BEEE Syllabus 2017 Check Updated Entrance Exam Pattern, Study Material - Sarkari Naukri Career

Monday, 6 February 2017

BEEE Syllabus 2017 Check Updated Entrance Exam Pattern, Study Material

BEEE Exam Syllabus
BEEE Syllabus 2017 is uploaded here, Candidates who are going to appear for the Bharath University Engineering Entrance Examination 2017 is an exam for admitting the candidates to the undergraduate engineering programmes (B.Tech degree Programme) of the Bharath University, Chennai, Tamilnadu. Candidates need Proper Preparation Planning to attend the Competitive Exam.
BEEE phase-II paper and pencil based exam will be held on Sunday, April 16, 2017 and online mode will be conducted from Sunday, April 16, 2017 to Tuesday, April 25, 2017.


 A huge number of candidates has applied for the BEEE Examination 2017 and now searching for Syllabus 2017 are get the all important and update data about Syllabus with Exam Pattern from here on this page. So you can download and prepare for the written test with the exam previous papers to crack the exam.

Bharath University Engineering Entrance Examination Syllabus
Organization Name
Bharath University, Chennai, Tamil Nadu
Exam  Name
Bharath University Engineering Entrance Examination
Application Mode
Online
Official Website
bharathuniv.ac.in
Category
Syllabus


Exam pattern:
·         The questions shall be multiple choice objective type questions.
·         The questions shall be from physics, chemistry, maths, English and biology.
·         There will not be negative marking for wrong answered questions.
Subject
No. of Questions
Marks
English
10
10
Physics
30
30
Chemistry
30
30
Maths / Biology(Only for Biology Students)
30
30
Total
100
100

BEEE Syllabus 2017 for Physics
UNIT 1: Units and Measurement

Units for measurement, system of units – S.I., fundamental and derived units, measurements – errors in measurement – significant figures, dimensions – dimensional analysis – applications.

UNIT 2: Mechanics
Motion in one dimension – uniform and non-uniform motion – uniformly accelerated motion – scalar and vector quantities – Newton’s laws of motion – force and inertia – impulse and momentum – law of conservation of linear momentum – applications – motions in two dimension – projectile motion – uniform circular motion – friction – laws of friction applications centripetal force – centre of mass – torque – angular momentum and its conservation – moment of inertia – theorems of moment of inertia – work energy – potential energy and kinetic energy – power – collision – elastic and inelastic collisions.

UNIT 3: Gravitation, Mechanics of Solids and Fluids
The universal law of gravitation, acceleration due to gravity-variation of ‘g’ with altitude, latitude and depth-gravitation potential – escape velocity and orbital velocity – geostationary satellites – Kepler’s laws of planetary motion. Solids – elastic behaviour, stress – strain – Hooke’s law – Modulli of elasticity – relation between them – surface tension capillarity – applications – viscosity – Poiseuille’s formula – Stokes law applications streamline and turbulent flow – Reynolds number – Bernoulli’s theorem – applications.

UNIT 4: Oscillations and Wave Motion
Periodic motion-simple harmonic motion equations of motion oscillations of spring-simple pendulum-free, forced and damped oscillations-resonance – applications – wave motions – longitudinal and transverse waves velocity of wave motion in different media – Newton’s formula – Laplace’s correction superposition of waves – progressive and standing waves – sonometer – air columns Doppler effect and its applications.

UNIT 5: Heat and Thermodynamics
Kinetic theory of gases-postulates-pressure of a gas-specific heat capacity-relation between Cp and Cv-first law of thermodynamics thermodynamical processes-isothermal and adiabatic-reversible and irreversible process-second law of thermodynamics Carnot’s engine heat transfer-conduction-convection-radiation-thermal conductivity of solids-black body radiations-Kirchoff’s law-Wien’s displacement law- Stefan’s law Newton’s law of cooling.

UNIT 6: Ray and Wave Optics and Magnetism
Reflection and refraction of light-total internal reflection-velocity of light determination deviation and dispersion of light by a prism-lens formula magnification- power of lens Combination of thin lenses in contact microscope- astronomical telescope-wave front Huygens principle-wave nature of light–interference-Young’s double slit experiment diffraction and polarization.

