About AUEET 2019

The Directorate of Admissions, Andhra University will conduct the AUEET entrance examination for the admission of candidates to Dual Degree engineering programmes offered by the University. AUEET 2019 admissions to candidates are offered at two campuses of University: University College of Engineering and Andhra University College of Engineering for Women. The admission authority of University has released the application form of AUEET 2019 in an online mode on March 15. The last date of submission is April 20, 2019. Candidates will be able to apply to submit their application form until April 25 on payment of Rs. 1500/- as late fees. The application form correction window will be available for the candidates from April 25 to 27. The admission authority will release admit card of AUEET 2019 from April 28 in an online mode. AUEET 2019 will be held on May 9 for which results will be announced on May 15, 2019. The qualified candidates of AUEET 2019 will be invited to attend counselling process based on rank secured in AUEET 2019 entrance examination. At the time of counselling process candidates will have to get their documents verified, after which candidates will be allotted the seat in college. Without the document verification, candidates will not be allotted seat in any programmes.

Exam level: University Level Exam
Frequency: Once a year
Languages English
Conducting Body: Directorate of Admissions Andhra University University
Duration 1 Hour 30 Minutes

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AUEET 2019 Important Dates

Past Dates and Events

26 May, 2019

Counselling - Start Date | Mode: Online

15 May, 2019

Result | Mode: Online

09 May, 2019

Exam | Mode: Online

28 Apr, 2019 - 05 May, 2019

Admit Card | Mode: Online

25 Apr, 2019 - 27 Apr, 2019

Application Correction | Mode: Online

21 Apr, 2019 - 25 Apr, 2019

Late Fee Application | Mode: Online

15 Mar, 2019 - 20 Apr, 2019

Application | Mode: Online

AUEET 2019 Eligibility Criteria

Candidates applying for the admission to dual degree engineering programmes offered by the University must always refer to eligibility criteria of AUEET 2019. The University has set standards for the candidates applying for admission in the university which if not met, admission will not be offered. With the help of eligibility criteria of AUEET 2019, candidates can know whether they are eligible to apply for admission or not. Candidates applying for admission to their preferred course must have secured at least 50% marks in the qualifying examination (10+2 or equivalent) with Mathematics, Physics and Chemistry as compulsory subjects.

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AUEET 2019 Application Process

Mode of Application : Online

Mode of Payment : Net Banking | Credit Card | Debit Card | Other

The admission authority of examination has released the application form of AUEET 2019 on March 15 for candidates who wish to apply for admission in University. AUEET 2019 application form will only be available in an online mode. Candidates must read the instructions and declaration carefully before start filling the application form. All the details which needs to be entered in the application form of AUEET 2019 should be valid and correct. Applications with incomplete, incorrect or invalid information or details will be rejected by the admission authority. Candidates will have to provide their personal, academic and contact details in application form after which candidates will receive a security code on their registered mobile number and needs to be verified. Application fee can be paid in either online (Credit/Debit Card/Net Banking) or offline mode (through Andhra Bank). It must be noted that hard copy of application form must not be sent to Directorate of Admissions. Candidates can refer to the below mentioned process to fill the application form.

Information to be ready with before filling AUEET 2019 Application Form

  • Select the eligible courses
  • Hall-Ticket Number of Qualifying Examination
  • Percentage of marks and year of Passing of Qualifying Examination, if Passed
  • Date of Birth as per SSC records
  • Caste in case of SC/ST/BC candidates
  • Parental Income Upto One lakh or up to Two lakhs or more than Two Lakhs (rupees)
  • Study or Residence (from M.R.O) or relevant certificate for proof of local status

Process to Fill the Application Form of AUEET 2019

Step 1- Fill Application Form: Candidates applying for the admission to dual degree engineering programmes as offered by the University will be able to access the application form of AUEET from online admission portal. Candidates must provide their personal information, communication/contact details and academic details in required fields. All the details must be correct and valid.

Step 2- Upload Documents: Candidates must be ready with scanned images of their recent passport size photograph and signature in prescribed format.

Step 3- Review the Application: After all details are entered and before proceeding to the payment page, candidates are advised to review their application form to check whether all the information entered are correct. If candidates wishes to make some changes, he/she can do it and then proceed to next step.

Step 4- Payment of Application Fee: The application fee of AUEET 2019 can be done in either online or offline mode. Online mode of payment can be done by Credit Card or Debit Card or Net Banking. The offline mode of payment can be done either at Andhra Bank or through SBI Challan. When the payment has been made, candidates will receive a confirmation message on their registered mobile number.

Step 5- Submission of Application Form: After the payment is successful, candidates can submit their application by clicking on "Submit". The application form will now be available for download in PDF format. Candidates must download and keep the application form safely for further reference. If required, candidates can even get the printout of the same. It must be noted that candidates are not required to send their application form to the authorities.

Application Fees

Category Quota Mode Gender Amount
General, OBC Online, Offline Female, Male ₹ 1200
ST, SC Online, Offline Female, Male ₹ 1000

