Dec 01, 2016

Apr 20, 2017

May 05, 2017

# AEEE- B.Tech 2017 - Exam Pattern

**Exam Paper Type** : Both Online and Pen & Paper |

- AEEE-2017 will be conducted in two separate modes, namely
**Computer Based Test (CBT) and Pen & Paper Based Test (P&P).** - Candidates can choose either CBT or P&P mode as per their Choice.
**BUT NOT BOTH.** - P&P Examination will be conducted in Tamilnadu, Karnataka and Kerala States only.
- Computer Based Test is conducted in 96 cities all over the Country.
- Amrita Entrance Examination–Engineering 2017 will be of
**2 ½ hours**duration and there will be one question paper containing**100 objective type (multiple choice types)**questions in Mathematics, Physics, and Chemistry. - Each question will be followed by four answers of which one is correct / most appropriate.

Subject |
No. of Questions |
Marks |

Mathematics | 40 questions | 120 |

Physics | 30 questions | 90 |

Chemistry | 30 questions | 90 |

Total |
100 questions |
300 |

**Marking Scheme:**- Each correct answer will fetch
**3 marks**, each incorrect answer has a penalty**(-1 mark)**i.e. for every wrong answer**1 mark**will be deducted.

- Each correct answer will fetch

## AEEE- B.Tech 2017 Syllabus

- Ordinary Differential Equations
- Solution Of Differential Equations
- Homogeneous And Linear Differential Equations

- Measures Of Dispersion
- Standard Deviation
- probability

- Principle Of Counting, Permutation

- Application of definite integrals
- Definite integrals and their properties
- Methods of integration
- Integration as the inverse process of differentiation

- Calculation of Mean, median and mode
- Calculation of standard deviation, variance and mean deviation

- Complex Numbers
- Algebra Of Complex Numbers
- Quadratic Equations

- Sets And Their Representation
- Equivalence Relations, Functions

- Inverse Trigonometric function
- Solution of Triangle
- Measurement of angles

- Co-ordinate axes and co-ordinate planes
- Angle between two lines
- Equation of a plane

- Binomial Theorem For Integral Index

- Matrices & Determinants
- Determinants
- Inverse of A Square Matrix
- Transformations

- Real – Valued Functions
- Algebra Of Functions
- Polynomials
- Rational, Trigonometric
- Inverse Functions
- Rolle’s And Lagrange’s Mean Value Theorems
- Applications Of Derivatives
- logarithmic and exponential function

- Cartesian System Of Rectangular Co-Ordinates
- Straight Lines
- Circles, Conic Sections

- Vectors And Scalars, Products

- Arithmetic and geometric progressions
- Special Series
- Geometric Progression

- Morden Peirodic Law of Periodic table

- Alkali and Alkaline
- Earth Metals

- Alcohols
- Phenols
- Ethers
- Aldehyde and Ketones
- Carboxylic Acids

- Organic Compound hydroxyl
- Inorganic Compound
- Titrinilide Excerises

- Adsorption
- Colloidal State
- Enzyme catalysis

- Aspects of Kinetics
- Factor Affecting the Rate of the Reactions
- Mechanism of Reaction
- Surface Chemistry Adsorption

- Mole Concentration
- Chemical Solutions
- Physical Equilibrium
- Chemical Equilibria
- Ionic Equilibria
- Factors Affecting Equilibria

- Purification – Crystallization
- Quantitative Analysis
- Qualitative analysis

- Chemicals In Medicines
- Chemicals In Food
- Cleansing agents

- Group 13 elements
- Group 14 elements
- Group 15 elements
- Group 16 elements
- Group 17 elements
- Group 18 elements

- Amines
- Diazoniums salts

- General Introduction of biomolecules

- Halogens Reactions
- Environmental Effects Of Chloroform & Iodoform

- Valence electrons, Ionic Bond
- Molecular Structure
- Covalent Bond
- Intermolecular Forces
- Metallic Bond

- Introduction To Co-Ordination Compounds,

- Electrolytic Conduction
- Redox Reactions

- The Biological Cell
- Carbohydrates
- Nucleic Acids
- Vitamins
- Polymers
- Pollution
- Chemicals in medicine, health-care and food
- Proteins

- Alkanes
- Alkenes
- Alkynes
- Aromatic Hydrocarbons

- Transition elements
- Actinoids
- Lanthanoids

- General Introduction and classification of polymers

- Atomic Introduction
- Quantum mechanics
- Electron atoms
- Periodicity

- Classification of Organic Chemistry
- Electronic displacement in a covalent bond
- Nomenclature (Trivial and IUPAC)
- Common types of organics Reactions

- Mole concept and molar mass
- Atomic And Molecular Masses
- Laws Of Chemical Combination
- General introduction
- Dalton’s atomic theory

- Different Concentration Of Solution
- Vapour Pressure Of Solutions And Raoult’s Law
- Ideal And Non-Ideal Solutions

- Principles and Methods of Extraction

- Hydrogen as a fuel
- Physical and Chemical Properties of water
- Hydrogen in periodic table