UNIT 7: Electricity and Magnetism
Electrostatics-Coulomb’s inverse square law-dielectric constant-electric field-electric lines of force-electric dipole-electric potential-potential difference-electric flux-Gauss theorem-electrostatic induction-capacitor capacitors in parallel and series-action of points-lightning arrester electric current-drift velocity of electrons-Ohm’s law-electrical resistivity and conductivity-super conductivity-Kirchoff’s law-Wheatstone’s bridge principle of potentiometer-electric power- Earth’s magnetic field and magnetic elements magnetic field due to a magnetic dipole-torque on a magnetic dipole-tangent law tangent galvano meter deflection magnetometer-magnetic properties of a material–dia, para and ferromagnetic materials-applications.

magnetic effects of electric current – Bio Savart law-force on a moving charge in an uniform magnetic field-moving coil galvanometer-conversion of a galvanometer into voltmeter and ammeter-Faraday’s law Lenz law of electromagnetic induction-self inductance-mutual inductance-Flemming’s right hand rule-methods of inducing emf-eddy current.Alternating currents-LCR series circuit-AC generator-transformer

UNIT 8: Atomic Physics and Relativity
Atomic structure-properties of cathode rays and positive rays-specific charge of an electron-atom model-Thomson atom model-Rutherford atom model-Bohr atom model merits and demerits-quantum numbers- X-rays-production-properties-Bragg’s law Bragg’s X-ray spectrometer photo electric effect-laser-spontaneous and stimulated emission-laser action-characteristics of laser light-ruby laser-applications of laser relativity-Einstein’s mass energy relation-variation of mass with velocity.

UNIT 9: Dual Nature of Matter and Nuclear Physics
Matter waves-wave nature of particles-De Broglie wavelength-electron microscope. Nuclear properties; radius, mass, binding energy, density, isotopes, mass defect Bainbridge mass spectrometer-nuclear forces neutron discovery-radioactivity-α, β and γ decay-half life and mean life-artificial radio activity-radio isotopes-radio carbon dating radiation hazards. Nuclear fission-nuclear reactor-nuclear fusion-hydrogen bomb cosmic rays-elementary particles.

UNIT 10: Electronics and Communication
Semiconductors-doping-types-PN junction diode-biasing-diode as a Rectifier transistors-transistor characteristics-amplifier-gain-feedback in amplifiers-logic gates basic logic gates-NOT, OR, AND, NOR, NAND-universal gates-De Morgan’s theorems space communication propagation of electromagnetic waves in atmosphere-sky and space wave propagation-modulation types–demodulation-microwaves-radars.


BEEE Syllabus 2017 for Chemistry
Basic concepts in Chemistry: Matter and its nature, Dalton’s atomic theory, concept of atom, molecule, element and compound.  Laws of chemical combination, Atomic and molecular masses, mole concept and Avogadro number, molar mass, vapour density-definition. Relationship between molecular mass and vapour density. Concept of STP conditions, gram molar volume, percentage composition, empirical and molecular formulae, chemical equations and numerical problems in all these concepts, stoichiometry.
States of matter: Classification of matter – Solid, liquid and gaseous states
Gaseous state: Gas laws – Boyle’s law, Charles’s law, Graham’s law of diffusion, Avogadro’s law, Dalton’s law of partial pressures, Gay Lussac’s Law of combining volumes,  concept of absolute temperature scale, Ideal gas equation, kinetic theory of gases – postulates, concept of average, root mean square and most probable velocities, Expressions for r.m.s velocity and kinetic energy from the kinetic gas equation. Numerical problems. Ideal and real gases, Ideal gas equation, value of R (SI units). Deviation of real gases from the ideal behaviour. PV-P curves. Causes for the deviation of real gases from ideal behavior. Derivation of Van der Waal’s equation and interpretation of PV-P curves
Liquid state: Properties of liquids – vapour pressure, viscosity and surface tension, effect of temp. on them.
Solid state: classifications of solids: molecular, ionic, covalent and metallic solids, amorphous and crystalline solids, Bragg’s law and its applications, Unit cell and lattices, packing in solids (fcc, bcc and hcp lattices) voids, calculations involving unit cell parameters, imperfection in solids, electrical and magnetic properties.

 Atomic structure
Introduction – constituents of atoms, their charge and mass. Atomic number and atomic mass.  Wave nature of light, Electromagnetic spectrum-emission spectrum of hydrogen-Lyman series, Balmer series, Paschen series, Brackett series and Pfund series. Rydberg’s equation. Numerical problems involving calculation of wavelength and wave numbers of lines in the hydrogen spectrum. Atomic model-  Bohr’s theory, (derivation of equation for energy and radius not required). Explanation of origin of lines in hydrogen spectrum. Limitations of Bohr’s theory. Dual nature of electron – distinction between a particle and a wave. de Broglie’s Theory. Matter-wave equation (derivation).  Heisenberg’s uncertainty principle (Qualitative). Quantum numbers – n, l, m and s and their significance and inter relationships. Concept of orbital – shapes of s, p and d orbitals. Pauli’s exclusion principle and Aufbau principle. Energy level diagram and (n+1) rule. Electronic configuration of elements with atomic numbers from 1 to 54, extra stability of half-filled and completely filled orbitals. Hund’s rule of maximum multiplicity.
Chemical bonding and molecular structure: Kossel – Lewis approach to chemical bond formation, concept of ionic and covalent bonds.