AUEET 2019 Syllabus

Algebra Types of functions
Domain, range and inverse of real valued functions
Principle of mathematical induction & theorems
Applications of mathematical induction
Mathematical Induction
Types of matrices
Scalar multiple of a matrix and multiplication of matrices
Transpose of a matrix
Adjoint and inverse of a matrix
Consistency and inconsistency of equations
Rank of a matrix
Solution of simultaneous linear equations
Complex number as an ordered pair of real numbers
Fundamental operations
Representation of complex numbers in the form a+ib
Modulus and amplitude of complex numbers
Geometrical and polar representation of complex numbers in argand plane
Argand diagram
Multi-conceptual problem on the above concepts
De moivre’s theorem
Integral and rational indices
Nth roots of unity
Geometrical interpretations
Quadratic expressions
Equations in one variable
Sign of quadratic expressions
Change in signs
Maximum and minimum values
Quadratic inequations
The relation between the roots and coefficients in an equation
Solving the equations when two or more roots of it are connected by certain relation
Equation with real coefficients
Occurrence of complex roots in conjugate pairs and its consequences
Transformation of equations
Reciprocal equations
Permutations and combinations
Fundamental principle of counting
Linear and circular permutations
Permutations of ‘n’ dissimilar things taken ‘r’ at a time
Permutations when repetitions allowed
Circular permutations
Permutations with constraint repetitions
Certain theorems and their applications
Binomial theorem for positive integral index
Binomial theorem for rational index
Approximations using binomial theorem
Partial fractions of f(x)/g(x) where both f(x) and g(x) are polynomials and when g(x) contains non
Repeated linear factors
Partial fractions of f(x)/g(x) when g(x) contains repeated and/or non-repeated linear factors
Partial fractions of f(x)/g(x) when g(x) contains irreducible factors
Trigonometry Trigonometric ratios up to transformations
Graphs and periodicity of trigonometric functions
Trigonometric ratios and compound angles
Trigonometric ratios of multiple and sub angles
Sum and product rules
General solution of trigonometric equations
Simple trigonometric equations
To reduce a trigonometric function into a bijection
Graphs of inverse trigonometric functions
Properties of inverse trigonometric functions
Definition of hyperbolic function
Definition of inverse hyperbolic functions
Addition formulae of hyperbolic functions
Relation between sides and angles of a triangle
Cosine rules
Tangent and projection rules
Half angle formulae and areas of a triangle
Incircle and excircle of a triangle
Vector algebra Vectors as a triad of real numbers
Classification of vectors
Addition of vectors
Scalar multiplication
Angle between two non zero vectors
Linear combination of vectors
Component of a vector in three dimensions
Vector equations of line and plane including their cartesian equivalent forms
Scalar product
Geometrical interpretations
Orthogonal projections
Properties of dot product
Expression of dot product in i, j, k system
Angle between two vectors
Geometrical vector methods
Vector equations of plane in normal form
Angle between two planes
Vector product of two vectors and properties
Vector product in i, j, k system
Vector areas
Scalar triple product
Vector equations of plane in different forms, skew lines, shortest distance and their cartesian equivalents
Plane through the line of intersection of two planes
Condition for coplanarity of two lines
Perpendicular distance of a point from a plane
Angle between line and a plane
Cartesian equivalents of all these results
Vector triple product
Probability Measures of dispersion
Mean deviation
Variance and standard deviation of ungrouped/grouped data
Coefficient of variation and analysis of frequency distribution with equal means but different variances
For ungrouped data
For grouped data
Random experiments and events
Classical definition of probability
Axiomatic approach and addition theorem of probability
Independent and dependent events
Conditional probability
Multiplication theorem
Bayee’s theorem
Random variables
Theoretical discrete distributions
Binomial and poisson distributions
Coordinate geometry Definition of locus
To find equations of locus
Problems connected to it
Transformation of axes
Rules, derivations and illustrations
Rotation of axes
Derivations of illustrations
Revision of fundamental results
Straight line
Normal form
Illustrations of straight line
Symmetric form of straight line
Reduction into various forms
Intersection of two straight lines
Family of straight lines
Concurrent lines
Condition for concurrent lines
Angle between two lines
Length of perpendicular from a point to a line
Distance between two parallel lines
Properties related to a triangle
Equations of pair of lines passing through origin
Between a pair of lines
Condition for perpendicular and coincident lines
Bisectors of angles
Pair of bisectors of angles
Pair of lines
Second degree general equation
Conditions for parallel lines
Distance between them
Point of intersection of pair of lines
Homogenizing a second degree equation with a first degree equation in x and y
Equation of circle
Standard form
Centre and radius
Equation of a circle with a given line segment as diameter & equation of circle through three non collinear points
Parametric equations of a circle
Position of a point in the plane of a circle
Power of a point
Definition of tangent
Length of tangent
Position of a straight line in the plane of a circle
Conditions for a line to be tangent
Chord joining two points on a circle
Equation of the tangent at a point on the circle
Point of contact
Equation of normal
Chord of contact
Pole and polar
Conjugate points and conjugate lines
Equation of chord with given middle point in term of midpoint
Relative position of two circles
Circles touching each other externally
Internally common tangents
Centers of similitude
Equation of pair of tangents from an external point
Angle between two intersecting circles
Radical axis of two circles
Common chord and common tangent of two circles
Radical centre
Intersection of a line and a circle
Conic sections of parabola
Equation of parabola in standard form
Different forms of parabola
Parametric equations
Equations of tangent and normal at a point on the parabola
Conditions for straight line to be a tangent
Equation of ellipse in standard form
Parametric equations of ellipse
Equation of tangent and normal at a point on the ellipse
Condition for a straight line to be a tangent of ellipse
Equation of hyperbola in standard form
Equations of tangent and normal at a point on the hyperbola
Conditions for a straight line to be a tangent and asymptotes
Three dimensional coordinates
Section formulae
Centroid of a triangle and tetrahedron
Direction cosines
Direction ratios
Cartesian equation of plane
Simple illustrations
Calculus Intervals and neighbourhoods
Standard limits
Derivative of a function, its geometrical and physical significance
Elementary properties
Rational, trigonometric, inverse trigonometric, exponential and logarithmic functions
Inverse hyperbolic function
Methods of differentiation
Second order derivatives
Errors and approximations
Geometrical interpretation of a derivative
Equations of tangents and normals
Lengths of tangent
Sub tangent and sub normal
Angles between two curves and condition for orthogonality of curves
Derivative as rate of change
Increasing and decreasing functions
Rolle’s theorem and lagrange’s mean value theorem without proofs and their geometrical interpretation
Maxima and minima
Integration as the inverse process of differentiation
Standard forms
Properties of integrals
Method of substitution
Integration of algebraic
Trigonometric and inverse trigonometric functions
Integration by parts
Integration by partial fractions method
Reduction formulae
Definite integral as the limit of sum
Fundamental theorem of integral calculus
Properties of reduction formulae
Interpretation of definite integral as an area
Application of definite integral to areas
Formation of differential equation
Degree and order of an ordinary differential equation
Variables separable method
