Pratapgarh District of Uttar Pradesh at a Glance

Lok Sabha Constituencies in Pratapgarh district, Uttar Pradesh (MP Constituencies) Kaushambi
MLA Assembly Constituencies in Pratapgarh district, Uttar Pradesh Babaganj
Rampur Khas

About Pratapgarh District :

Pratapgarh district, lies between 25o34′ and 26o 11′ latitudes while between 81o19′ and 82o27′ longitudes. Primarily, an agragrian district, for a while now, Pratapgarh has risen in ranks as the top producer of Aonla fruit. It is a multi-purpose fruit, is extremely rich in vitamin C, helps cure gastro-intestinal disorders, is said to encourage youth and liveliness and is exported all over india and possibly over world in form of sweets and medicines. Pratapgarh on the Allahabad-Faizabad main road at a distance of 39 km from Sultanpur and 61 Km from Allahabad. It is one of the older districts of Uttar Pradesh, that came into existence in the year 1858. It is at a height of 137 Mt. from sea level.

District at a Glance :

  • District – 
  • Headquarters – 
  • State
Area in Sq Km (Census 2011)
  • Total – 
  • Rural – 
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Population (Census 2011)
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  • Sex Ratio (Females per 1000 males) – 
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Constituencies (ECI)
  • Assembly
  • Loksabha



AMRITA Engineering (UG) 2014 Check List

Before mailing the application, please ensure that
. your name is written as per the 12th class records.
. full & correct mailing address is written. ( NRI’s shall give their address in India)
. your contact phone number (land phone & mobile phone) & Email ID are written correctly.
. you have used black ball point pen to write and HB pencil to darken the bubbles.
. you have mentioned correctly the city code of the examination centre, first and second choice.
. you have mentioned correctly the State code from where you have completed your 12th class.
. you have affixed a recent passport size colour photograph of good quality in the space provided.
. your photograph is not attested.
. you have signed in the space provided on the first page and second page of the Application Form.
. your parent / guardian has signed the declaration.
. you have not used any pin or staple on the application.
. you have retained a photocopy of the filled-in application form and DD for future reference.
. your application is to be despatched in the pre-addressed cover intended for sending the same
and is addressed to;
The Admission Co-ordinator
Amrita School of Engineering
Amrita Vishwa Vidyapeetham University
(P.O) Amritanagar, Ettimadai, Coimbatore – 641 112.
Phone: 0422 – 2685000

AMRITA Engineering (UG) 2014 Important Notes

Please go through the following general information:
1. Please ensure that you are using the correct application form intended for Amrita Entrance Examination – Engineering 2014.
2. NRI candidates shall give their address in India for correspondence.
3. Ensure that you fulfill all the eligibility criteria given in section 3 of the Information Handbook.
4. Submit only one application form.
5. Your application must be complete in all respects. Incomplete applications are liable to be rejected.
6. Application forms will be machine processed. The machine will read only fully darkened bubbles.
Please see section 6 & 7 of the Information Handbook before filling the application form.
7. Options once selected in the application cannot be changed at a later date.
8. Completed application form shall be sent only to the address given in section 8 of the Information Handbook.
9. For Fee structure visit University website:
10.The application fee is not refundable.
11.The courts at Coimbatore shall have the jurisdiction to settle and decide all matters and disputes related to Amrita Entrance Examination – Engineering 2014.

AMRITA Engineering (UG) 2014 FAQs

AMRITA Engineering (UG) 2014 FAQs (Frequently Asked Questions) : 

Qn.- 1. What is the procedure to get admission for B.Tech. in Amrita University ?

Ans: 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 (or) a three year Diploma in engineering with minimum 60% marks, awarded by any State Board of Technical Education and also should appear for Amrita Entrance Exam to be eligible to get admission based on his / her rank in the entrance exam. Age restrictions apply.

Qn.– 2. Can a candidate who has scored high rank in any other national or state entrance exam get direct admission in Amrita?

Ans : No. Only candidates who appeared for Amrita Entrance exam 2014 are eligible for admission.