Ionic bonding: formation of ionic bonds, factors affecting the formation of ionic bonds, calculation of lattice enthalpy.

Covalent bonding: valence shell electron pair repulsion (VSEPR) theory and shapes of simple molecules, molecular orbital theory (MOT) – linear combination of atomic orbitals (Qualitative approach), energy  level diagram, rules for filling molecular orbitals, bonding and anti-bonding molecular orbitals, bond order, electronic configuration of H2, Li2 and O2 Non-existence of He2 and paramagnetism of O2.

Metallic bonding: Electron gas theory (Electron Sea model), definition of metallic bond, correlation of metallic properties with nature of metallic bond using electron gas theory.

Hydrogen bonding – inter and intra molecular, properties.
Solutions: Methods of expressing concentration of solutions – ppm, molarity, molality, normality, mole fraction, percentage (by volume and wt.), Principles of volumetric analysis- standard solution, titrations and indicators-acid-base (phenolphthalein and methyl orange) and redox (Diphenylamine) numerical problems.  Vapour pressure of solutions and Raoult’s law, Ideal and non-ideal solutions, colligative properties of dilute solutions – relative lowering of vapour pressure, depression of freezing point, elevation of boiling point, osmotic pressure, calculation of mol. wt of a solute using colligative properties, van’t Hoff factor and its significance.

Equilibrium: Meaning of equilibrium, concept of dynamic equilibrium.

Equilibrium involving physical processes: solid – liquid, liquid – gas and solid – gas equilibria, Henry’s law, general characteristics of equilibrium involving physical processes.

Equilibrium involving chemical processes: Law of chemical equilibrium, equilibrium constants (Kpand Kc) and their significance, significance of ∆G and ∆G” in chemical equilibria, factors affecting equilibrium, concentration, pressure, temp., effect of catalyst, Le Chatelier’s principle.

Ionic equilibrium: Electrolytes and non-electrolytes, ionization of electrolytes, Electrolysis -Faraday’s Laws of electrolysis, numerical problems.  Arrhenius theory of electrolytic dissociation, Merits and limitations. Specific conductivity and molar conductivity – definitions and units. Strong and weak electrolytes with examples. Factors affecting the  conductivity.  Acid – Base theories (Arrhenius, Bronsted-Lowry and Lewis) and their limitations, acid-base equilibria, ionization constants, Strengths of Acids and Bases – dissociation constants of weak acids and weak bases. Ostwald’s dilution law for weak electrolytes (eq. derivation) – expression for hydrogen ion concentration of weak acid and hydroxyl ion concentration of weak base – numerical problems.  Ionic product of water, pH concept and pH scale. pKa and pKb values – numerical problems. Buffers, types of buffers, mechanism of buffer action, Henderson’s equation for pH of a buffer (derivation), preparation of buffers of required pH -numerical problems.  Common ion effect, solubility, expression for Ksp of sparingly soluble salts of types AB, AB2.  Relationship between solubility and solubility product of salts of types AB, AB2.  Applications of common ion effect and solubility product in qualitative analysis, numerical problems.

 Redox reactions and Electrochemistry: Electronic concept of oxidation and reduction, redox reactions, oxidation number, rules for assigning oxidation number, balancing of redox reactions, Electrode potential – Definition, factors affecting single electrode potential, Standard electrode potential, Nernst’s equation for calculating single electrode potential, construction of electro-chemical cells, Daniel cell, free energy change during cell reactions (∆G).  Reference electrodes – Standard Hydrogen Electrode (SHE) – construction, use of SHE for determination of SRP of other single electrodes and pH of solutions, Limitations of SHE.  Electrochemical series and its applications, galvanic and electrolytic cells, half-cell and cell reactions, emf of a galvanic cell and its measurement, Nernst eq. and its applications, working principles of dry cell, lead acid cell and H2-O2fuel cell.

