KLEEE 2023 Exam - Dates, Phase 1 Result (Out), Admit Card, Syllabus, Pattern

Updated on 26th Apr, 2023 by Gunjan Chaudhary

Latest Update for KLEEE

28 May 2021:
KLEEE 2021 result declared for phase 1 and 2.
23 Apr 2021:
KLEEE 2021 result to be declared soon for phase 1.
23 Apr 2021:
KLEEE exam date declared for phase 2 exams.

Stay up-to date with KLEEE News

About KLEEE 2023

KLEEE 2023: The Koneru Lakshmaiah Education Foundation has released the KLEEE 2023 counselling schedule at kluniversity.in. The authorities has also released the KLEEE 2023 result on the official website. The KLEEE 2023 exam phase 3 was held on April 15 to 18, 2023. The KLEEE exam date 2023 for phase 1 & 2 were December 18 to 22, 2022 and February 3 to 6, 2023 respectively.

Aspirants seeking admission are advised to check the KLEEE 2023 eligibility criteria before filling the application form. The application process of KLEEE 2023 includes many steps such as registration, filling details in application form, uploading documents and payment of fee.

What is KLEEE?

KL deemed to be University, Andhra Pradesh conducts the KLEEE exam for admission to its undergraduate engineering courses. KLEEE 2023 exam will be held as a computer based test.

Only those students who fill the application form before the last date will be able to download the KLEEE 2023 admit card from the official website.

The authorities will release the KLEEE 2023 answer key at the official website few days after the conclusion of the entrance exam. Using the KLEEE answer key, applicants will be able to calculate their expected score before the announcement of the result.

Candidates who will qualify the JEE Main, JEE Advanced, Uni-GAUGE-E, or any other state-level engineering entrance exams including EAPCET, will be eligible for direct admission and don’t have to appear in the KLEEE 2023. Additionally, candidates with an outstanding record in sports and cultural activities will also be considered for direct admission.

Full Exam Name	KL University Engineering Entrance Examination
Short Exam Name	KLEEE
Conducting Body	Koneru Lakshmaiah University
Frequency of Conduct	3 times a year
Exam Level	University Level Exam
Languages	English
Mode of Application	Online
Application Fee (General)	1000 Rs [Offline] +1 More
Mode of Exam	Online and Offline
Mode of Counselling	Offline
Participating Colleges	2
Exam Duration	3 Hours

Download all details about KLEEE 2023

KLEEE 2023 Important Dates

Past Dates and Events

27 Apr, 2023 - 01 May, 2023

Counselling | Mode: Online

15 Apr, 2023 - 18 Apr, 2023

Exam - Phase-III | Mode: Online

13 Apr, 2023

Application - Phase-III- application last date - Start Date | Mode: Online

03 Feb, 2023 - 06 Feb, 2023

Exam - Phase-II- exam | Mode: Online

02 Feb, 2023

Admit Card - Phase-II- admit card | Mode: Online

01 Feb, 2023

Application - Phase-II- application last date - Start Date | Mode: Online

09 Jan, 2023

Result - Phase 1 | Mode: Online

18 Dec, 2022 - 22 Dec, 2022

Exam - Phase-I- exam | Mode: Online

16 Dec, 2022

Admit Card - Phase-I-admit card | Mode: Online

19 Oct, 2022 - 12 Dec, 2022

Application - Phase-I-application | Mode: Online

KLEEE 2023 Eligibility Criteria

The authorities have released the KLEEE 2023 eligibility criteria at the official website. The KLEEE eligibility criteria 2023 include conditions and requirements that every applicant must meet to be eligible for admission. The eligibility criteria of KLEEE 2023 comprises subject combination, qualifying exam and minimum marks.

Qualifying exam : The candidate must have passed 10+2 or equivalent exam from a recognized institute.

Subject combination : Candidates with Physics, Chemistry, and Mathematics (PCM) combination are eligible for admission to all B.Tech programmes, including Bio-Technology.

Candidates belonging to Physics, Chemistry and Biology (PCB) group are eligible for admission to B.Tech (Bio-Technology) and B.Pharmacy.

Minimum marks in the qualifying exam: The candidate must score a minimum of 60% marks in aggregate in the three subjects taken together.

Qualification in Entrance Exam

Applicants looking for engineering admissions in KL University need to qualify any one of the entrance examinations mentioned below.

KL Engineering Entrance Examination (KLEE)
JEE Main 2023
JEE Advanced 2023
Any state-level engineering entrance exam, including EAPCET 2023

NOTE : Candidates who have merit in sports/cultural activities may also be considered for direct admission.

KLEEE 2023 Application Process

Mode of Application : Online

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

Students can fill the application form of KLEEE 2023 in online as well as offline mode. The KLEEE 2023 registration comprises filling details in application form, fee payment, uploading documents and sending application form to exam authorities. Students should check the eligibility criteria before filling out the KLEEE application form 2023.

Steps to fill KLEEE 2023 form in online mode

Filling application form: The first step is to fill details in the KLEE application form 2023. Applicants need to fill in their basic details like personal information, educational qualification, parents name and other. After filling all the details, candidates need to submit the KLEEE application form to proceed to further steps.
Uploading photograph: The next step is to upload a scanned image of the candidate photograph. Applicants must note that photographs need to be uploaded as per the specifications mentioned in the official notification.
Payment of application fee: The next step is to pay the application fee of KLEEE 2023. Applicants have to pay Rs 900 as KLEEE 2023 application fee through net banking, credit, and debit cards.
Preview and submission of application form: After filling all the details in the application of KLEEE 2023, applicants must preview all information and submit it.
Sending filled application form to exam authority: The final step is to send the KLEEE 2023 application form to the exam conducting authority. Applicants need to take one print out of the application form and need to post it on the address as mentioned below.

The Director, Admissions

K L Deemed to be University, 29-36-38

Museum Road, Governorpet,

Vijayawada - 520 002.

Steps to fill KLEEE application form 2023 in offline mode

Applicants who want to fill KLEEE application form in offline mode have to collect the application form in either mode mentioned below.

In-person: on payment of Rs. 1000 in cash or DD.
Through speed post: By sending a request with a self-addressed envelope cover remitting Rs. 1000 by cash or DD

Candidates have to fill the application form of KLEEE 2023 and post it to exam conducting authority with valid documents.