Qn.– 3. Is Amrita Vishwa Vidyapeetham affiliated to any University for purpose of recognition of degrees?

Ans : No. Amrita Vishwa Vidyapeetham is a University established under sec 3 of UGC Act 1956. Being a University, the question of affiliation to another university does not arise. Since the university is recognized by UGC and Ministry of HRD, Govt. of India, the courses offered by Amrita University are recognized. The University is accredited by National Assessment and Accreditation Council ( NAAC ) with ‘A’ Grade in 2009. The HRD Ministry’s Panel Report(2010) on Deemed Universities has graded Amrita in Category ‘A’.

Qn.– 4. How is Amrita B.Tech.Programme designed?

Ans : Choice Based credit system with continuous evaluation is followed in semester pattern.

Qn.– 5. Is campus transfer possible after joining the B.Tech. programme in anyone of the Amrita campuses?

Ans : No. There is no provision for campus transfer.

Qn.– 6. How many students are presently studying in the University?

Ans: At present around 15,000 students are studying in the five campuses of the University.

Qn.– 7. Where should I attend the counselling for B.Tech. admission?

Ans : You can attend the counselling in any one of the three campuses at your convenience and opt any branch in any one of the three campuses according to the availability of seat at the time of your counselling.

Qn.– 8. At the time of counselling, is the presence of candidate compulsory?

Ans : Yes, the candidate along with his parent or guardian shall be present at the counselling desk.

Qn.– 9. If I do not receive call letter in time to attend the counselling, what can I do?

Ans : The rank list and counselling schedule will be published in the university website. Candidates who do not get the intimation letter shall check the website and if their rank is included for counselling, they may attend the counselling with all their original certificates as specified. Moreover they may contact the university office in this regard before the date of counselling. (Ph : 0422 2685169/170)

Qn.– 10.In XII class exam my average marks for Physics, Chemistry and Mathematics is above 60% but in Physics the score is less than 55%. Can I attend the counselling?

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


AMRITA Engineering (UG) 2014 General Instructions

AMRITA Engineering (UG) 2014 General Instructions for the students :-

  • Sealed question booklet will be in 4 versions A, B, C & D. The version code of the question booklet, the number of pages and question booklet number will be printed on the front page of the question booklet.
  • Using blue / black ball point pen, candidate shall write his / her name, registration number and signature in the spaces provided in the question booklet.
  • Answer sheet :  An OMR answer sheet is used for marking the answers. Specimen of the OMR answer sheet .
  • Distribution of Question Booklet and Answer Sheet :  Question booklet and coded answer sheet will be distributed in the examination hall 15 minutes before the actual time of commencement of examination, so that the candidates shall have sufficient time to read the instructions and fill up the required information on question booklet and answer sheet.
  • Important Points to note :   The candidate should not do any rough work on the answer sheet. All rough work should be done in the space provided for the purpose in the question booklet.
  • Extra care is needed while handling the coded answer sheet in the following respects.
  • DO NOT: (i) pin or staple (ii) punch or tag (iii) make hole anywhere (iv) wet or soil (v) tear or mutilate (vi) wrinkle or fold the coded answer sheet.

AMRITA Engineering (UG) 2014 OMR Sheet

(a) Use the OMR answer sheet carefully ; no spare sheet will be issued under any circumstance.

(b) Do not fold or make any stray mark on the OMR Sheet.

(c) Use HB pencil or Blue / Black  ball point pen shading the bubbles and use ball point pen for writing.

(d) In the OMR answer sheet , make the following entries

1) write the Registration Number, Question Booklet Number and Question Booklet Version code using ball point pen.

2) Fill the oval corresponding to the  Registration number, Question Booklet Number and Question Booklet Version code using HB pencil/Ball point pen.

3) Write your Name and Signature  using ball point pen.

(e) Rough work should not be done on the Answer Sheet.