 Chemical Kinetics: Introduction, commercial importance of rate studies, Order of a reaction, factors deciding the order of a reaction-relative concentrations of the reactants and mechanism of the reaction. First order reaction – eq. for rate constant derivation, units. Half-life period, relation between half-life period and order of a reaction, numerical problems.  Determination of the order of a reaction by the graphical and the Ostwald’s isolation method. Zero order, fractional order and pseudo first order reactions with illustrations. Effect of temperature on the rate of a reaction, temperature coefficient of a reaction. Arrhenius interpretation of the energy of activation and temperature dependence of the rate of reaction. Arrhenius Equation. Influence of catalyst on energy profile. Numerical problems on energy of activation.

 Surface chemistry:
Adsorption: Physisorption and chemisorption and their characteristics, factors affecting adsorption of gases on solids, Freundlich and Langmuir adsorption isotherms, adsorption from solutions
Catalysis: Homogeneous and heterogeneous, activity and selectivity of solid catalysts, enzyme catalysis and its mechanism.

Colloids: Introduction, colloidal system and particle sizes. Types of colloidal systems,  Lyophilic and lyophobic sols, examples and differences. Preparation of sols by Bredig’s arc method and peptisation. Purification of sols – dialysis and electro dialysis. Properties of sols – Tyndall effect, Brownian movement electrophoresis, origin of charge, coagulation, Hardy and Schulze rule, Protective action of sols. Gold number, Gold number of gelatin and starch. Applications of colloids.  Emulsions and their characteristics.

Chemical thermodynamics: Spontaneous and non-spontaneous processes, criteria for spontaneity – tendency to attain a state of minimum energy and maximum randomness. Entropy – a measure of randomness, change in entropy, unit of entropy. Entropy and spontaneity. Second law of thermodynamics, Gibbs’ free energy as a driving force of a reaction, Gibbs’ equation, prediction of feasibility of a process in terms of ∆G, standard free energy change and its relation to Kp. Numerical problems.

BEEE Syllabus 2017 for Mathematics
UNIT 1 (Units & Measurement)
Units for measurement, S.I Systems of units, fundamental and derived units, measurements, dimensional analysis, applications.

UNIT 2 (Mechanics)
Motion in one dimension – Uniform and Non-uniform and non-uniform motion – uniformly accelerated motion – scalar and vector quantities – Newton’s law of motion – force and inertia – impulse 7 momentum – law of conservation of momentum – application – motion in two dimension – projectile motion – uniform circular motion – friction – laws of friction – applications – torque – power – area moment of inertia – parallel axis theorem & perpendicular axis theorem work & energy – elastic & inelastic collisions

UNIT 3 : Gravitation Newton’s law of gravitation, variation of acceleration due to gravity with altitude, gravitation potential – escape and orbital velocity – geostationary satellites – kepler’s law of planetary motion – Stress – strains – hooke’s law – modulii of elasticity & its relations – surface tension – capillarity – viscosity – laminar and turbulent flow – Reynolds number – bernoulli’s theorem – applications.

UNIT 4: Properties of gases
Specific heats & its relations – first law of thermodynamics, processes – isothermal & adiabatic process – reversible & irreversible process – second law of thermodynamics – heat engine, heat pump and refrigerator – heat transfer – modes of heat transfer – fourier’s law – newton’s law of cooling – kirchoff’s law, wien’s law, Stefan boltzmann’s law – reflectivity, transmissivity and absorptivity Heat & Thermodynamics

BEEE Syllabus 2017 for Biology
Unit 1: Taxonomy of Angiosperm Types of classifications – Artificial, Natural, Phylogenetic – Biosystematics – Binomial Nomenclature – Herbaria and their uses – Bentham and Hooker’s classification of plants – Families Malvaceae, Solanaceae – Euphorbiaceae, Musaceae and Economic Importance.

Unit 2: Plant Anatomy Tissues and Tissue System – anatomy of monocot and Dicot roots – anatomy of Monocot and dicot stem and anatomy of dicot leaf.

Unit 3: Cell Biology and Genetics Chromosomes – Structure and types – genes and genome – Linkage and crossing over – Gene mapping – recombination of chromosomes – mutation – chromosomal aberration – DNA as genetical material – Structure of DNA – replication of DNA – Structure of RNA and its type.

Unit 4: Biotechnology Recombinant DNA Technology – Transgenic plants and microbes – plant tissue culture and its application – Protoplasmic fusion – single cell protein.