Application Fees

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

Physics-

Physics: Unit 01

Units and dimensions
Fundamental units in the CGS and SI systems, definitions of SI units, supplementary and derived units, dimensions of physical quantities, application of dimensional analysis-uses, examples, limitations of dimensional analysis
Errors in measurements, variation and average values, number of observations, ideas of standard deviation and mean deviation, systematic and random errors, significant figures and rounding off, evaluation of percentage of errors

Physics: Unit 02

Elements of vectors
Addition and subtraction of vector, laws of addition of vectors, equal and null vectors, unit vectors, unit vectors in Cartesian coordinate system, position vector and its magnitude, parallelogram law of vectors, expression for the resultant vector
Triangle law and polygon law of vectors, application to relative motion of a boat in a river, multiplication of a vector with scalar
Scalar product with examples of work and energy
Vector product with examples of torque and angular momentum
Vector and scalar products of unit vectors

Physics: Unit 03

Kinematics-dynamics
Equations of motion in a straight line under uniform acceleration-equation of motion of freely falling body, equation of motion of vertically projected body from ground and from a height, two dimensional motion, projectiles with examples
Path of a projectile-maximum height, time of flight, and range
Newton's laws of motion-concepts of inertia, momentum force, impulse and types of forces, collision of two bodies in one dimension, one body at rest, two bodies moving in the same and opposite directions, elastic and inelastic collisions
Coefficient of restitution

Physics: Unit 04

Work, power, and energy
Definition and units, expressions for PE and KE work-energy theorem, law of conservation of energy

Physics: Unit 05

Centre of mass
Definition, coordinates of center of mass, velocity, acceleration, characteristics of center of mass, examples in the case of two dimensional motions, laws of motion of center of mass, explosion

Physics: Unit 06

Friction
Causes of friction, static, kinetic, and rolling friction, laws of friction, expressions for acceleration of a body on smooth and rough inclined planes (without rolling)

Physics: Unit 07

Rotatory motion
Rotatory motion, relationships between quantities in rotatory and linear motions, centripetal and centrifugal forces, concepts of torque and couple, relation between angular momentum and torque, moment of inertia, rotational kinetic energy
Parallel and perpendicular axes theorems, expressions for the moment of inertia of a thin rod, sphere, circular ring, uniform disc., cylinder and rectangular lamina, conservation of angular momentum with examples, motion in a vertical circle

Physics: Unit 08

Gravitation
Kepler's laws of planetary motion, Newton's universal law of gravitation, expression for the relation between g and G, variation of 'g' with height, depth, latitude, and local conditions
Inertial and gravitational masses, escape velocity and orbital velocity, geostationary satellites and their uses

Physics: Unit 09

Simple harmonic motion
Definitions and example, expressions for displacements, velocity, acceleration, time period, and frequency, expressions for the period of a simple pendulum and loaded spring, force constant, expressions for the KE and PE of a body in S.H.M.

Physics: Unit 10

Elasticity
Elasticity and plasticity, stress, strain, Hooke's law, moduli of elasticity (Y, n, K), Poisson's ratio (s), relation between Y, n, K, and s, behaviour of wire under gradually increasing load, elastic fatigue, expression for strain energy
Experimental determination of y by searle's apparatus

Physics: Unit 11

Surface tension
Surface tension, definition, and examples, molecular phenomenon, angle of contact, capillarity with examples in nature, experimental determination of surface tension by capillary rise method with necessary theory
Variation of surface tension with temperature, expressions for excess pressure inside a drop and a bubble

Physics: Unit 12

Hydrodynamics
Principle of buoyancy, pressure in a fluid, Bernoulli's theorem, aerodynamic lift and motion of spinning ball

Physics: Unit 13

Viscosity
Stream line flow, explanation of viscosity, explanation of viscosity, Poiseuille's equation, determination of coefficient of viscosity, variation with temperature

Physics: Unit 14

Expansion of solids, liquids, gases
Three coefficients of expansion of solids their inter relationship, determination of coefficient of linear expansion by mechanical lever method, application to bimetallic thermostat
Coefficients of real and apparent expansion of liquids and the relation between them, variation of density with temperature, anomalous expansion of water and its effects
Experimental determination of real and apparent coefficients by regnault's method and specific gravity bottle
Volume and pressure coefficients of expansion of gases, experimental determination of volume and pressure coefficients by Regnault's and Jolly's bulb apparatus, absolute zero, Kelvin's scale of temperature, Boyle's law and Charle's law, ideal gas equation

Physics: Unit 15

Thermodynamics
Definition of calorie, definition of thermal capacity, definition of specific heat and latent heats, law of mixtures, problems relating to specific heats and latent heats and law of mixtures, Joule's law and mechanical equivalent of heat (J)
Three phases of matter and triple point of water, definition of specific heats of gases Cp and Cv, isothermal and adiabatic processes, relationships between P, V, and T, external work done by an ideal gas during expansion, internal energy
Statements and explanation of zeroth law, first, and second laws of thermodynamics, relation Cp-Cv = R

Physics: Unit 16

Thermal radiations
Nature and properties of thermal radiation, Prevost's theory of heat exchanges, emissive and absorptive powers, black body radiation, Kirchhoff's law and its application, Newton's law of cooling, laws of black body radiation, Stefan's law
Wien's displacement law and Planck's formula (qualitative treatment only)

Physics: Unit 17

Sound
Propagation of sound, wave equation, velocity of sound in solids, liquids and gases, variation of velocity of sound in gases with temperature, pressure, density, and humidity
Natural and forced vibrations, resonance with examples, formation of stationary waves in stretched strings, laws of transverse waves along stretched strings, experimental verification by sonometer, beats, definition and explanation (theory only)
Doppler effect, formulae for apparent frequency in specific cases, applications and limitations of Doppler effect

