AEEE Syllabus 2019- Amrita Vishwa Vidyapeetham is the organizing authority for the Amrita engineering entrance exam commonly known as AEEE. Through AEEE applicants can be able to get admission in undergraduate engineering programmes offered by its other three different campuses located at Amritapuri, Bangalore, and Coimbatore. AEEE is a national level online and offline mode entrance exam. AEEE will be held in the 3rd week of April 2019. For the examination, AEEE Syllabus pays an important role to plan the preparation strategy accordingly.
By getting an idea about the AEEE Syllabus applicant will be more focused on the important topics. The AEEE Syllabus will be comprised of 3 subjects namely Physics, Chemistry, and Mathematics. Applicants can be able to download the AEEE Syllabus from the official website.
Applicants who are appearing for the AEEE 2019 must have the full knowledge about the syllabus so that they have a better understanding of the topics that will become in the examination. In this article, we will provide the AEEE syllabus 2019 with chapter-wise topics. We are advising the applicants to read the full-length article to get full information about the AEEE syllabus.
Physics
Chemistry
Mathematics
Unit 1: Units and dimensions
Units for measurement
System of units
SI
Fundamental and derived units
Dimensional analysis
Unit 2: Mechanics
Motion in one-dimension
Uniform and non-uniform motion
Uniformly accelerated motion
Scalars and Vectors
Resolution of Vectors
Vector properties
Motion in a plane
Projectile motion
Uniform circular motion
Newton’s laws of motion
Conservation of linear momentum
Friction
Work-Energy theorem
Kinetic energy
Potential energy
Conservation of energy
Elastic collision in one and two dimensions
Center of mass of particles & rigid body
Rotational motion and torque
Angular momentum and its conservation
Moments of inertia for various geometries
Parallel and perpendicular axes theorem
Universal law of gravitation
Acceleration due to gravity
Planetary motion
Kepler’s laws
Satellites
Gravitational potential & Potential energy
Escape velocity
Unit 3: Solids and Fluids
Topic: Solids
Elastic properties
Hooke’s law
Young’s modulus
bulk modulus
rigidity modulus
Topic: Liquids
Cohesion and adhesion
Surface energy and surface tension
Flow of fluids
Bernoulli's theorem and applications
Viscosity
Stoke’s law
Terminal velocity
Unit 4- Oscillations and Waves
Topic: Oscillations
Oscillatory motion
Simple harmonic motion (SHM)
Angular SHM
Linear harmonic oscillator
Combination of springs
Simple pendulum
Expression of energy
Graphical representation of SHM
Types of oscillations
Wave Motion
Properties of waves
Transverse and longitudinal waves
Superposition of waves
Progressive and Standing waves
Vibration of strings and air columns and beats
Doppler Effect
Unit 5-Heat and Thermodynamics
Heat
Work and temperature
Ideal gas laws
Specific heat capacity
Thermal expansion of solids
Liquids and gases
Relationship between Cp and Cv for gases
Newton’s law of cooling
Black body
Kirchoff’s law
Stefan's law & Wein’s law
Thermodynamic equilibrium
Internal energy
Zeroth
First and second law of thermodynamics
Thermodynamic processes
Carnot cycle
Efficiency of heat engines
Refrigerator
Unit 6- Electrostatics, Current Electricity and Magnetostatics
Topic-Electric charges and Fields
Electric Charge
Conductors and Insulators
Charging by Induction
Basic Properties of Electric Charge
Coulomb’s Law
Forces between Multiple Charges
Electric Field
Electric Field Lines
Electric Flux
Electric Dipole
Dipole in a Uniform External Field
Continuous Charge Distribution
Gauss’s Law
Applications of Gauss’s Law
Topic: Electrostatic potential and Capacitance
Electrostatic potential
Potential due to a point charge
Electric dipole
System of charges
Equipotential surfaces
Potential energy of a system of charges
Potential energy in an external field
Electrostatics of conductors
Dielectric and Polarization
Capacitors
Capacitance
Parallel plate capacitor
Effect of dielectric on capacitance
Energy stored in a capacitor
Van de Graaff generator
Topic: Current Electricity
Electric current
Electric currents in conductors
Ohm’s law
Drift of electrons
Origin of Resistivity
Temperature dependence of resistivity
Electrical energy
Power
Combination of resistors
Series and parallel
Cells
Emf
Internal resistance
Cells in series and in parallel
Kirchhoff’s Rules
Wheatstone bridge
Meter Bridge
Potentiometer
Topic: Heating effects of current
Electric power
Concept of thermoelectricity-Seebeck effect and thermocouple
Chemical effect of current-Faraday’s laws of electrolysis
Topic: Magnetic effects
Oersted’s experiment
Biot Savart's law
Magnetic field due to a straight wire
Circular loop and solenoid
Lorentz force
Forces and torques on a current
Force between current carrying wires
Moving coil galvanometer
Conversion to ammeter and voltmeter
Topic: Magneto Statistics
Bar magnet
Magnetic field
Lines of force
Torque on a bar magnet