Unit 5: Plant Physiology Photosynthesis – Significance – site of photosynthesis – photochemical and biosynthetic phases – electron transport system – cyclic and non cyclic photophosphorylation – C3 and C4 pathway – photorespiration – factor affecting photosynthesis – mode of nutrition – autotrophic – heterotropic – saprophytic – parasitic and insectivorous plants – chemosynthesis – respiration – mechanism of glycolysis – kreb’scycle – pentose pathway – anaerobic respiration – respiratory quotient – compensation point – fermentation – plant growth – growth regulators – phytohormones – auxin – gibberellins – cytokinins – ethylene and abscisic acid – photoperiodism and vernalisation.

Unit 6: Biology in Human Welfare Food production – breeding experiments – improved varieties and role of biofertilizer – crop diseases and their control – biopesticides – genetically modified food – biowar – biopiracy – biopatent – sustained agriculture and medicinal plants including microbes – Economic importance food yielding (rice) – Oil yielding (groundnut) fibre yielding (cotton) and timber yielding (teak).


BEEE Syllabus 2017 for Zoology
Unit I: Human Physiology
Nutrition – introduction – carbohydrates – proteins – lipids – vitamins mineral – water – Balanced diet – calorie value – (ICBM standard) obesity – Hyperglycemia – hypoglycemia – malnutrition. Digestion – enzymes and enzyme action – Bones and Joints (Major types) – Arthritis — Rickets and Osteomalacia – Gout.
Muscles – muscle action – muscle tone – Rigor Morris – aerobic exercises [body building] myasthenia gravis.
Respiration – Process of pulmonary respiration – inspiration Expiration – Exchange of gases at alveolar level – Circulation — Functioning of heart origin and conduction of heart beat – Artificial pacemaker – coronary blood vessels and its significance – myocardial infarction – Angina pectoria – Atherosclerosis – heart attack -Resuscitation in heart attack [First aid] Blood components- functions- plasma- corpuscles- blood clotting-anticoagulants-Thrombosis-embolism-blood related diseases like polycythemia- Leulremia- Lymph fluid.

Physiological Coordination System:
Brain-tirnetioning of different regions-memory-sleep- stroke- Alzheimer’s disease-meningitis-Thyroid- parathyroid hormones-insulin and glueagon-Hormones of adrenal cortex and medulla-Reproductive hormones-problems related to secretion, non secretion of hormones.
Receptor Organs:
Eye-Focussing mechanism and photo chemistry of retina—short sightedness—Nyctalopia— Eye infection-conjunctivitis-Glaucoma-Ear-I Iearing mechanism-Hearing impairments and aids – Noise pollution and its importance-skin-melanin functions – Effect of solar radiation/ UV Excretion
Ureotelism-urea-Biosynthesis (ornithine cycle)
Nephron-ultratlltration-tubular reabsorption and tubular secretion-Renal failure-Dialysis kidney stone formation kidney transplantation-Diabetes.
Reproductive System:
Brief account of spermatogenesis and oogenesis-menstrual cycle-in vitro fertilization-Birth control.

Unit 2: Microbiology
Introduction- Histry of medical microbiology-The influence of Pasteur. Koch and Lister-Virology-structure Genetics culture and diseases-AIDS and its control- Bacteriology- structure. Genetics and diseases-protozoan microbiology-Diseases oriented- pathogenic of micro organism-anti microbial resistance chemotherapy. Single cell protein. Microbial culture technique and its applications – Strain Isolation and Improvement – Isolation of microbial products.

Unit 3: lmmunology
Innate immunity [Non specie] – anatomical Barriers-Physiological barriers-phagocytic barriers Lymphoidal organs-Thymus- Bursa of fabrieius- Peripheral Lymphoid organs-Lymph nodes- Transplantation immunology-Autoimmu ne disorders.

Unit-4: Modern Genetics and Animal Biotechnology
Introduction-scope-I Iuman (leneties Karyotyping Chromosome gene mapping-Recombinant DNA technology and segmenting-genetic diseases-[Human genome project—cloning—Transgenic organisms— Genetically modified organism (GMO)-Gelte therapy- Anima] cell culture and its applications-Stem cell technology-Bi oethics ofgenetic engineering in animals.

Unit 5: Environmental Science
Human population and explosion-issue-Global Warming crisis-Green house effect-Ozone layer depletion-waste management-Biodiversity conservation [Biosphere reserve]

Unit 6 : Applied Biology
Livestock and management- Breeds-Farming method-poultry diseases- Economic value Pisciculture-sh farming-Edible shes of Tamil Nadu.

Unit 7 : Theories of Evolution
Lamarckism—Danwinism— Modern concept of natural selection-species of concept-origin of species and isolating mechanism.

Note: for more information candidates may go through the official website






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