Physics: Unit 18

Geometrical optics
Determination of velocity of light by Foucault's rotating mirror method, its significance, critical angle, total internal reflection, application to optical fibres
Lens Maker's formula 1/f = (m-1) (1/R1+ 1/R2), defects of images, spherical and chromatic aberrations and their elimination (qualitative treatment), construction of Ramsden's and Huygens eye pieces
Dispersion of light, formula for refractive index of prism, pure and impure spectra, arrangement to obtain pure spectrum, description and working of spectrometer, determination of angle of a prism, angle of minimum deviation and refractive index
Dispersive power of a prism
Different kinds of spectra, emission spectra, line, band, and continuous spectra, absorption spectra, and their significance, Fraunhoffer's lines and their significance

Physics: Unit 19

Physical optics
Nature of light, Newton's corpuscular theory, Huygen's wave theory, electromagnetic theory quantum theory (elementary ideas only), interference, coherent sources, Young's double slit experiment, phenomenon of diffraction
Fresnel and Fraunhoffer's diffraction, diffraction at straight edge (qualitative treatment), polarization, concepts of polarization, production of plane polarized light by reflection and double refraction (polaroids)

Physics: Unit 20

Magnetism
Magnetic pole strength, inverse square law, magnetic induction B, formulae for magnetic induction on axial and equatorial line of a bar magnet and a very short bar magnet, couple acting on a bar magnet placed in a uniform magnetic field
Magnetic moment of a magnet, tangent law, deflection magnetometer, comparison of magnetic moments in Tan A and Tan B positions by equal distance method and null method, verification of inverse square law, vibration magnetometer
Experimental determination of m and bh
Magnetic materials dia, para, ferro, antiferro, and ferrimagnetism-their properties, electron theory of magnetism (qualitative treatment), permeability and susceptibility (concepts only)

Physics: Unit 21

Electrostatics
Coulomb's law, permittivity, concept of electric field, electric lines of force
Force on a charge in an electric filed (F=Eq), electric potential, potential due to a point charge, potential energy of a point charge in a uniform electric field, electron volt, relation between E and V (E =v/d) capacitance, dielectric constant
Parallel plate capacitor, formula for capacitance, effect of di, electric on capacity (expressions only), formulae for resultant capacitance when capacitors are connected in series and parallel, energy stored in a capacitor
Effect of dielectric on the energy, types of capacitors, and their uses

Physics: Unit 22

Current electricity
Ohm's law, specific resistance, conductance, temperature dependence of resistivity, thermistor, EMF of a cell-internal resistance and back EMF
Kirchhoff's laws, statement and explanation, application to Wheatstone's bridge for its balance condition, metre bridge, principle of potentiometer, comparison of EMF's of cells
Determination of internal resistance of a primary cell

Physics: Unit 23

Thermo electricity
Seebeck effect, Peltier and Thomson effects, and their coefficients, variation of thermo EMF with temperature-neutral and inversion temperatures
Application of thermo couples

Physics: Unit 24

Electromagnetics
Oersted's experiment, Biot Savart law, the Tesla Ampere law, magnetic field near a long straight wire and at the center of a circular coil carrying current (expressions only), force on a moving charge in a magnetic field (F=Q V X B)
Force on a current carrying conductor in a magnetic filed, force between two straight parallel conductors carrying current, definition of ampere, Fleming's left hand rule, force and torque on current loop in a magnetic filed
Tangent galvanometer expression for the current construction and working of a moving coil galvanometer, shunt, and its uses, conversion of moving coil galvanometer into ammeter and voltmeter
Comparison of moving coil galvanometer with tangent galvanometer, electro magnetic induction, magnetic flux and induced EMF, Faraday and Lenz laws, Fleming's right hand rule, self and mutual inductances, Henry

Physics: Unit 25

Atomic physics
Discovery of electron, e/ m electron by Thomson's method, charge of an electron by Millikan's oil drop method (Principle only) photo electric effect, laws of photoelectric emission
Einstein's photo electric equation and its experimental verification by Millikan's method, photoelectric cells and their uses
X-ray spectra, Mosley's law and its importance, Compton effect, dual nature of matter, De Broglie's hypothesis (concepts only)

Physics: Unit 26

Nuclear physics
Composition of nucleus, nuclear forces, mass defect, and binding energy, explanations with examples, discovery of neutron, nuclear fission, chain reaction, principle and working of a nuclear reactor, nuclear fusion
Energy of sun and stars (carbon, nitrogen cycle, and proton, proton cycle), elementary particles

Physics: Unit 27

Semiconductor devices
Junction diode, depletion layer, barrier potential, forward bias and reverse bias, current, voltage characteristics, junction diode as half wave and full wave rectifiers, Zener diode as voltage regulator, transistors-pnp and non transistors
Transistor characteristics, transistor as common emitter amplifier (block diagram and qualitative only)

Mathematics+

Mathematics: Unit 01

Algebra
Functions, types of functions, algebra of real valued functions, surds and logarithms, mathematical induction and its applications, permutations and combinations-linear and circular permutations, combinations, Binomial theorem
For a positive integral index, for any rational index, applications, binomial coefficients, partial fractions exponential and logarithmic series, quadratic expressions-quadratic inequations, theory of equations
Relations between the roots and coefficients in any equation, transformation of equations, reciprocal equations, cubic equations, Cardan's solution, biquadratic equations, Ferrari and Descarte's solutions, matrices and determinants-definition
Types of matrices, algebra of matrices, properties of determinants of 2X2 and 3X3 order matrices, simultaneous linear equations in two and three variables, rank of matrix
Complex numbers-their properties, De Moivre's theorem, applications, expansions of trigonometric functions

Mathematics: Unit 02

Trigonometry
Trigonometric functions-graphs, periodicity, trigonometric ratios of compound angles, multiple and sub-multiple angles, transformations, trigonometric equations, inverse trigonometric functions, hyperbolic and inverse hyperbolic functions
Properties of triangles, heights, and distances (in two dimensional plane)

Mathematics: Unit 03

Vector algebra
Scalar Product, angle between two vectors, properties of scalar product, applications of dot products
Vector Product, right handed and left handed systems, properties of vector product, applications of cross product
Product of three vectors, scalar triple product, properties of scalar triple product, vector triple product, vector product of four vectors, scalar product of four vectors
Lines-equation of a straight line passing through a given point and parallel to a given vector, passing through two given points, angle between two lines
Skew lines-shortest distance between two lines, condition for two lines to intersect, point of intersection, collinearity of three points
Planes-equation of a plane, passing through a given point and perpendicular to a vector, given the distance from the origin and unit normal, passing through a given point and parallel to two given vectors
Passing through two given points and parallel to a given vector, passing through three given non-collinear points, passing through the line of intersection of two given planes, the distance between a point and a plane
The plane which contains two given lines, angle between two given planes, angle between a line and a plane
Sphere-equation of the sphere whose centre and radius are given, equation of a sphere when the extremities of the diameter are given