- Description of rotation velocity
- Rotational motion
- Moment of inertia
- Torque and angular momentum
- Conservation of angular momentum
- Rolling motion

- Bio-Savert’s law and its applications
- Ampere’s law and its applications
- Magnetic moment of a current loop
- Lorentz force Law
- Force in Uniform Magnetic Field

- Newton’s laws
- Circular motion
- Force and Inertia
- Statics and Kinetics friction
- Dynamics of uniform circular motion

- Gravitational potential energy
- Newton’s law of gravitation
- Motion of planets

- Law Of Equipartition Of Energy
- Application Of Specific Heat Capacities

- Coulomb’s law
- Electric field
- Electrostatic potential and Electrostatic potential energy
- Gauss’ law and its applications
- Electric dipole
- Capacitance and dielectrics

- Dual Nature Of Radiation
- Hertz And Lenard’s Observations
- Photoelectric Effect
- Einstein’s Photoelectric Equation
- Particle Nature Of Light
- Matter Waves-Wave Nature Of Particle
- De Broglie Relation
- Davisson-Germer Experiment

- Energy bands in solids
- Semiconductor diode
- Junction transistor
- Logic gates

- Thermal equilibrium and temperature
- Specific heat, Heat Transfer
- Heat, Work and Internal Energy
- Second Law of thermodynamics, Carnot engine

- Ohm’s law, Joule heating
- Electric Cell and Internal Resistance
- kirchhof's Law

- Laws Of Reflection And Refraction
- Lenses and mirrors
- Optical instruments
- Interference
- Interference in thin films
- Diffraction due to a single slit
- Polarization
- Electromagnetic waves

- Progressive sinusoidal waves
- Standing waves in strings and pipes
- Superposition of waves, beats
- Doppler Effect

- Work done by a force
- Kinetic energy and work-energy theorem
- Power
- Conservative forces and potential energy
- Conservation of mechanical energy

- Units Different systems of units, SI units
- Dimensional Analysis
- Precision and significant figures
- Fundamental measurements in Physic

- Properties of vectors
- Position, velocity and acceleration vectors
- Motion with constant acceleration
- Projectile motion
- Uniform circular motion
- Relative motion

- Electromagnetic Waves Characteristics
- Electromagnetic Spectrum

- Kinematics of simple harmonic motion
- Spring mass system, simple and compound pendulum
- Forced & damped oscillations

- Faraday’s law, Lenz’s law, eddy currents
- Self and mutual inductance
- Transformers and generators
- Alternating current
- AC circuits, LCR circuits

- Pressure, density and Archimedes’ principle
- Elasticity
- Viscosity and Surface Tension
- Bernoulli’s theorem

- Alpha-Particle Scattering Experiment
- Bohr Model, Energy Levels
- Hydrogen Spectrum
- Composition And Size Of Nucleus
- Isotones
- Radioactivity-Alpha
- Beta And Gamma
- Radioactive Decay Law
- Mass-Energy Relation And Defect
- Binding Energy Per Nucleon
- Nuclear Fission And Fusion
- Rutherford’s model of atom

## AEEE- B.Tech Exam Prepartions FAQ

**1) What are the eligibility criteria to apply for AEEE to get admission into Amrita University for B.Tech.? **

To get into Amrita University for B.Tech., the candidate should have passed

- 10+ 2 that is XII with a minimum aggregate of 60%, having Physics, Chemistry and Mathematics as compulsory subjects. The candidate should not have less than 55 marks in each of these subjects. OR
- A three year engineering diploma with minimum 60% marks awarded by state board.

**2) What is the procedure to get admission for B.Tech. in Amrita University ?**

A candidate should have a pass in 10+2 ( class XII ) or its equivalent securing an aggregate of 60% marks in Mathematics, Physics and Chemistry with not less than 55% marks in each of these three subjects. Those who appear for the above examination in March / April and expect to secure minimum marks as above may also apply. Age restrictions apply.

**3) What is the duration for AEEE?**

The duration for AEEE paper is 3 hours.

**4) How is Amrita B.Tech.programme designed?**

Choice based credit system with continuous evaluation is followed in semester pattern.

**5) In XII class exam my average marks for Physics, Chemistry and Mathematics is above 60% but in one of the subjects the score is less than 55%. Can I attend the counselling?**

No. You should get 55% or more separately in Mathematics, Physics and Chemistry each, together with 60% aggregate in these three subjects.

**6) What is the paper pattern for AEEE?**

There is only one paper in AEEE that consists of objective type questions in Physics, Chemistry and Mathematics. Four options are given for every question of which only one is correct. Every question carries 3 marks. For every wrong answer 1 mark is deducted as negative marking. The question paper is in English.

**7) What is the weightage given to every subject in AEEE?**

There are 50 questions in Mathematics, 35 questions in Physics and 35 questions in chemistry. There are total 120 questions in the paper. Each question carries 3 marks so the paper contains a total of 360 marks questions.

**8) Will there be negative marking in AEEE exam?**

Yes,one mark (-1) will be deducted for each incorrect response.

**9) What is upper age limit in AEEE M.Tech programmes?**

Candidates shall be born on or after 1st July 1995.