge in uniform magnetic field and electric field-cyclotron- Force  on current carrying conductor in a  uniform magnetic field-Forces  between two parallel current carrying  conductors - definition of ampere.Torque experienced by a current loop in a uniform magnetic field-moving coil galvanometer - conversion to ammeter and voltmeter-current loop as a magnetic dipole and its magnetic dipole moment- Magnet icdipole moment of a revolving electron.
Electromagnetic Induction and Alternating CurrentElectromagnetic induction-Faraday's law-induced emf and current -Lenz's law.Self induction - Mutual induction - self  inductance  of  a  long  solenoid-mutual  inductance  of  two  long  solenoids. Methods  of inducing  emf-(i)  by  changing  magnetic  induction  (ii)  by  changing  area  enclosed  by  the  coil  and(iii)  by changing the orientation of the coil (quantitative treatment).
AC  generator-commercial  generator.  (Single  phase,three  phase).Eddy  current-applications-transformer-long  distance  transmission. Alternating  current-measurement  of  AC-AC  circuit  with resistance-AC circuit with inductor -AC circuit with capacitor - LCR series circuit-Resonance and Q-factor-power in AC circuits.
7.Optics Reflection  of  light,  spherical  mirrors,  mirror  formula.  Refraction  of  light,  total  internal  reflection  and  its applications,  optical  fibers,  refraction  at  spherical  surfaces,  lenses,  thin  lens  formula,  lens  maker's formula. Magnification, power of a lens, combination of thin lenses in contact, combination of a lens and a mirror.  Refraction  and  dispersion  of  light  through  a  prism.Scattering  of  light-blue  colour  of  sky  and reddish appearances of the sun at sunrise and sunset.
Wavefront and Huygens's principle-Reflection, total internal reflection  and refraction  of plane  wave at a plane  surface  using  wavefronts. Interference-Young's double slit experiment and expression for fringe width-coherent  source-interference  of  light-Formation  of  colours  in  thin  films-Newton's  rings. Diffraction-differences  between  interference  and  diffraction  of  light-diffraction  grating.Polarisation  of light  waves-polarisation  by  reflection-Brewster's law-double  refraction -nicol  prism-uses  of  plane polarised light and Polaroids-rotatory polarisation - polarimeter.
8.Dual Nature of Radiation and Atomic PhysicsElectromagnetic  waves  and  their  characteristics-Electromagnetic  spectrum-Photoelectric  effect - Light waves and photons-Einstein's photoelectric equation-laws of photoelectric emission-particle nature of light - photo cells and their applications.
Atomic  structure-discovery  of  the  electron-specific  charge  (Thomson's  method)  and  charge  of  the electron (Millikan's oil drop method)-alpha scattering-Rutherford's atom model.
9.Nuclear PhysicsNuclear properties-nuclear radii, masses, binding energy, density, charge-isotopes, isobars and isotones -nuclear mass defect-binding energy-stability of nuclei -Bainbridge mass spectrometer.
Nature of nuclear forces-Neutron-discovery-properties-artificial transmutation-particle accelerator. Radioactivity-alpha, beta and gamma radiations and their properties-Radioactive decay law-half life-mean life-artificial radioactivity-radio isotopes-effects and uses-Geiger-Muller counter. Radio carbondating. Nuclear fission-chain reaction-atom bomb-nuclear reactor-nuclear fusion-Hydrogen bomb-cosmic rays-elementary particles.
10. Semiconductor Devices and their ApplicationsSemiconductor basics-energy band in solids: difference between metals, insulators and semiconductors-semiconductor  doping-Intrinsic  and  Extrinsic  semiconductors. Formation  of  P-N  Junction- Barrier potential and  depletion  layer-P-N  Junction  diode-Forward  and  reverse  bias  characteristics-diode  as  a rectifier-Zener  diode-Zener  diode  as  a  voltage  regulator-LED.Junction  transistors-characteristics-transistor as a switch-transistor as an amplifier - transistoras anoscillator.
Logic gates-NOT, OR, AND, EXOR using discrete components-NAND and NOR gates as universal gates-De Morgan's theorem -Laws and theorems of Boolean algebra.

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