Mathematics: Unit 04

Probability
Addition and multiplication theorems of probability-their applications, conditional probability, and Baye's theorem
Mean and variance of a random variable-binomial and Poisson, normal distributions

Mathematics: Unit 05

Coordinate geometry
Locus-translation and rotation of axes, the straight line, the pair of straight lines, coordinate planes in three dimensions-distance between two points, section formula and their applications, direction cosines and direction ratios of a line
Coordinate planes in three dimensions-angle between two lines, projection of a line, the plane and its general equation-equation of the plane in different forms, circles and system of circles, conics, parabola, ellipse, hyperbola-their applications
Hyperbola-equations of tangent, normal, polar and pole to these conics, polar coordinates

Mathematics: Unit 06

Calculus
Functions, limits, continuity, differentiation-different methods, successive differentiation including Leibniz's theorem, applications of differentiation, partial differentiation including Euler's theorem on homogeneous functions
Different methods of Integration, definite integrals and their applications to areas-reduction formulae
Numerical integration, trapezoidal and Simpson's rules, differential equations-formation and solution of first order, first degree differential equations, second order linear homogenous equations with constant coefficients

Chemistry+

Chemistry: Unit 01

Atomic structure
Electromagnetic radiation: Wave nature, wave characteristics: Wave length, frequency, wave number-units to express these quantities, relationship between them, atomic spectrum of hydrogen-different regions of the spectrum
Electromagnetic radiation: Wave number of the spectral lines in these regions (Rydberg's equation). Lyman, Balmer, Paschen, Brackett, and Pfund series
Atomic models: Rutherford's model, merits and demerits, Bohr's Model: Postulates, formulation of the model, expressions for the energy and radius of the hydrogen atomic orbits with derivations, limitations
Atomic models: Zeemen, Stark effects, Sommer fields modifications
Quantum numbers: Significance, writing quantum numbers for differentiating electrons in atoms, Pauli's exclusion principle
Wave nature of electron: De-Broglie wave equation, Heisenberg's uncertainty principle, (Cartesian coordinates equation only)
Orbitals: Shapes of s, p, d orbitals, orbitals energy sequence, Aufbau principle, Hund's rule
Electronic configuration of elements (from atomic no: 1 to 30 by nlx method), stability and magnetic behaviour of atoms based on concepts of electronic configuration

Chemistry: Unit 02

Nuclear chemistry
Nuclear particles: (protons, neutrons), isotopes, isobars, isotones, and isodiapheres
Nucleus: Relative dimensions of atom and nucleus, nuclear mass defect, mass-energy relation, binding energy, n/ p ratio, magic numbers
Nuclear reactions: Writing nuclear reactions in the shortest form of (M(a,b)M') notation, balancing-typical examples of nuclear reactions, nuclear fusion (proton) reactions, nuclear fission (Uranium-235), differences between nuclear and chemical reactions
Radioactivity: Units of radioactivity (Curie, Rutherford, and Becquerel), natural and artificial radioactivity disintegration series, group displacement law
Radioactive disintegration: Rate equation (no derivation), decay constant, half-life period, numerical problems on radioactive disintegrations, radioactive isotopes (O18, P32, U238, C14, I131) and their applications

Chemistry: Unit 03

Periodic classification of elements
Periodic laws and periodic table: Periodic laws based on atomic number and electron configuration, structure of the long form of the periodic table, s, p, d, f blocks, outer electronic configuration of elements of s, p, d, and f blocks
Periodic trends: Trends down the group and across the period in respect of atomic size, ionic radius, oxidation state, ionization potential, electron affinity and electronegativity-reasons for the trends

Chemistry: Unit 04

Chemical bonding
Ionic bonding: Nature, factors favourable for the bond formation, effect of ionization potential, electron affinity and electro negativity, Born-Haber cycle for sodium chloride crystal formation, face centered cubic lattice structure of sodium chloride
Ionic bonding: Body centered cubic lattice structure of caesium chloride (diagrammatic illustrations only), coordination number of metal ions in the crystals of sodium chloride and caesium chloride
Properties of ionic substances, covalent bond: Nature, octet rule and electron dot formula of simple molecules (BeCl₂, BF₃, CO₂, NH₂, H₂O,PCl₅, SF₆, CH₄, C₂-H₄, C₂H₆), postulates of valence bond theory (qualitative treatment), overlapping of orbitals
Covalent bond: Sigma and pi bonds, dipole moment (qualitative aspect) of simple molecules. (HCl, H₂O, SO₂, NH₃, CH₄-, CCl₄), properties of covalent substances
Hybridization of orbitals: sp, sp², sp³, dsp³, d²sp³ hybridizations, shapes of simple molecules (BeCl₂, BCl₃, CH₄, C₂H₆, C₂H₄, C₂H₄, NH₃, H₂O, PCl₅, SF₆), bond lengths, bond angles and bond energie
Hybridization of orbitals: Postulates of valance shell electron pair repulsion (VSEPR) theory, application to geometry of covalent molecules (beryllium chloride, boron tri-chloride, water, and ammonia)
Hydrogen bond: Concept, inter, and intra molecular hydrogen bonds, typical examples

Chemistry: Unit 05

Stoichiometry
Definition: Stoichiometry, stoichiometric equation, stoichiometric amounts-examples, mole concept: Gram atom, gram molecule, definition of mole, mass, formula weight-calculations
Chemical reactions and numerical calculations based on weight-weight, weight-volume , volume-volume relationships, calculation of empirical and molecular formulae of carbon compounds, oxidation number, redox reactions
Calculation of oxidation number, balancing of redox reactions by ion, electron (half reaction) method and oxidation number method