Homogeneous differential equation
Non - homogeneous differential equation
Linear differential equations
Physical world Scope and excitement of physics
Technology and society
Fundamental forces in nature
Gravitational force
Electromagnetic force
Strong nuclear force
Weak nuclear force
Towards unification of forces
Nature of physical laws
Units and measurements The international system of units
Measurement of length
Measurement of large distances
Estimation of very small distances
Size of a molecule
Range of lengths
Measurement of mass
Range of masses
Measurement of time
Precision of instruments and errors in measurement
Systematic errors
Random errors
Least count error
Absolute error
Relative error and percentage error
Combination of errors
Significant figures
Rules for arithmetic operations with significant figures
Rounding off the uncertain digits
Rules for determining the uncertainty in the results of arithmetic calculations
Dimensions of physical quantities
Dimensional formulae and dimensional equations
Dimensional analysis and its applications
Checking the dimensional consistency of equations
Deducing relation among the physical quantities
Motion in a straight line Position
Path length and displacement
Average velocity and average speed
Instantaneous velocity and speed
Kinematic equations for uniformly accelerated motion
Relative velocity
Motion in a plane Scalars and vectors
Position and displacement vectors
Equality of vectors
Multiplication of vectors by real numbers
Addition and subtraction of vectors
Graphical method
Resolution of vectors
Vector addition
Analytical method
Motion in a plane
Position vector and displacement
Motion in a plane with constant acceleration
Relative velocity in two dimensions
Projectile motion
Equation of path of a projectile
Time of maximum height
Maximum height of a projectile
Horizontal range of projectile
Uniform circular motion
Laws of motion Aristotle’s fallacy
The law of inertia
Newton's first law of motion
Newton's second law of motion
Newton's Third law of motion
Conservation of momentum
Equilibrium of a particle
Common forces in mechanics
Types of friction
Kinetic and rolling frictions
Circular motion
Motion of a car on a level road
Motion of a car on a banked road
Solving problems in mechanics
Work, energy and power The scalar product
Notions of work and kinetic energy
The work-energy theorem
Work and kinetic energy
Work done by a variable force
The work-energy theorem for a variable force
The concept of potential energy
The conservation of mechanical energy
The potential energy of a spring
Various forms of energy
Heat and chemical energy
Electrical energy
The equivalence of mass and energy
Nuclear energy
The principle of conservation of energy
Elastic and inelastic collisions
Collisions in one dimension
Coefficient of restitution and its determination
Collisions in two dimensions
Systems of particles and rotational motion Rigid body motion
Centre of mass
Centre of gravity
Motion of centre of mass
Linear momentum of a system of particles
Vector product of two vectors
Angular velocity and its relation with linear velocity
Angular acceleration
Kinematics of rotational motion about a fixed axis
Moment of force
Angular momentum of particle
Torque and angular momentum for a system of a particles
Conservation of angular momentum
Equilibrium of a rigid body
Principle of moments
Moment of inertia
Theorems of perpendicular and parallel axes
Dynamics of rotational motion about a fixed axis
Angular momentum in case of rotation about a fixed axis
Rolling motion
Kinetic energy of rolling motion
Oscillations Periodic and oscillatory motions
Period and frequency
Simple Harmonic Motion
Simple harmonic motion and uniform circular motion
Velocity and acceleration in simple harmonic motion
Force law for simple harmonic motion
Energy in Simple Harmonic Motion
Some systems executing simple harmonic motion
Oscillations due to a spring
The simple pendulum
Damped simple harmonic motion
Forced oscillations and resonance
Gravitation Kepler’s laws
Universal law of gravitation
Central forces
The gravitational constant
Acceleration due to gravity of the earth
Acceleration due to gravity below and above the surface of earth
Gravitational potential energy
Escape speed
Orbital speed
Earth satellites
Energy of an orbiting satellite
Geostationary and polar satellites
Mechanical properties of solids Elastic behaviour of solids
Stress and strain
Hooke's law
Stress-strain curve
Elastic moduli
Young's modulus
Determination of young’s modulus of the material of a wire
Shear modulus
Bulk modulus
Poisson's Ratio
Elastic potential energy in a stretched wire
Applications of elastic behaviour of materials
Mechanical properties of fluids Pressure
Pascal's law
Variation of pressure with depth
Atmospheric pressure and gauge pressure
Hydraulic machines
Archimedes’ principle
Streamline flow
Bernoulli’s principle
Speed of efflux
Torricelli’s law
Blood flow and heart attack
Dynamic lift
Variation of viscosity of fluids with temperature
Stokes' law
Reynolds number
Critical velocity
Surface tension and surface energy
Angle of contact
Drops and bubbles
Capillary rise
Detergents and surface tension
Thermal properties of matter Temperature and heat
Measurement of temperature
Ideal-gas equation and absolute temperature
Thermal expansion
Specific heat capacity
Change of state
Triple point
Latent heat
Heat transfer
Black body radiation
Greenhouse effect
Newton’s law of cooling and its experimental verification
Thermodynamics Thermal equilibrium
Zeroth law of thermodynamics
Internal energy and work
First law of thermodynamics
Specific heat capacity
Specific heat capacity of water
Thermodynamic state variables and equation of state
Thermodynamic processes
Quasi-static process
Isothermal process
Adiabatic process
Isochoric process
Isobaric process
Cyclic process
Heat engines
Refrigerators and heat pumps
Second law of thermodynamics
Reversible and irreversible processes
Carnot engine
Carnot’s theorem
Kinetic theory Molecular nature of matter
Behaviour of gases
Boyle's law
Charles’ law
Kinetic theory of an ideal gas
Pressure of an ideal gas
Kinetic interpretation of temperature
Law of equipartition of energy
Specific heat capacity
Monatomic gases
Diatomic gases
Polyatomic gases
Specific heat capacity of solids
Specific heat capacity of water
Mean free path
Waves Transverse and longitudinal waves
Displacement relation in a progressive wave
Amplitude and phase
Wavelength and angular wave number
Angular frequency and frequency
The speed of a travelling wave
Speed of a transverse wave on stretched string
Speed of a longitudinal wave
The principle of superposition of waves
Reflection of waves
Standing waves and normal modes
Source moving and observer stationary
Observer moving and source stationary
Both source and observer moving
Ray optics and optical instruments Reflection of light by spherical mirrors
Sign convention
Focal length of spherical mirrors
The mirror equation
Total internal reflection
Total internal reflection in nature and its technological applications
Refraction at spherical surfaces and by lenses
Power of a lens
Combination of thin lenses in contact
Refraction through a prism
Dispersion by a prism
Some natural phenomena due to sunlight
The rainbow
Scattering of light
Optical Instruments
The eye
The simple and compound microscopes
Refracting telescope and cassegrain reflecting telescope
Wave optics Huygens principle
Refraction and reflection of plane waves using huygens principle
Refraction in a rarer medium
Reflection of a plane wave by a plane surface
The doppler effect
Coherent and incoherent addition of waves
Interference of light waves and young‘s experiment
The single slit diffraction
Resolving power of optical instruments
The validity of ray optics
Polarisation by scattering
Polarisation by reflection
Electric charges and fields Electric charge
Conductors and insulators
Charging by induction
Basic properties of electric charges
Additivity of charges
Conservation of charge
Quantization of charge
Coulomb's law
Forces between multiple charges
Electric field
Electric field due to a system of charges
Physical significance of electric field
Electric field lines
Electric flux
Electric dipole