AMRITA Engineering (UG) 2014 Updates

AMRITA Engineering (UG) 2014 Information Updates :

  1. AMRITA Engineering (UG) 2014 OMR Sheet
  2. AMRITA Engineering (UG) 2014 General Instructions
  3. AMRITA Engineering (UG) 2014 FAQs
  4. AMRITA Engineering (UG) 2014 Important Notes
  5. AMRITA Engineering (UG) 2014 Check List

AMRITA Engineering (UG) 2014 Exam Centre

  • Entrance examination will be conducted in schools / colleges situated in major cities / towns throughout India.
  • Examination will be conducted in a centre only if there are sufficient candidates.


Sl State No City / Town City
No City / Town City
1 Tamilnadu 1 Chennai 101 11 Ooty 112
2 Coimbatore 102 12 Pudukottai 113
3 Cuddalore 103 13 Puducherry 114
4 Dindigul 104 14 Salem 115
5 Erode 105 15 Thanjavur 116
6 Hosur 106 16 Tirunelveli 117
7 Karur 107 17 Tirupur 118
8 Madurai 108 18 Trichy 119
9 Nagercoil 109 19 Tuticorin 120
10 Namakkal 110 20 Vellore 121
2 Kerala 1 Alappuzha 201 9 Kozhikode 209
2 Amritapur 202 10 Malappuram 210
3 Ernakulam 203 11 Palakkad 211
4 Kalpetta 204 12 Pathanamthitta 212
5 Kannur 205 13 Thiruvananthapuram 213
6 Kasaragod 206 14 Thrissur 214
7 Kollam 207 15 Thodhupuzha 215
8 Kottayam 208
3 Karnataka 1 Belgaum 301 7 Raichur 310
2 Bengaluru 302 8 Shimoga 311
3 Davangere 304 9 Udupi 312
4 Hubli 306
5 Mangalore 308
6 Mysore 309
4 Andhra
1 Anantapur 401 5 Tirupati 405
2 Hyderabad 402 6 Vijayawada 406
3 Kakinada 403 7 Vishakhapatnam 407
4 Nellore 404 8 Cuddapah 408
9 Kurnool 409
10 Warangal 410
5 Assam 1 Guwahati 411
6 Bihar 1 Patna 416
7 Chandigarh 1 Chandigarh 421
8 Chhattisgarh 1 Raipur 426
9 Delhi 1 New Delhi 431
10 Goa 1 Panaji 436
11 Gujarat 1 Ahmedabad 441 2 Vadodara 442
12 Jharkhand 1 Ranchi 447
13 Madhya Pradesh 1 Bhopal 451
14 Maharashtra 1 Mumbai 456 2 Nagpur 457
3 Pune 458
15 Orissa 1 Bhubaneswar 461
16 Rajasthan 1 Jaipur 471 2 Kota 472
17 Uttaranchal 1 Dehra Dun 476
18 Uttarpradesh 1 Lucknow 481 2 Varanasi 482
19 West Bengal 1 Kolkatta 487
20 Andaman &
1 Port Blair 491
Related links AMRITA Engineering (UG) 2014 :-


AMRITA Engineering 2014 Chemistry Syllabus

AMRITA Engineering 2014 Chemistry Syllabus for Under Graduate Students :



Atomic and molecular masses, mole concept and molar mass, percentage composition, empirical and molecular formula, chemical reactions, stoichiometry and calculations based on stoichiometry.


Bohr’s model, de Broglie’s and Heisenberg’s principles, Quantum mechanical model, Orbital concept and filling up of electrons; Bond formation and bond parameters; Valence bond and molecular orbital theory; VSEPR theory; Hybridization involving s, p and d orbital; Hydrogen bond.


Law of chemical equilibrium and Equilibrium Constant; Homogeneous and Heterogeneous equilibria; LeChatelier’s principle, Ionic equilibrium; Acids, Bases, Salts and Buffers; Solubility product; Thermodynamic state; Enthalpy, Entropy and Gibb’s free energy; Heats of reactions; Spontaneous and non- spontaneous processes.