Chemistry: Unit 06

Gaseous state
Gas laws, Boyle's law, Charle's law, Avogadro's law, statement and numerical problems, ideal gas equation: PV=nRT, values of R, numerical problems based on gas equation
Graham's law of diffusion-statement, numerical problems
Dalton's law of partial pressures: Statement, numerical problems
Kinetic theory of gases: Postulates, derivation of PV= 1/3 mnc2, deducing gas laws from kinetic gas laws (Boyles law, Charles law, Dalton's law, Graham's law) from kinetic gas equation, RMS velocity, most probable velocity
Kinetic theory of gases: Mathematical relationship between the three
Average kinetic energy of the molecules

Chemistry: Unit 07

Solutions
Definition of solution: Solvent, solute, methods of expressing concentrations of solutions, molarity, molality, normality, mole fraction methods-numerical problems
Vapour pressure: Definition, effect of temperature, Raoult's law, numerical problems

Chemistry: Unit 08

Acids and bases
Theories of acids and bases, Arrhenius acid-base concept, limitations, Lowry-Bronsted concept-examples, limitations, Lewis theory-examples
Ionic product of water: pH of aqueous solutions, (include both strong and weak acids, and bases), buffer solutions-types of buffers, buffer action-calculation of pH of acid buffers
Indicators: Acid-base indicators, pH range, selection of indicators for acid-base titrations
Hydrolysis of salts: Definition, examples of different salts

Chemistry: Unit 09

Electrochemistry
Metallic conductors, electrolytes, non-electrolytes, Arrhenius theory of ionization, Faraday's laws, numerical problems
Galvanic cells: Definition, examples, cell notation, writing of cells, and cell reactions
Nernst equation, EMF calculation

Chemistry: Unit 10

Chemical equilibrium and chemical kinetics
Chemical equilibrium: Reversible reactions, chemical equilibrium, dynamic nature, examples of chemical equilibrium, law of mass action, equilibrium constant, characteristics of equilibrium constant, factors affecting equilibrium
Chemical equilibrium: Application of law of mass action to Haber's process (for ammonia)
Le Chatelier's principle: Statement and applications to Haber's process (for ammonia)
Chemical kinetics: Rate of reaction (elementary treatment), factors (concentration-temperature, catalyst), affecting rate of reaction, rate law, rate constant and its units order, and molecularity, first order rate equation and half life
Chemical kinetics: Collision theory of reaction rates (elementary treatment)

Chemistry: Unit 11

Chemical energetics
Chemical energetics: Internal energy, enthalpy, exothermic and endothermic reactions, heats of reaction; formation, combustion, neutralization, Hess law-numerical problems

Chemistry: Unit 12

Surface chemistry
Adsorption and absorption, physical and chemical adsorption, distinguishing properties, adsorption of gases on metals, adsorption from solutions (elementary treatment)
Colloidal state: True and colloidal solutions, explanation of terms, dispersion medium, dispersed phase, lyophilic and lyophobic sols using the examples-smoke, cloud, blood, milk, starch solution, and gold sol
Micelles-cleaning action of soap, emulsions: Emulsifying agent and emulsification-its applications, catalysts: Explanation of terms, homogeneous and heterogeneous catalysis, distinction with suitable examples, auto catalysis with one example

Chemistry: Unit 13

Hydrogen and its compounds
Water: Hardness of water and its removal heavy water-isotopes of hydrogen, heavy water, electrolytic preparation, properties, and uses of heavy water
Hydrogen peroxide: Preparation (laboratory, electrolytic, and auto oxidation) and concentration, properties of H₂O₂ as oxidizing agent and reducing agent, structure, and uses of H₂O₂

Chemistry: Unit 14

Alkali and alkaline earth metals
General characteristics: Electronic configuration, position in the long form of the periodic table, trends in physical properties, chemical properties with reference to oxides, halides, and carbonates
Sodium and magnesium: Occurrence, extraction of sodium (Castner and Down process), extraction of magnesium (from carnalite and magnesite), typical physical and chemical properties-uses
Alloys of magnesium (magnalium and electron) preparation, properties, and uses of the following compounds sodium hydroxide, sodium bicarbonate, magnesium-sulphate, plaster of Paris, lime mortar and gypsum

Chemistry: Unit 15

Group elements
General characteristics: Electronic configuration, position in the long form of the periodic table, trends in physical properties, chemical properties with reference to oxides, halides, and hydroxides
Aluminium: Occurrence, extraction, purification (electrolytic), typical physical and chemical properties, uses including aluminothermic process, preparation, properties, and uses of potash alum
Electron deficient compounds: Concept and examples, diborane: Preparation, properties, and structure

Chemistry: Unit 16

Iv group elements
General characteristics: Electronic configuration, position in the long form of the periodic table, trends in physical properties of carbon and silicon
Physical forms of carbon: Allotropy of carbon, structure of diamond, and graphite
Preparation, properties, structure and uses of silicon, and SiO₂
Comparison of sio2 with co2
Fuel gases: Producer gas and water gas, preparation, calorific values and uses

Chemistry: Unit 17

V group elements
General characteristics: Electronic configuration, position in the long form of the period table, trends in physical properties
Chemical properties of compounds of nitrogen and phosphorous: Hydrides, oxides, halides, and structural aspects of oxy-acids
Industrial preparation and uses of : Ammonia, and super phosphate of lime

Chemistry: Unit 18

Vi group elements
General characteristics: Electronic configuration, position in the long form of the periodic table, trends in physical properties, allotropy of elements
Chemical properties of compounds of oxygen and sulphur: Hydrides, oxides, halides, and structural aspects of oxy acids
Preparation, properties, and uses of ozone, sodium thiosulphate

Chemistry: Unit 19

Vii group elements
General characteristics: Electronic configuration, position in the long form of the periodic table, trends in physical properties
Fluorine and chlorine: Preparation, properties, and uses
Structure and oxidation states of oxides, and oxyacids of chlorine
Bleaching powder: Preparation, properties, and uses

Chemistry: Unit 20

Noble gases
Discovery, occurrence, and isolation
Chemistry of noble gases and their uses

Chemistry: Unit 21

Transition elements (d block)
General characteristics of: Electronic configuration, position in the long form of the periodic table
Properties: Oxidation states, colour forming ability, alloy formation, magnetic properties, coordination complexes: Werner's notations (elementary account)