Earth’s magnetic field
Magnetic induction
Magnetic susceptibility
Unit 7- Electromagnetic Induction and Electromagnetic Waves
Topic: Electromagnetic Induction
Induced emf
Magnetic flux
Faraday’s law
Lenz’s Law & Conservation of Energy
Self and mutual inductance
Topic: Alternating Current
Impedance and reactance
Power in AC circuits
AC voltage applied to resistor
Inductor
Capacitor
LCR circuits and resonance
Transformer and AC generator
Topic: Electromagnetic Waves
Electromagnetic waves characteristics
Electromagnetic spectrum from gamma to radio waves
Unit 8-Ray and Wave Optics
Topic: Ray Optics and optical instruments
Reflection and refraction of light by plane spherical mirrors
Total Internal Reflection; optical fiber
Deviation and dispersion
Lens formula
Magnification
Resolving power
Microscope and telescope
Topic: Wave Optics
Huygens principle
Wave nature of light
Interference of light waves
Young’s experiment
Thin films
Newton’s rings
Diffraction-single slit, grating
Polarization
Unit 9-Modern Physics
Topic: Dual nature of radiation and matter
De Broglie relation
Electron Emission
Photoelectric effect
Experimental study
Topic: Einstein’s photoelectric equation
Energy quantum of radiation
Particle nature of light: the photon
Wave nature of matter
Topic: Atoms
Alpha-particle scattering
Rutherford’s nuclear model of atom
Atomic spectra
Bohr model of the hydrogen atom
The line spectra of the hydrogen atom
Topic: Nuclei
Atomic masses
Composition of nucleus
Size of the nucleus
Mass-energy
Nuclear binding energy
Nuclear force
Radioactivity
Nuclear energy
Topic: Semiconductor materials, devices, and simple circuits
Energy bands in solids
Classification of metals, conductors and semiconductors
Intrinsic semiconductor
Extrinsic semiconductor
P-n junction
Semiconductor diode
Junction diode as a rectifier
Junction transistor
Transistor as an amplifier
Unit 1-Complex Numbers:
Complex numbers in the form a+ib
Argand diagram
Algebra of complex numbers
Modulus and amplitude of a complex number
Square root of a complex number
Cube roots of unity
Triangle inequality
Unit 2-Permutations and Combinations:
Fundamental principle of counting
Permutation as an arrangement
Combination as selection
Simple applications
Unit 3-Binomial Theorem:
Binomial theorem for positive integral indices
General and middle terms in binomial expansions
Simple applications
Topic: Sequences and Series
Arithmetic
Geometric progressions
Harmonic Progressions
Insertion of Arithmetic
Geometric and Harmonic means
Relation between A.M, G.M. and H.M
Special series ∑n, ∑n2, ∑n3
Arithmetic-Geometric Series
Exponential and Logarithmic Series
Unit 4-Matrices and Determinants
Determinants
Matrices of 2 and 3 order
Properties of determinants
Evaluation of determinants
Addition and multiplication of matrices
Adjoint and inverse of a matrix
The solution of simultaneous linear equations using determinants
Unit 5-Quadratic Equations
Quadratic equations in the real & complex number system
Relation between roots and coefficients
Nature of roots
Formation of quadratic equations with given root
Unit 6-Trigonometry
Trigonometrical identities and equations
Inverse trigonometric functions and their properties
Properties of triangles
Solution of triangles
Heights and distances
Unit 7- Measures of Central Tendency and Dispersion
Calculation of Mean
Median and Mode
Calculation of standard deviation
Variance and mean deviation
Unit 8-Probability
Probability of an event
Addition and multiplication theorems
Conditional probability
Bayes’ theorem
Probability distribution of a random variate
Binomial distributions
Poisson distributions
Unit 9- Differential Calculus
Polynomials, rational, trigonometric, logarithmic and exponential functions
Graphs of simple functions
Limits
Continuity
Differentiation of the sum, difference, product
Differentiation of trigonometric, inverse trigonometric, exponential, logarithmic, composite and implicit functions
Derivatives of order up to two
Applications of derivatives
Maxima and Minima of functions one variable, tangents and normal’s
Rolle’s and Langrage’s
Mean Value Theorems
Unit 10-Integral Calculus
Integral as an anti-derivative
Fundamental integrals involving algebraic
Trigonometric, exponential and logarithmic functions
Integration by substitution
Integration using trigonometric identities
Integral as a limit of sum
Properties of definite integrals
Evaluation of definite integral
Unit 11-Differential Equations
Ordinary differential equations, their order and degree
Formation of differential equation
Differential equations
Homogeneous and linear differential equations
Unit 12-Two-Dimensional Geometry
Cartesian system
Distance formula
Area of triangle
Condition for the collinearity of three points
Slope of a line
Parallel and perpendicular lines
Unit 13-The Straight Line & the Pair of Straight Lines
Various forms of equations of a line
Intersection of lines
Angles between two lines