The field of an electric dipole for points on the axial line and on the equatorial plane
Physical significance of dipoles
Dipole in a uniform external field
Continuous charge distribution
Gauss’s law
Applications of gauss’s law
Field due to an infinitely long straight uniformly charged wire
Field due to a uniformly charged infinite plane sheet
Field due to a uniformly charged thin spherical shell
Electrostatic potential and capacitance Electrostatic potential
Potential due to a point charge
Potential due to an electric dipole
Potential due to a system of charges
Equipotential surfaces
Relation between field and potential
Potential energy of a system of charges
Potential energy in an external field
Potential energy of a single charge
Potential energy of a system of two charges in an external field
Potential energy of a dipole in an external field
Electrostatics of conductors
Electrostatic shielding
Dielectrics and polarisation
Electric displacement
Capacitors and capacitance
The parallel plate capacitor
Effect of dielectric on capacitance
Combination of capacitors
Capacitors in series
Capacitors in parallel
Energy stored in a capacitor
Van De Graaff generator
Current electricity Electric current (current electricity)
Electric current in conductors
Ohm's law
Drift of electrons and the origin of resistivity
Limitations of ohm’s law
Resistivity of various materials
Colour code of resistors
Temperature dependence of resistivity
Electrical energy
Combination of resistors
Series and parallel
Internal resistance
Cells in series and in parallel
Kirchhoff’s rules
Wheatstone bridge
Meter bridge
Moving charges and magnetism Magnetic force
Sources and fields
Magnetic field
Lorentz force
Magnetic force on a current carrying conductor
Motion in a magnetic field
Helical motion of charged particles
Motion in combined electric and magnetic fields
Velocity selector
Magnetic field due to a current element
Biot – savart’s law
Magnetic field on the axis of a circular current loop
Ampere’s circuital law
The solenoid and the toroid
Force between two parallel current carrying conductors
The ampere
Torque on current loop
Magnetic dipole
Torque on a rectangular current loop in a uniform magnetic field
Circular current loop as a magnetic dipole
The magnetic dipole moment of a revolving electron
The moving coil galvanometer
Conversion into ammeter and voltmeter
Magnetism and matter The bar magnet
The magnetic field lines
Bar magnet as an equivalent solenoid
The dipole in a uniform magnetic field
The electrostatic analog
Magnetism and gauss’s law
The earth’s magnetism
Magnetic declination and dip
Magnetisation and magnetic intensity
Magnetic properties of materials
Hysteresis loop
Permanent magnets and electromagnets
Electromagnetic induction The experiments of faraday and henry
Magnetic flux
Faraday’s law of induction
Lenz’s law and conservation of energy
Motional electromotive force
Energy consideration
A quantitative study
Eddy currents
Mutual inductance
Self inductance
Ac generator
Alternating current Ac voltage applied to a resistor
Representation of ac current and voltage by rotating vectors
Ac voltage applied to an inductor
Ac voltage applied to a capacitor
Ac voltage applied to a series lcr circuit
Phasor and diagram solution
Analytical solution
Sharpness of resonance
Power in ac circuit
The power factor
LC oscillations
Electromagnetic waves Displacement current
Maxwell's equations
Electromagnetic waves
Sources of electromagnetic waves
Nature of electromagnetic waves
Radio waves
Infrared waves
Visible rays
Ultraviolet rays
Gamma rays
Dual nature of radiation and matter Electron emission
Photoelectric effect
Hertz’s observations
Hallwachs and lenard’s observations
Experimental study of photoelectric effect
Effect of intensity of light on photocurrent
Effect of potential on photoelectric current
Effect of frequency of incident radiation on stopping potential
Photoelectric effect and wave theory of lightv
Einstein’s photoelectric equation
Energy quantum of radiation
Particle nature of light
The photon
Wave nature of matter
Davisson and germer experiment
Atoms Alpha particle scattering and rutherford’s nuclear model of atom
Alpha particle trajectory
Electron orbits
Atomic spectra
Spectral series
Bohr model of the hydrogen atom
Energy levels
Franck – hertz experiment
The line spectra of the hydrogen atom
De broglie’s explanation of bohr’s second postulate of quantization
Laser light
Nuclei Atomic masses and composition of nucleus
Discovery of neutron
Size of the nucleus
Mass - energy and nuclear binding energy
Nuclear force
Law of radioactive decay
Alpha decay
Beta decay
Gamma decay
Nuclear energy
Nuclear Reactor
Nuclear fusion
Energy generation in stars
Controlled thermonuclear fusion
Semiconductor electronics: materials, devices and simple circuits Classification of metals
Conductors and semiconductors on the basis of conductivity and energy bands
Band theory of solids
Intrinsic semiconductor
Extrinsic semiconductor
P-type semiconductor
N-type semiconductor
P-n junction formation
Semiconductors: Semiconductor diode
P-n junction diode under forward bias
P-n junction diode under reverse bias
Application of junction diode as a rectifier
Special purpose p-n junction diodes
Zener diode
Zener diode as voltage regulator
Optoelectronic junction devices
Light emitting diode
Solar Cell
Junction transistor
Structure and action
Basic transistor circuit configurations and transistor characteristics
Transistor as a switch and as an amplifier
Feedback amplifier and transistor oscillator
Digital electronics and logic gates
Not, or, and, nand and nor gates, integrated circuits
Communication systems Elements of a communication system
Basic terminology used in electronic communication systems
Bandwidth of signals
Bandwidth of transmission medium
Propagation of electromagnetic waves
Ground waves
Sky waves
Space wave
Modulation and its necessity
Size of the antenna or aerial
Effective power radiated by an antenna
Mixing up of signals from different transmitters
Amplitude modulation
Production of amplitude modulated wave
Detection of amplitude modulated wave
Atomic structure Atomic models
Sub- atomic particles
Rutherford’s nuclear model of atom
Developments to the bohr’s model of atom
Nature of electromagnetic radiation
Particle nature of electromagnetic radiation
Planck’s quantum theory
Bohr’s model for hydrogen atom
Explanation of line spectrum of hydrogen
Limitations of Bohr's model
Quantum mechanical considerations of sub atomic particles
Dual behaviour of matter
Heisenberg's uncertainty principle
Quantum mechanical model of an atom
Important features of quantum mechanical model of atom
Orbitals and quantum numbers
Shapes of atomic orbitals
Energies of orbitals
Filling of orbitals in atoms
Aufbau principle
Pauli’s exclusion principle and hund’s rule of maximum multiplicity
Electronic configurations of atoms
Stability of half-filled and completely filled orbitals
Classification of elements and periodicity in properties Need to classify elements
Genesis of periodic classification
Modern periodic law and present form of the periodic table
Nomenclature of elements with atomic number greater than 100
Electronic configuration of elements and the periodic table
Electronic configuration and types of elements s,p,d.and f blocks
Atomic radius
Ionic radius
Variation of size in inner transition elements
Ionization enthalpy
Electron gain enthalpy
Electro negativity
Periodic trends in chemical properties
Valence or oxidation states
Anomalous properties of second period elements
Diagonal Relationship
Periodic trends and chemical reactivity
Chemical bonding and molecular structure Kossel - lewis approach to chemical bonding
Octet rule
Representation of simple molecules
Formal charges
Limitations of octet rule
Ionic or electrovalent bond
Factors favourable for the formation of ionic compounds
Crystal structure of sodium chloride
General properties of ionic compounds
Bond parameters
Bond length
Bond angle
Bond enthalpy
Bond order
Polarity of bonds dipole moment
Fajan rules
Valence shell electron pair repulsion (vsepr) theory
Predicting the geometry of simple molecules
Valence bond theory
Orbital overlap concept
Directional properties of bonds
Overlapping of atomic orbitals