Specific, molar and equivalent conductance of weak and strong electrolytes; Kohlrausch law; Electrochemi cal cells and Nernst equation; batteries, fuel cells and corrosion Rate of a reaction and factors affecting the rate: Rate constant, order and molecularity, collision theory. Physisorption and chemisorptions; colloids and emulsions; homogeneous and heterogeneous catalysis.


Molecular, ionic, covalent and metallic solids; amorphous and crystalline solids; crystal lattices and Unit cells; packing efficiency and imperfections; electrical and magnetic properties. Normality, molarity and molality of solutions, vapour pressure of liquid solutions; ideal and non-ideal solutions, colligative properties  abnormality.


Position of hydrogen in the periodic table; dihydrogen and hydrides- preparation and properties; water, hydrogen peroxide and heavy water; hydrogen as a fuel.


Group 1 and 2 Alkali and Alkaline earth elements; general characteristics of compounds of the elements; anomalous behavior of the first element; preparation and properties of compounds like sodium and calcium carbonates, sodium chloride, sodium hydroxide; biological importance of sodium, potassium and calcium.


Groups 13 to 17 elements: General aspects like electronic configuration, occurrence, oxidation states, trends in physical and chemical properties of all the families of elements; compounds of boron like borax, boron hydrides and allotropes of carbon; compounds of nitrogen and phosphorus, oxygen and sulphur; oxides and oxyacids of halogens.


Electronic configuration and general characteristics of transition metals; ionization enthalpy, ionic radii, oxidations states and magnetic properties; interstitial compounds and alloy formation; lanthanides and actinoids and their applications.


Werner’s theory and IUPAC nomenclature of coordination compounds; coordination number and isomerism;  Bonding in coordination compounds and metal carbonyls and stability; application in analytical  methods, extraction of metals and biological systems.

Tetravalence of carbon and shapes or organic compounds; electronic displacement in a covalent bond-inductive  and electromeric effects, resonance and hyperconjugation; hemolytic and heterolytic cleavage of covalent bond – free radicals, carbocations, carbanions electrophiles and nucleophiles; methods of purification of organic compounds; qualitative and quantitative analysis.


Alkanes, alkenes,alkynes and aromatic hydrocarbons; IUPAC nomenclature, isomerism; conformation of ethane, geometric isomerism, general methods of preparation and properties, free radical mechanism of halogenations, Markownikoff’s addition and peroxide effect; benzene, resonance and aromaticity, substitution reactions; Nature of C-X bond in haloalkanes and haloarenes; mechanism of substitution reactions


IUPAC nomenclature, general methods of preparation, physical and chemical properties, identification of primary, secondary and tertiary alcohols, mechanism of dehydration; electrophillic substitution reactions.


Nomenclature, general methods of preparation, physical and chemical properties of the group members; nucleophilic addition and its mechanism; reactivity of alpha hydrogen in aldehydes; mono and dicarboxylic acids-preparation and reactions; identification of primary, secondary and tertiary amines; preparation and reactions of diazonium salts and their importance in synthesis.


Natural and synthetic polymers, methods of polymerization, copolymerization, molecular weight of polymers,  Polymers of commercial  importance, Carbohydrates: mono, oligo and polysaccharides; Proteins Alpha amino acid, peptide linkage and polypeptides: Enzymes, Vitamins and Nucleic acids (DNA and RNA)


Air, water and soil pollution, chemical reactions in atmosphere, acid rain; ozone and its depletion; green house effect and global warming; pollution control.


Drugs and their interaction; chemicals as analgesics, tranquilizers, antiseptics, antibiotics, antacids and antihistamines; Chemicals in food-  preservatives , artificial sweetening agents; cleansing agents – soaps and detergents.

AMRITA Engineering (UG) 2014 Physics Syllabus



Units for measurement, system of units, SI, fundamental and derived units, dimensions and their applications.