Chemistry: Unit 22

Environmental chemistry
Terminology: Environment, pollutant, contaminant, receptor, sink, speciation, dissolved oxygen, threshold limit
Air pollution: Common air pollutants, CO and oxides of nitrogen and sulphur, acid rains and green house effect, water pollution: Common water pollutants
Organic pollutants, biological oxygen demand (BOD), inorganic pollutants, water treatment with respect to fluorine content ozone layer and effect of freons (CFC)

Chemistry: Unit 23

Hydrocarbons-I (alkanes and alkenes)
Classification-formation of sigma and pi bonds
Homologous series-concept and its significance
Isomerism: Concept, structural isomerism (chain, position, functional isomerism)
Nomenclature of aliphatic hydro carbons: IUPAC system methane and ethane: Preparation by reduction of alkyl halides, Wurtz method, Grignard method, de-carboxylation, Kolbe's' electrolysis, Sabatier-Senderen's reaction
Chemical Properties: Halogenation, nitration, pyrolysis, oxidation-uses, ethylene: Methods of preparation-dehydration of alcohols, dehydrohalogenation of alkylhalides, dehalogenation of dihalides
Properties of ethylene: Addition of hydrogen, halogens, hydrogen halides, water, hypohalous acids, mineral acids, polymerisation, oxidation (with Baeyer's reagent), ozonolysis-uses

Chemistry: Unit 24

Hydrocarbons-II
Acetylene: Preparation, dehydrohalogenation of 1, 2, dihalides, hydrolysis of CaC₂ dehalogenation, Kolbe's electrolysis properties: Oxidation, addition of hydrogen, halogens, hydrogen halides and water, trimerization, salt formation
Kolbe's electrolysis properties: Decolorization of Br₂/CCl₄-uses, benzene: Preparation from acetylene, coal tar distillation, structure of benzene, resonance-aromatic property
Properties: Friedel-Craft's reaction, halogenation, nitration, sulphonation-uses

Chemistry: Unit 25

Alkyl halides
Nomenclature and classification to primary, secondary, and tertiary alkyl halides ethyl chloride: Preparation-from alcohols using Lucas reagent, PCl₃, PCl₅, and SOCl₂
Properties: Reduction, hydrolysis, dehydrohalogenation, Wurtz reaction, reactions with KNO₂, AgNO₂, KCN, AgCN, Mg, and sodium ethoxide
Chloroform: Preparation from ethanol using bleaching powder and water, and chloralhydrate
Properties: Oxidation, isocyanide formation-hydrolysis, uses

Chemistry: Unit 26

Alcohols
Nomenclature and classification to primary, secondary, and tertiary alcohols ethanol: Preparation-hydrolysis of alkyl halides, hydration of alkenes, fermentation of molasses and starch, properties: Hydrogen bonding-reaction with sodium, esterification
Action with conc H₂SO₄, reaction with Lucas reagent, PBr₃, PCl₅, oxidation with potassium dichromate and Cu/ 300°c
Combustion, chloroform formation
Differentiation with Lucas reagent-uses

Chemistry: Unit 27

Ethers
Nomenclature, Diethyl ether, preparation from alcohols, Williamson synthesis, properties, reaction with HI-uses

Chemistry: Unit 28

Aldehydes and ketones
Nomenclature-acetaladehyde and acetone: Preparations-oxidation of alcohols, heating calcium salts
Properties: oxidation, reduction with H₂/ Ni and LiAlH₄, addition of NaHSO₃, HCN, NH₃, hydroxylamine, phenylhydrazine, 2, 4-DNP, aldol condensation, oxidation with Tollen's and Fehlings reagents

Chemistry: Unit 29

Carboxylic acids
Nomenclature, acetic acid, preparations-oxidation of alcohols, aldehydes , hydrolysis of cyanides
Properties: Acidity-reactions with Na, NaOH, NaHCO₃, esterification-acid cholrides, anhydrides, amides formation, halogenation-uses

Chemistry: Unit 30

Nitrogen compounds
Nomenclature, nitro-benzene, preparation-nitration of benzene
Properties: Reduction in acidic, basic, neutral media and with LiAIH₄-uses, aniline: Classification of amines, preparation: Reduction of nitro benzene
Properties: Basic nature-salt formation with HCl, alkylation, N-acetylation, N-benzoyalation, diazotisation-carbylamine reaction, uses

Chemistry: Unit 31

Chemistry in biology and medicine
Importance of metals in the bio molecules viz., haemoglobin, cyanocobalamine (vitamin B12) and chlorophyll (elementary treatment), common drugs used in medicine: Actyl salicylic acid (aspirin), paracetamol (elementary treatment of these two only)

Botany+

Botany: Unit 01

World of plant life
Science of Botany: Its origin, some important landmarks in the development of botany, uses of plants in daily life. Differences between plants and animals
(i) Diversity in habitats-mesophytes, xerophytes, hydrophytes, halophytes, epiphytes, mangroves, (ii) diversity in forms-herbs, shurbs, trees, twiners, lianes, (iii) diversity in life span-ephemerals, annuals, biennials, perennials
(iv) Diversity in nutritional methods-parasites, saprophytes, symbionts, autotrophs
Branches of botany and applied botany: Phycology, mycology, lichenology, bacteriology, virology, microbiology, bryology, pteridology, morphology, embryology, palynology, anatomy, cytology, taxonomy, ecology, genetics, paleo-botany, agriculture
Branches of botany and applied botany: Horticulture, forestry, pharmacology, plant breeding, plant pathology, biotechnology

Botany: Unit 02

Institutes and botanists of India
Contributions of the following institutes: BSI, NBRI, CIMAP, IARI, ICRISAT, FRI, ICAR
Contributions of the following botanists: Birbal Sahni, P. Maheswari, M.O.P. Iyengar, M.S. Swaminathan and K.C. Mehta

Botany: Unit 03

Vegetative morphology
Root: Characteristics of roots, types of root system, regions of root, modifications of root
Stem: Characteristics and functions of stem, types of stems, types of buds, types of branching, modifications of stem
Leaf: Leaf base, stipules, petioles. (Note: Lamina, margins, apex, surface, texture omitted), venation, phyllotaxy, types of leaves (simple and compound), leaf modifications