Types of overlapping and nature of covalent bonds
Strength of sigma and pi bonds
Factors favouring the formation of covalent bonds
Different types of hybridization involving s, p and d orbitals
Shapes of simple covalent molecules
Coordinate bond
Definition with examples
Molecular orbital theory
Formation of molecular orbitals
Linear combination of atomic orbitals (lcao)
Conditions for combination of atomic orbitals
Energy level diagrams for molecular orbitals
Bonding in some homo nuclear diatomic molecules
H2, he2, li2, b2,c2, n2 and o2
Hydrogen bonding
Cause of formation of hydrogen bond
Types of hydrogen bonds
Inter and intra molecular
General properties of hydrogen bonds
States of matter: gases and liquids Intermolecular forces
Thermal energy
Intermolecular forces vs thermal interactions
The gaseous state
The gas laws
Ideal gas equation
Graham’s law of diffusion
Dalton’s law of partial pressures
Kinetic molecular theory of gases
Kinetic gas equation of an ideal gas deduction of gas laws from kinetic gas equation
Distribution of molecular speeds
Rms, average and most probable speeds
Kinetic energy of gas molecules
Behaviour of real gases
Deviation from ideal gas behaviour
Compressibility factor vs pressure diagrams of real gases
Liquefaction of gases
Liquid state
Properties of liquids in terms of inter molecular interactions
Vapour pressure
Viscosity and surface tension
Stoichiometry Some basic concepts
Properties of matter
Uncertainty in measurement-
Significant figures
Dimensional analysis
Laws of chemical combinations
Law of conservation of mass
Law of definite proportions
Law of multiple proportions
Gay lussac's law of gaseous volumes
Dalton's atomic theory
Avogadro law and examples
Atomic and molecular masses
Mole concept and molar mass
Concept of equivalent weight
Percentage composition of compounds and calculations of empirical and molecular formulae of compounds
Stoichiometry and stoichiometric calculations
Limiting reagent
Methods of expressing concentrations of solutions
Mass percent
Mole fraction
Molarity and normality
Redox reactions
Classical idea of redox reactions
Oxidation and reduction reactions
Redox reactions in terms of electron transfer
Oxidation number concept
Types of redox reactions
Combination decomposition
Displacement and disproportionation reactions
Balancing of redox reactions
Oxidation number method half reaction method
Redox reactions in titrimetry
Thermodynamics Thermodynamic terms
The system and the surroundings
Types of systems and surroundings
The state of the system
The internal energy as a state function
The general case
The first law of thermodynamics
H- a useful new state function
Extensive and intensive properties
Heat capacity
The relationship between cp and cv
Measurement of u and h
Enthalpy change
Rh of reactions
Reaction enthalpy
Standard enthalpy of reactions
Enthalpy changes
Enthalpy changes during transformations
Standard enthalpy of formation
Thermo chemical equations
Hess's law of constant heat summation
Enthalpies for different types of reactions
Standard enthalpy of combustion
Enthalpy of atomization(δah )
Phase transition
Sublimation and ionization
Bond enthalpy (δbondh )
Enthalpy of solution (δsolh ) and dilution
lattice enthalpy
Is decrease in enthalpy a criterion for spontaneity
Entropy and spontaneity
The second law of thermodynamics
Gibbs energy and spontaneity
Gibbs energy change and equilibrium
Absolute entropy and the third law of thermodynamics
Chemical equilibrium and acids-bases Equilibrium in physical process
Equilibrium in chemical process
Dynamic equilibrium
Law of chemical equilibrium
Law of mass action and equilibrium constant
Homogeneous equilibria
Equilibrium constant in gaseous systems
Relationship between kp and kc
Applications of equilibrium constant
Relationship between equilibrium constant k
Reaction quotient q and gibbs energy g
Factors effecting equilibria
Le-chatlier principle application to industrial synthesis of ammonia and sulphur trioxide
Ionic equilibrium in solutions
Bases and salts
Lowry and lewis concepts of acids and bases
Ionisation of acids and bases
Ionisation constant of water and its ionic product
Ph scale
Ionisation constants of weak acids
Ionisation of weak bases
Relation between ka and kb-di and poly basic acids and di and poly acidic bases
Factors affecting acid strength
Common ion effect in the ionization of acids and bases
Hydrolysis of salts and pH of their solutions
Buffer solutions
Designing of buffer solution
Preparation of acidic buffer
Solubility equilibria of sparingly soluble salts
Solubility product constant common ion effect on solubility of ionic salts
Hydrogen and its compounds Position of hydrogen in the periodic table
Occurence and isotopes
Properties of dihydrogen
Ionic, covalent, and non-stiochiometric hydrides
Physical properties
Structure of water
Chemical properties of water
Hard and soft water
Temporary and permanent hardness of water
Preparation and properties of hydrogen peroxide, copper sulphate, silver nitrate, plaster of paris, borax, Mohr's salt, alums, white and red lead, microcosmic salt and bleaching powder, sodium thiosulfate
Structure and chemical properties
Storage and uses
Heavy Water
Hydrogen as a fuel
The s - block elements (alkali and alkaline earth metals), group 1 elements Alkali metals
Electronic configurations
Atomic and ionic radii
Ionization enthalpy
Hydration enthalpy
Physical properties
Chemical properties
General characteristics of the compounds of the alkali metals
Halides (excluding fluoride)
Salts of oxo acids
Anomalous properties of lithium
Differences and similarities with other alkali metals
Diagonal Relationship
Similarities between lithium and magnesium
Some important compounds of sodium
Sodium Carbonate
Sodium Chloride
Sodium hydroxide
Sodium hydrogen carbonate
Biological importance of Sodium and Potassium
Group 2 elements Alkaline earth elements
Electronic configuration
Ionization enthalpy
Hydration enthalpy
Physical properties
Chemical properties
General characteristics of compounds of the alkaline earth metals
Halides (excluding fluoride)
Salts of oxoacids
Anomalous behavior of beryllium
Its diagonal relationship with aluminium
Some important compounds of calcium
Preparation and uses of calcium oxide
Calcium hydroxide
Calcium carbonate
Plaster of paris
Biological importance of calcium and magnesium
P- block elements group 13 (boron family) General introduction
Electronic configuration
Atomic radii
Ionization enthalpy
Electro negativity
Physical and chemical properties
Important trends and anomalous properties of boron
Some important compounds of boron
Ortho boric acid,diborane
Uses of boron
Aluminium and their compounds
P-block elements, group 14 (carbon family) General introduction
Electronic configuration
Atomic radii
Ionization enthalpy
Electro negativity
Physical and chemical properties
Important trends and anomalous properties of carbon
Allotropes of carbon
Uses of carbon
Some important compounds of carbon and silicon
Carbon dioxide
Silica, silicones, silicates and zeolites
Environmental chemistry Air, water and soil pollutions
Environmental pollution
Atmospheric pollution
Tropospheric pollution
Gaseous air pollutants (oxides of sulphur; oxides of nitrogen
Preparation and properties: Hydrocarbons, monohydric alcohols, aldehydes, ketones, monocarboxylic acids, primary amines, benzene, nitrobenzene, aniline, phenol, benzaldehyde, benzoic acid, grignard reagent
Oxides of carbon (co, co2)
Global warming and green house effect
Acid rain
Particulate pollutants-smoke, dust, smog. fumes, mist and their sources,harmful effects and prevention
Stratospheric pollution
Formation and breakdown of ozone
Ozone hole
Effects of depletion of the ozone layer
Water pollution
Causes of water pollution
International standards for drinking water
Soil pollution
Industrial wastes
Strategies to control environmental pollution
Waste management
Collection and disposal
Green chemistry
Green chemistry in day-to-day life
Dry cleaning of clothes
Bleaching of paper
Synthesis of chemicals
Organic chemistry-some basic principles and techniques and hydrocarbons Tetravalency of carbon: shapes of organic compounds
Structural representations of organic compounds