Motion in straight line, uniform and non-uniform motion, uniformly accelerated motion and its applications Scalars and Vectors, and their properties; resolution of vectors, scalar and vector products; uniform circular motion and its applications, projectile motion Newton’s Laws of motion;  conservation of linear momentum and its applications, laws of friction, Concept of work, energy and power; energy-kinetic and potential;
conservation of energy; different forms of energy. Elastic collisions in one and two dimensions. Center of mass of a many particle system; center of mass of a rigid body, rotational motion and torque. Angular momentum and its conservation. Moments of inertia, parallel and perpendicular axes theorem,
moment of inertia for a thin rod, ring, disc and sphere.

Gravitation: Acceleration due to gravity and its properties. One and two dimensional motion under gravity. Universal law of gravitation, planetary motion, Kepler’s laws, artificial satellite-geostationary satellite, gravitational  potential energy near the surface of earth, gravitational potential and escape velocity.

Solids: Elastic properties, Hooke’s law, Young’s modulus, bulk modulus, modulus of rigidity.Liquids: cohesion and adhesion; surface energy and surface tension; flow of fluids, Bernoulli’s theorem and its applications; viscosity, Stoke’s Law, terminal velocity.


Periodic motion, simple harmonic motion and its equation, oscillations of a spring and simple pendulum. Wave motion, properties of waves, longitudinal and transverse waves, superposition of waves, Progressive and standing waves. Free and forced oscillations, resonance, vibration of strings and air columns, beats, Doppler effect.


Thermal expansion of solids, liquids and gases and their specific heats, relationship between Cp and Cv for gases, first and second laws of  thermodynamics , Carnot cycle, efficiency of heat engines. Transference of heat; thermal conductivity; black body radiations, Kirchoff’s law, Wein’s Law, Stefan’s law of radiation and Newton’s law of cooling.


Coloumb’s law, dielectric constant, electric field, lines of force, field due to dipole , electric flux, Gauss’s  theorem and its applications; electric potential, potential due to a point charge; conductors and insulators, distribution of charge on conductors; capacitance, parallel plate capacitor, combination of capacitors, energy  stored in a capacitor.

Electric current : Cells-primary and secondary, grouping of cells; resistance and specific resistivity and its temperature dependence. Ohm’s law, Kirchoff’s Law. Series and parallel circuits; Wheatstone’s Bridge and potentiometer with their applications. Heating effects of current, electric power, concept of thermoelectricity-Seebeck effect and thermocouple; chemical effect of current- Faraday’s laws of electrolysis. Magnetic effects: Oersted’s experiment, Biot Savert’s law, magnetic field due to straight wire, circular loop and solenoid, force on a moving charge in a uniform magnetic field(Lorentz force),forces and torques on a current carrying conductor in a magnetic field, force between current carrying wires, moving coil galvanometer  and conversion to ammeter and voltmeter.

Magnetostatics: Bar magnet, magnetic field, lines of force, torque on a bar magnet in a magnetic field, earth’s magnetic field; para, dia and ferro magnetism, magnetic induction, magnetic susceptibility.


Induced e.m.f., Faraday’s law, Lenz’s law, self and mutual inductance; alternating currents, impedance and reactance, power in ac; circuits with L C and R series combination, resonant circuits, transformer and AC generator. Electromagnetic waves and their characteristics; electromagnetic spectrum from gamma to radio waves.

Reflection and refraction of light at plane and curved surfaces, total internal reflection; optical fiber; deviation and dispersion of light by a prism; lens formula, magnification and resolving power; microscope and telescope, Wave nature of light, interference, Young’s double experiment; thin films, Newton’s rings.

Diffraction: diffraction due to a single slit; diffraction grating, polarization and applications.


Dual nature of Radiation – De Broglie relation, photoelectric effect, Alpha particle scattering experiment, atomic masses, size of the nucleus;  radioactivity, alpha, beta and gamma particles/rays. Radioactive decay law, half life and mean life of radio active nuclei; Nuclear binding energy, mass energy relationship, nuclear fission and nuclear fusion. Energy bands in solids, conductors, insulators and semiconductors, pn junction, diode, diode as a rectifier, transistor action, transistor as an amplifier.