Botany: Unit 04

Reproductive morphology
Inflorescence: Racemose and cymose inflorescences, mixed and special inflorescences, terminal inflorescence, axillary inflorescence and intercalary inflorescence, cauliflory
Flower: Structure of flower, sx distribution, symmetry of flower (based on the arrangement), merosity, structural symmetry, position of gynoecium on the thalamus, types of bracts and bracteoles, various types of thalamus, perianth, aestivation, calyx
Flower: Corolla, androecium, gynoecium
Pollination: Types of pollination, contrivances of self and cross pollination, agents of pollination
Embryology: Structure of anther and ovule, types of ovules, structure and development of embryo sac, fertilization and post fertilization changes
Fruit: Types of fruits-simple, aggregate, and multiple, true and false fruits
Dispersal of seeds and fruits: Agents of dispersal

Botany: Unit 05

Classification of flowering plants
Principles of clasification and nomenclature, Bentham and Hookers system of classification
Study of the following families: Malvaceae, fabaceae, caesalpiniaceae, asteraceae, solanaceae, liliaceae

Botany: Unit 06

Economic botany
Botanical name, family, morphology of useful part, varieties, economic importance of the following-paddy, wheat, jowar, bajra, red gram, bengal gram, groundnut, coconut, cotton, jute, mango, banana, neem, and amla

Botany: Unit 07

Cell biology
Ultra structure of eukaryotic cell, differences between plant and animal cells, chromosomes and nucleic acids

Botany: Unit 08

Cell division
Mitosis and meiosis

Botany: Unit 09

Internal organisation of plants
Tissues: Meristems, simple, complex, and secretory tissues
Tissue systems: Epidermal, ground, and vascular tissue systems
Root apex and stem apex
Anatomy of dicot and monocot roots
Anatomy of dicot and monocot stems
Anatomy of dicot and monocot leaves
Normal secondary growth in dicot stem

Botany: Unit 10

Biotechnology
Scope and applications of biotechnology, aspects of biotechnology
Genetic engineering
Tissue culture and singe cell protein, somatic hybridization
Mushroom cultivation (White button mushrooms)

Botany: Unit 11

Plant kingdom
Broad outlines of the classifications (cryptogams and phanerogams)
Salient features of the major groups: Thallophyta (algae and fungi), bryophyta, pteridophyta, spermatophyta (gymnosperms and angiosperms)
Study of the structure and life history of the following forms: Spirogyra, rhizopus, funaria, pteris, and cycas

Botany: Unit 12

Microbiology
Branches of applied microbiology and their importance
Bacteria: Introduction, distribution, habitat, structure, nutrition, reproduction and economic importance
Viruses: Introduction, structure of TMV and bacteriophage, multiplication, transmission, symptoms of viral diseases on plants and their control measures

Botany: Unit 13

Plant pathology
Introduction, brief historical account of plant pathology, classification of plant diseases, general control measures
Symptoms, causative organism and control measures of the following diseases-(i) blast of paddy (rice), (ii) red rot of sugar cane, (iii) grain smut of sorghum, (iv) citrus canker

Botany: Unit 14

Plants and environment
Introduction, scope of ecology, levels of organization, basic concepts of ecology
Plant communities: Hydrophytes, mesophytes, xerophytes
Soil: Soil formation, soil profile, components of soil, plant groups in relation to soil characteristics, soil erosion, soil conservation (note: Vegetation of AP and forests of AP-omitted)

Botany: Unit 15

Crop improvement
Introduction, aims and objectives of plant breeding, organizations of crop improvement research, methods of plant breeding-introduction, selection, hybridization, hybrid vigour, polyploidy breeding, mutation breeding

Botany: Unit 16

Plant physiology
Water relations of plants: Importance of water, availability of water, bulk flow, diffusion, water potential, osmosis, plasmolysis, imbibition-absorption of water by plants, (active and passive absorption)
Water relations of plants: Ascent of sap-(root pressure theory, cohesion-tension theory), transpiration-definition, types of transpiration, structure of stomata, mechanism of stomatal opening and closing, factors affecting transpiration
Water relations of plants: Importance of transpiration
Mineral nutrition: Introduction, macro and microelements, criteria of essentiality, role of NPK in plant nutrition, absorption of ions, (active and passive absorption). Carrier theory (cytochrome pump theory, lecithin carrier theory)
Mineral nutrition: Fertilisers-(inorganic, organic, biofertilizers), importance of biofertilizers
Enzymes: Definition, historical account, properties, components of enzyme nomenclature and classification of enzymes. Mode of enzyme action
Photosynthesis: Introduction, historical account, structure of chloroplast, photosynthetic pigments (chlorophylls, carotenoids and phycobilins), hills reaction, Emerson enhancement effect, photosystems, photolysis of water, photophosphorylation
Photosynthesis: C3 pathway, C4 pathway, CAM pathway, photorespiration, factors affecting photosynthesis, importance of photosynthesis
Translocation of organic solutes: Munch's hypothesis
Respiration: Introduction, types of respiration, differences between aerobic and anaerobic respiration-glycolysis, Krebs cycle, electron transport system, mechanism of anaerobic respiration, alcoholic fermentation, respiratory quotient (RQ)
Nitrogen metabolism: Forms of nitrogen, biological nitrogen fixation, (symbiotic and non symbiotic), biosynthesis of proteins (transcription and translation), genetic code and its properties
Plant growth regulators and seed germination: Introduction, discovery and physiological effects of auxins, gibberellins, cytokinins, abscisic acid and ethylene, role of hormones in agriculture and horticulture, photoperiodism
Plant growth regulators and seed germination: Seed germination-physiological changes during germination, conditions required for germination, seed vigour, and seed dormancy

Zoology+

Zoology: Unit 01

Zoology, the basics
Nature and scope of zoology, relation between zoology and other sciences, basic principles of classification-a) need for classification, b) five Kingdom classification, viz., monera, protista, plantae, fungi and animalia
Basic principles of classification-c) concept of species-levels of classification, binomial nomenclature, d) kingdom protista-prokaryotic and lukaryotic unicellular organisms