Classification of organic compounds
Nomenclature of organic compounds
Isomerism - Structural and stereoisomerism
Fundamental concepts in organic reaction mechanisms
Fission of covalent bond
Nucleophiles and electrophiles
Electron movements in organic reactions
Electron displacement effects in covalent bonds
Inductive effect
Resonance effect
Electrometric effect
Types of organic reactions
Methods of purification of organic compounds
Qualitative elemental analysis of organic compounds
Quantitative elemental analysis of organic compounds
Hydrocarbons Classification of Hydrocarbons
Nomenclature, isomerism
Preparation of alkanes
Physical properties and chemical reactivity
Substitution reactions
Controlled oxidation
Reaction with steam and pyrolysis
Structure of ethene
Structural and geometrical
Methods of Preparation
Physical and chemical reactions
Addition of Hydrogen
Sulphuric acid
Hydrogen halides
Ionic and peroxide effect
Antimarkovnikov’s or kharasch effect
Ozonolysis and polymerization
Nomenclature and isomerism
Structure of acetylene
Methods of preparation of acetylene
Physical properties
Chemical reactions
Acidic character of acetylene
addition reactions of hydrogen
Hydrogen halides and water
Aromatic hydrocarbons
Structure of benzene
Resonance and aromaticity
Preparation of benzene
Chemical properties
Mechanism of electrophilic substitution
Electrophilic substitution reactions, halogenation, nitration, sulphonation, Friedel-Crafts alkylation and acylation
Friedel-craft’ alkylation and acylation
Directive influence of functional groups in mono substituted benzene
Carcinogenicity and toxicity
Solid state General characteristics of solid state
Amorphous and crystalline solids
Classification of crystalline solids based on different binding forces
Probing the structure of solids
X-ray crystallography
Crystal lattices and unit cells
Bravais lattices
Primitive and centred unit cells
Number of atoms in a unit cell
Primitive, body centred and face centred cubic unit cell
Close packed structures
Close packing in one dimension
In two dimensions and in three dimensions
Tetrahedral and octahedral voids
Formula of a compound and number of voids filled
Locating tetrahedral and octahedral voids
Packing efficiency in simple cubic
Bcc and in hcp, ccp lattice
Calculations involving unit cell dimensions
Density of the unit cell
Imperfections in solids
Types of point defects
Stoichiometric and non-stoichiometric defects
Conduction of electricity in metals
Semiconductors and Insulators
Band theory of metals
Magnetic properties
Solutions Types of solutions
Expressing concentration of solutions
Mass percentage
Volume percentage
Mass by volume percentage
Parts per million
Mole fraction
Molarity and molality
Solubility product, common ion effect, pH and buffer solutions
Olubility of a solid in a liquid
Solubility of a gas in a liquid
Henry’s law
Vapour pressure of liquid solutions
Vapour pressure of liquid
Liquid solutions
Raoult’s law as a special case of henry’s law
Vapour pressure of solutions of solids in liquids
Ideal and non-ideal solutions
Colligative properties and determination of molar mass
Relative lowering of vapour pressure
Elevation of boiling point
Depression of freezing point
Osmosis and osmotic pressure
Reverse osmosis and water purification
Abnormal molar masses
Van't Hoff factor
Electrochemistry and chemical kinetics Electrochemical cells
Galvanic cells
Measurement of electrode potentials
Nernst equation
Equilibrium constant from nernst equation
Electrochemical cell and gibbs energy of the cell reaction
Conductance of electrolytic solutions
Measurement of the conductivity of ionic solutions
Variation of conductivity and molar conductivity with concentration
Strong electrolytes and weak electrolytes
Applications of kohlrausch’s law
Electrolytic cells and electrolysis
Faraday's laws of electrolysis
Products of electrolysis
Primary batteries and secondary batteries
Fuel cells
Corrosion of metals
Hydrogen economy
Chemical kinetics Rate of a chemical reaction
Factors influencing rate of a reaction
Dependance of rate on concentration
Rate expression and rate constant
Order of a reaction
Molecularity of a reaction
Integrated rate equations
Zero order reactions
First order reactions
Half life of a reaction
Pseudo first order reaction
Temperature dependence of the rate of a reaction
Effect of catalyst
Collision theory of chemical reaction rates
Surface chemistry Distinction between adsorption and absorption
Mechanism of adsorption
Types of adsorption
Characteristics of physisorption
Characteristics of chemisorptions
Adsorption isotherms
Adsorption from solution phase
Applications of adsorption
Promoters and poisons
Auto catalysis
Homogeneous and heterogeneous catalysis
Adsorption theory of heterogeneous catalysis
Important features of solid catalysts
Selective catalysis by zeolites
Enzyme Catalysis
Characteristics and mechanism
Catalysts in industry
Classification of colloids
Classification based on physical state of dispersed phase and dispersion medium
Classification based on nature of interaction between dispersed phase and dispersion medium
Classification based on type of particles of the dispersed phase
Multi molecular
Macromolecular and associated colloids
Cleansing action of soaps
Preparation of colloids
Purification of colloidal solutions
Properties of colloidal solutions
Colligative properties
Tyndal effect
Brownian movement
Charge on colloidal particles
Precipitation methods
Coagulation of lyophilic sols and protection of colloids
Colloids around us
Application of colloids
General principles of metallurgy Occurrence of metals
Concentration of ores
Magnetic separation
Froth floatation
Extraction of crude metal from concentrated ore
Conversion to oxide
Reduction of oxide to the metal
Thermodynamic principles of metallurgy
Ellingham diagram
Extraction of iron
Copper and zinc from their oxides
Electrochemical principles of metallurgy
Oxidation and reduction
Refining of crude metal
Liquation poling
Electrolytic refining
Zone refining and vapour phase refining
Uses of aluminium, copper, zinc and iron
P-block elements, group-15 elements Occurrence, preparation, properties and uses of hydrogen
Electronic configuration
Atomic and ionic radii
Ionisation enthalpy
Physical and Chemical properties
Properties and Uses
Compounds of Nitrogen
Properties and uses of ammonia
Oxides of Nitrogen
Preparation and properties of nitric acid
Phosphorous of allotropic forms
Phosphine of preparation
Phosphorous halides
Oxoacids of phosphorous
Group-16 elements Occurrence, preparation, properties and uses of hydrogen
Electronic configuration
Atomic and ionic radii
Ionisation enthalpy
Electron gain enthalpy
Physical and Chemical properties
Dioxygen of preparation
Properties and Uses
Simple oxides
Ozone preparation
Properties of structure and uses
Sulphur allotropic forms
Sulphur dioxide preparation properties and uses
Oxoacids of sulphur
Sulphuric acid and manufacture properties and uses
Group-17 elements Occurrence of electronic configuration
Atomic and ionic radii
Ionisation enthalpy
Electron gain enthalpy
Physical and Chemical properties
Chlorine preparation of properties and uses
Hydrogen chloride of preparation, properties and uses
Oxoacids of halogens
Interhalogen compounds preparation, properties and uses
Group-18 elements Occurrence ofelectronic configuration
Ionization enthalpy
Atomic radii
Electron gain enthalpy
Physical and Chemical properties
Xenon-fluorine compounds
Xef2,xef4 and xef6 of preparation
Hydrolysis and formation of fluoro anions
Structures of xef2, xef4 and xef6
Xenon-oxygen compounds xeo3 and xeof4 their formation and structures
Uses of noble gases
D and f block elements & coordination compounds D and f block elements
Position in the periodic table
Electronic configuration of the d-block elements
General properties of the transition elements (d-block)
Physical properties
Variation in atomic and ionic sizes of transition series
Ionisation enthalpies
Oxidation states
Trends in the m²+/m and m³+/m²+ standard electrode potentials
Trends in stability of higher oxidation states
Chemical reactivity and eθ values
Magnetic properties
Formation of coloured ions
Formation of complex compounds
Catalytic properties
Formation of interstitial compounds