Conditions for concurrence of three lines
Distance of a point from a line
Homogeneous equation
Combined equation
Unit 14-Circles and Family of Circles
Standard form of equation of a circle
General form of the equation
Radius and centre
Parametric form
Equation of a circle
Unit 15-Conic Sections
Sections of cones
Equations of conic sections in standard forms
Conditions for y=mx+c
Unit 16-Vector Algebra
Vector and scalars
Addition of two vectors,
Vector products, scalar and vector triple product
Application of vectors to plane geometry
Unit 17- Three-Dimensional Geometry
Distance between two points
Cartesian and vector equation of a line
Coplanar and skew lines
Shortest distance between two lines
Cartesian and vector equation of a plane
Angle between two lines
Angle between two planes and a line and a plane
Distance of a point from a plane
Density
Mole concept
Empirical and molecular formula
Stoichiometry
Volumetry
Equivalent and molecular masses
Percentage composition
Unit 2-Atomic structure & periodicity
Atomic models
Sub-atomic particles
Orbital shapes
Pauli’s exclusion
Hund’s rule
Aufbau principle
De-Broglie relation
Heisenberg’s uncertainty
Electronic configuration and periodic properties
Unit 3-Chemical bonding
Ionic bonding, lattice energy
Born-Haber cycle, covalent bond
Fajan’s Rule
VSEPR theory
Unit 4-S-block and hydrogen
Hydrogen, isotopes
Liquid hydrogen as fuel
Alkali metals
Oxides and Hydroxides
Extraction and properties of lithium
Sodium and potassium
Group 2 elements and their properties
Unit 5-P-block elements
Boron-borax, boranes, diborane
Carbon-allotropes, oxides, carbides, halides
Sulphides of carbon group
Nitrogen
Fixation
Compounds of nitrogen
Phosphorous
Allotropes and compounds
Oxygen-oxides and peroxide
Sulphur
Unit 6-d and f block elements
D-block elements configuration and properties
Transition elements, chromium, copper, zinc, silver
f -block elements
Extraction
Lanthanides
Actinides
Unit 7-Solid state
Solids-amorphous and crystalline
Classification of crystalline
Miller indices
Unit 8-Coordination compounds
Isomerism, Werner, VBT and CFT theories
Bio-coordination compounds
Unit 9-Gaseous State & Surface chemistry
Gaseous state and gas laws
Deviation- van der Waal’s constants
Joule-Thomson effect
Liquefaction of gases
Theory of catalysis
Colloids and emulsions
Unit 10-Colligative properties
Lowering of vapour pressure
Depression of freezing point
Elevation in boiling point
Osmotic pressure, abnormality
Dissociation and association
Unit 11-Electrochemistry
Faraday’s laws
Kohlrausch’s law and applications
Electrode Potentials
EMF
Electrochemical
Galvanic cells
Nernst equation
Batteries
Fuel cells
Corrosion and prevention
Unit 12-Thermodynamics
First and second law
Internal energy, enthalpy, entropy, free energy changes
Specific heats at constant pressure and volume
Enthalpy of combustion
Formation and neutralization
Kirchoff law
Hess’s law
Bond energy
Unit 13-Chemical and Ionic Equilibria
Law of chemical equilibrium
homogenous and heterogeneous equilibrium
Le Chatlier’s principle
equilibrium constants
factors affecting equilibrium
Unit 14-Chemical kinetics
Order
Molecularity
Rate and rate constant
First and second order reactions
Temperature dependence
Factors influencing rate of reaction
Integrated rate equation
Collision theory of chemical reaction
Unit 15-Basic Organic chemistry
Functional groups
Nomenclature and isomerism
Types of organic reactions
Mechanism, purification, qualitative and quantitative analysis carbocation
Carbanion and free radical
Electron displacement in covalent bond
Unit 16-Hydrocarbons & Polymers
IUPAC nomenclature
Alkanes
Alkynes
Aromatic hydrocarbons
Physical and chemical properties
Polymerization
Unit 17-Organic halogen compounds
Nature of C-X bond- preparation
Properties and reactions of alkyl and aryl halides
Polyhalogen compounds
Substitution and elimination
Grignard reagents
Unit 18-Stereochemistry and Organic nitrogen compounds
Properties and uses of Aliphatic and aromatic nitro compounds
Aliphatic and aromatic amines
Nitriles
Diazonium salts
1°, 2°, and 3° amines
Distinction
Optical activity
Unit 19-Organic functional groups-hydroxyl, carbonyl compounds and ethers
Nomenclature
Preparation
Properties and uses of alcohols, ethers, aldehydes, ketones, aliphatic carboxylic acids, benzoic acid
Salicylic acid
Unit 20-Biomolecules and Environmental chemistry
Carbohydrates
Proteins
Amino acids
Enzymes
Vitamins
Nucleic acids
Lipids
Pollution (air, water and soil)
Industrial waste
Acid rain
Greenhouse effect
Global warming
Strategies to control pollution.
Questions asked in the examination will be multiple choice questions (MCQ).
Total number of questions in the exam will be 120.
As per the notification from total question 50 questions will come from Mathematics, 35 from Physics and 35 from Chemistry.
3 marks will be rewarded for every correct response of question.
Negative marking will be there so for every incorrect response 1 mark gets deducted.