Alloy formation
Some important compounds of transition elements-
Oxides and oxoanions of metals and preparation
Properties and uses of potassium dichromate and potassium permanganate
Structures of chromate
Manganate and permanganate ions
Inner transition elements(f-block)
Lanthanoids electronic configuration
Atomic and ionic sizes
General characteristics
Actinoids and electronic configuration atomic and ionic sizes
General characteristics and comparison with lanthanoids
Some applications of d and f block elements
Coordination compounds Werner’s theory of coordination compounds
Definitions of some terms used in coordination compounds
Nomenclature of coordination compounds
IUPAC nomenclature
Isomerism in coordination compounds
Stereo isomerism
Geometrical and optical isomerism
Structural isomerism
Ionisation and hydrate isomerism
Bonding in coordination compounds
Valence bond theory
Magnetic properties of coordination compounds
Limitations of valence bond theory
Crystal field theory
Crystal field splitting in octahedral and tetrahedral coordination entities
Colour in coordination compounds
Limitations of crystal field theory
Bonding in metal carbonyls
Stability of coordination compounds
Importance and applications of coordination compounds
Polymers Classification of polymers
Classification based on source
Structure and mode of polymerization
Molecular forces and growth polymerization
Types of polymerization reactions
Addition polymerization or chain growth polymerization
Ionic polymerization
Free radical mechanism
Preparation of addition polymers
Teflon and polyacrylonitrile
Condensation polymerization or step growth polymerization
Preparation of nylon 6,6 and nylon 6- poly esters-terylene-bakelite
Formaldehyde polymers
Natural rubber
Vulcanisation of rubber
Synthetic rubbers
Preparation of neoprene and buna-n
Molecular mass of polymers
Number average and weight average molecular masses
Poly dispersity index(pdi)
Biodegradable polymers-phbv
Nylon 2-nylon 6
Polymers of commercial importance
Polyvinylchloride (pvc)
Urea-formaldehyde resin
Glyptal and bakelite
Their monomers structures and uses
Biomolecules Classification of carbohydrates
Preparation of glucose from sucrose and starch
Properties and structure of glucose
D,l configurations and (+), (-) notations of glucose
Structure of fructose
Sucrose of preparation and structure
Invert sugar- structures of maltose and lactose
Structures of starch
Cellulose and glycogen
Importance of carbohydrates
Proteins aminoacids
Natural aminoacids
Classification of aminoacids
Structures and d and l forms
Zwitter ions
Proteins structures
Classification of fibrous and globular
Primary, secondary, tertiary and quarternary structures of proteins
Denaturation of Proteins
Mechanism of enzyme action
Explanation names classification of vitamins
Sources of vitamins
Deficiency diseases of different types of vitamins
Nucleic acids
Chemical composition of nucleic acids
Structures of nucleic acids
Dna finger printing biological functions of nucleic acids
Definition and different types of hormones their production
Biological activity
Diseases due to their abnormal activities
Chemistry in everyday life Drugs and their classification
Classification of drugs on the basis of pharmocological effect
Classification of drugs on the basis of drug action
Classification of drugs on the basis of chemical structure
Classification of drugs on the basis of molecular targets
Drug-target interaction
Enzymes as drug targets
Catalytic action of enzymes
Drug-enzyme interaction and receptors as drug targets
Therapeutic action of different classes of drugs
Antacids, antihistamines, neurologically active drugs
Narcotic analgesics
Antiseptics and disinfectants
Antifertility Drugs
Chemicals in food-artificial sweetening agents
Food preservatives
Antioxidants in food
Chemicals in food-Preservatives,artificial sweatening agents-common examples, Cleansing agents - -Soaps and detergents,cleansing action
Soaps and synthetic detergents types and examples
Haloalkanes and Haloarenes Classification and nomenclature
Nature of C-X bond
Methods of Preparation
Alkyl halides and aryl halides-from alcohols, from hydrocarbons
By free radical halogenation
By electrophilic substitution
By replacement of diazonium group
By the addition of hydrogen halides and halogens to alkenes-by halogen exchange reactions
Physical propertiesmelting and boiling points
Density and solubility
Chemical reactions
Reactions of haloalkanes
Nucleophilic substitution reactions
Sn² mechanism
Sn¹ mechanism
Stereochemical aspects of nucleophilic substitution reactions-optical activity
Elimination reactions
Reaction with metals-reactions of haloarenes
Nucleophilic substitution
Electrophilic substitution and
Reaction with metals
Polyhalogen compounds
Uses and environmental effects of dichloro methane
Trichloromethane triiodomethane
Tetrachloro methane
Freons and ddt
Organic compounds containing C, H and O (alcohols, phenols, ethers, aldehydes, ketones and carboxylic acids) Alcohols,phenols and ethers -classification
Phenols and ethers
Structures of hydroxy and ether functional groups
Methods of Preparation
Alcohols from alkenes and carbonyl compounds
From grignard reagents
Phenols from haloarenes
Benzene sulphonic acid
Diazonium salts
Physical propertics of alcohols and phenols
Chemical reactions of alcohols and phenols
Reactions involving cleavage of o-h bond in alcohols
Acidity of alcohols and phenols, esterification
Reactions involving cleavage of c-o bond- reactions with hx, px3, dehydration and oxidation
Reactions of phenols- electrophilic aromatic substitution
Kolbe’s reaction
Tiemann reaction
Reaction with zinc dust and oxidation
Commercially important alcohols
Ethers and methods of preparation
By dehydration of alcohols
Williamson synthesis
Physical properties
Chemical reactions
Cleavage of c-o bond and electrophilic substitution of aromatic ethers
Aldehydes and ketones Nomenclature and structure of carbonyl group
Preparation of aldehydes and ketones
By oxidation of alcohols
By dehydrogenation of alcohols
From hydrocarbons
Preparation of aldehydes
From acyl chlorides
From nitriles and esters
From hydrocarbons-preparation of ketones
From nitriles
From benzene or substituted benzenes
Physical properties of aldehydes and ketones
Chemical reactions of aldehydes and ketones
Nucleophilic addition
Reactions due to α
Hydrogen and other reactions
Cannizzaro reaction,electrophilic substitution reaction
Uses of aldehydes and ketones
Carboxylic acids Nomenclature and structure of carboxylgroup
Methods of preparation of carboxylic acids
From primary alcohols and aldehydes
From alkylbenzenes
From nitriles and amides
From grignard reagents
From acyl halides and anhydrides
From esters
Physical properties
Chemical reactions
Reactions involving cleavage of o-h bond-acidity
Reactions with metals and alkalies
Reactions involving cleavage of c-oh bond-formation of anhydride
Reactions with pcl5, pcl3, socl2
Esterification and reaction with ammonia
Reactions involving-cooh group-reduction, decarboxylation
Substitution reactions in the hydrocarbon part
Halogenation and ring substitution
Uses of carboxylic acids
Organic compounds containing nitrogen Structure of amines
Preparation of amines
Reduction of nitro compounds
Ammonolysis of alkyl halides
Reduction of nitriles
Reduction of amides
Gabriel phthalimide synthesis and hoffmann bromamide degradation reaction
Physical properties
Chemical reactions
Basic character of amines
Carbyl amine reaction
Reaction with nitrous acid
Reaction with aryl sulphonyl chloride
Electrophilic substitution of aromatic amines
Bromination, nitration and sulphonation
Diazonium salts Methods of preparation of diazonium salts by diazotization physical properties
Chemical reactions
Reactions involving displacement of nitrogen
Sandmeyer reaction
Gatterman reaction
Replacement by iodiode and fluoride ions
Hydrogen, hydroxyl and nitro groups
Reactions involving retention of diazo group
Coupling reactions
Importance of diazonium salts in synthesis of aromatic compounds
Cyanides and isocyanides Structure and nomenclature of cyanides and isocyanides
Preparation of physical properties and chemical reactions of cyanides and isocyanides

AUEET 2019 Exam Pattern

The examination authority of University has released the exam pattern of AUEET 2019 to which candidates must refer to before starting with the preparation and appearing in examination. With the help of AUEET 2019 exam pattern, candidate will detailed information about the arrangement of questions in question paper, mode of examination, language of question paper, total number of questions, total marks, marks for each question,  time duration and marking scheme. When all these patterns are known candidate can manage their time well and can even secure good marks in entrance examination.

Exam Pattern of AUEET 2019



Mode of exam

Offline Mode

Language of exam


Exam duration

1 hour 30 minutes

Type of questions

Multiple Choice Questions (MCQs).

Each question will have four answers, out of which one will be the correct option.

Total number of questions

  • Physics – 30

  • Chemistry – 30

  • Mathematics - 30

 Total questions = 90

Total marks


AUEET 2019 Admit Card

Directorate of Admissions, Andhra University will release the hall ticket of AUEET 2019 on April 28 in an online mode. Candidates can access their AUEET 2019 hall ticket by logging to their admission portal by entering application form number and date of birth. Hall ticket of AUEET 2019 comprises of details such as candidate's name, roll number, date of examination, time, exam centre along with the address of examination centre and general instructions. Candidates are advised to check all the details mentioned in admit card. If in case of any discrepancies, candidates are advised to contact the examination authority and get them rectified. If no discrepancies are present, candidates can download the admit card and get atleast 2 printouts. AUEET 2019 hall ticket is an important document which must be presented at the time of examination. Candidates will not be allowed to enter the examination hall without hall ticket of AUEET 2019. It must be noted that AUEET hall ticket must be preserved until all admission process are complete.

How to Download Hall ticket of AUEET 2019

Candidates can follow the below mentioned steps to download their hall ticket of AUEET 2019.

  • Go to official website of Andhra University
  • Log in by entering Application Form number and Date of Birth
  • Click on AUEET Hall Ticket 2019
  • Your hall ticket will appear on the screen
  • Download Hall ticket in PDF format
  • Get atleast 2 Print of Hall ticket for future use

AUEET 2019 Exam Centers

State City
Andhra Pradesh Visakhapatnam

Documents Required at Exam

  • AUEET 2019 hall ticket

AUEET 2019 Result

The admission authority of examination will declare the result of AUEET 2019 on May 15. Candidates will be able to access their AUEET 2019 result by logging to official website using their application form number and date of birth. The result of AUEET 2019 will be available in the forms of ranks on the basis of marks secured in entrance examination. If two or more candidates secure same marks in entrance examination, merit list will be prepared by considering tie-breaker rules. Candidates must keep in mind that under no circumstances, revaluation or personal verification of OMR sheets will be entertained. 

How to download result of AUEET 2019

  • Log on to the AUEET 2019 official website
  • Click on the link ‘AUEET 2019 Result’
  • Enter the application form number and date of birth and then click on ‘Submit’
  • AUEET 2019 result will appear in the form of score card
  • Download it in PDF format
  • Take printout for counselling process

AUEET 2019 Counselling

Mode of Counselling: Offline

The counselling of AUEET 2019 will commence from May 25 onwards. Candidates will be shortlisted on the basis of merit list prepared by the admission authority. The shortlisted candidates will be invited to attend the AUEET 2019 counselling process at scheduled counselling venue in person. Candidates must bring along their original documents for document verification process. Seats will be allotted on the basis of choices or preference made by candidate and merit list prepared by University. Candidates allotted seats will have to report to the allotted institute along with admission fee to confirm their seat. If a candidates wishes to cancel their allotted seat, in such case 90% refund of total fee will be provided before completion of first round of counselling, 80% refund will be provided before completion of second round of counselling and no refund after second round of counselling.

AUEET 2019 Counselling Centers

State City
Andhra Pradesh Visakhapatnam

Documents Required at Counselling

  • AUEET 2019 hall ticket
  • AUEET 2019 rank card
  • Class 10th marksheets/certificate
  • Class 12th marksheets/certificate
  • Transfer certificate
  • Conduct certificate
  • Date of birth certificate
  • Migration certificate
  • Study certificates for the last seven years or residence certificate for preceding seven years of the qualifying examination
  • Integrated community certificate issued by the competent authority in case of SC/ST/BC/EBC/minority candidates
  • Valid latest income certificate issued by M.R.O/thasildar if fee concession is claimed
  • 4 recent passport size Photos
  • Candidates opting for admission under NCC/Sports/CAP/PH quota shall produce relevant original certificate
  • Discharge certificate and service certificate of the parent in case of a child of armed personnel
  • Physical fitness certificate from an assistant civil surgeon
  • One set of photostat copies of all the above certificates

General Information

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