Zoology: Unit 02

Characters and classification of invertebrate phyla up to the level of classes with examples
(i) Phylum: Protozoa, (ii) phylum: Porifera, (iii) phylum: Coelenterata (Cnidaria), (iv) phylum: Platyhelminthes, (v) phylum: Nemathelminthes, (vi) phylum: Annelida, (vii) phylum: Arthropoda, (viii) phylum: Mollusca, (ix) phylum: Echinodermata

Zoology: Unit 03

Animal organisation
(i) Symmetry-types and characteristic features of each symmetry, giving an example for each type from the representative phyla-asymmetry, radial symmetry, biradial symmetry, and bilateral symmetry
(ii) Coelom: (a) Formation of coelom, (b) schizocoelic and enterocoelic coelom, (c) definition of acoelom, pseudo-coelom, and coelom-examples from major phyla
(iii) Animal tissues

Zoology: Unit 04

Locomotion and reproduction in protozoa
(i) Types and structure of locomotary organelles-pseudopodia, cilia, and flagellae giving examples
(ii) Amoeboid movement (pseudopodial movement)-sol-gel theory only
(iii) Ciliary and flagellar movements-synchronal and metachronal movements (example paramoecium), effective stroke and recovery stroke (example euglena)
(iv) Types of reproduction: (a) Encystment (example amoeba and euglena)-process and its significance (dissemination and multiplication), (b) asexual reproduction, binary fission, (types, transverse, and longitudinal)
(iv) Types of reproduction: (c) Sexual reproduction, conjugation as exemplified by vorticella-its significance

Zoology: Unit 05

Animal associations
(i) Definition and 1 or 2 examples of the following associations-(a) mutualism/ symbiosis, (b) commensalism, (c) parasitism
(ii) Structure and life cycle of the following parasites-(a) entamoeba histolytica, (b) plasmodium viva, (c) taenia solium, (d) wuchereria bancrofti
(iii) list of following parasites giving scientific name, common name, vector, stage of infection, mode of transmission, affected systems and name of the diseases caused
Entamoeba gingivalis, opalina, balantidium, giardia, monocystis, plasmodium ovale, palsmodium malariae, plasmodium falcifarum eimeria, trypanosoma gambiensie, trypanosoma rhodesiensie, trypanosoma cruzi, leishmania donovai, leishmania tropica
Taenia saginata, echinococus granulose, hymenolepis nana, ascaris lumbricoides, schistosoma haemotobium, paragonimus, ancylostoma duodenale, enterobius and loa loa

Zoology: Unit 06

Phylum
Annelida, pheritima-type study in detail

Zoology: Unit 07

Phylum-Arthropoda
(i) Cockroach, periplaneta Americana, external characters digestive, respiratory, and nervous systems only
(ii) Life cycle and economic importance of silk worm
(iii) Insect mouth parts of the following types: (a) Biting chewing type, example cockroach, (b) piercing and sucking type, example mosquito, (c) sponging and sucking type, example housefly, (d) siphoning type, example butterfly
(iv) Economic importance of insects: (a) Useful insects, viz., honey bee, lac insect-their produce and general features, (b) harmful insects viz., bed bug, head louse. Mosquito and housefly-their harmful effects and diseases spread by them

Zoology: Unit 08

Man and biosphere
Elementary aspects of the following: (i) Abiotic factors-light, temperature and water-their effects on organisms, (ii) biotic factors-producers, consumers, and decomposers, (iii) pond ecosystem-littoral zone, limnetic zone and profundal zone
Elementary aspects of the following: (iii) Pond ecosystem-ecological pyramids and energy flow, (iv) population ecology : Population density, growth, age distribution and population regulation
Environmental pollution: (i) Air pollution-primary and secondary-pollutants, sulphur dioxide, nitrous oxide, particulates, aerosols, carbon monoxide and noise, (ii) water pollution-pollutants-pesticide, industrial effluents, sewage, heavy metals
Environmental pollution: (ii) Water pollution-radio-active substances, (iii) land pollution-fertilizers, pesticides, and solid waste, (iv) preventive measures of environmental pollution, (v) wild life conservation
Environmental pollution: (vi) Legislation on environment protection with reference to Indian context
Application biology: Biotechnology involved in alcohol, enzymes, antibiotics, monoclonal antibodies, vaccines and hormones

Zoology: Unit 09

Phylum-Chordata
General characters and out line classification of chordata upto clases with typical examples
(i) Pisces: Distinctive features of cartilaginous and bony fishes, typical examples, (ii) amphibia: Distinctive features of urodela, anura, and apoda. Typical examples
(i) Reptilia: Distinctive characters of squamata, rhynchocephalia, crocodilia, and chelonia with typical examples
(ii) Identification of poisonous and non-poisonous snakes, poison apparatus, toxicity of snake venom and treatment of snake bite including first aid
(iii) Aves: Distinctive features of carinatae and ratitae with typical examples
(iv) Mammalia: Distinctive features of prototheria, metatheria, and eutheria

Zoology: Unit 10

Functional anatomy of rabbit-digestive, respiratory, and circulatory systems
Digestive system of rabbit-comparison with that of frog: Nutrition and digestion-(i) nutrition-chemistry of food stuffs (carbohydrates, proteins, and lipids), role of vitamins and minerals in nutrition
Digestive system of rabbit-comparison with that of frog: Nutrition and digestion-(ii) digestion: Digestive enzymes and their mechanism of action-the sequence of digestion and absorption
Respiratory system of rabbit-mechanism of respiration and transport of respiratory gases
Circulatory system of rabbit: (i) Structure of heart, arterial, and venous systems-comparison with those of frog, (ii) working of the heart of rabbit, (iii) coagulation of blood

Zoology: Unit 11

Functional anatomy of rabbit-excretory, musculoskeletal, and reproductive systems
Excretory system of rabbit-comparison with that of frog: (i) Structure and function of nephron, (ii) urine formation and its composition
Musculo-skeletal system: (i) Ultra structure and contraction of muscle sliding filament theory system, (ii) types of joints
Reproductive system of rabbit-comparison with that of frog-structure: (i) Fertilization, (ii) development of rabbit upto gastrulation, gestation, and viviparity
Central peripheral and autonomous nervous systems in brief. Name and Roman
Endocrine system: Endocrine glands (pituitary, thyroid, parathyroid, adrenal (midula and cortex), pancreas, ovary and testes) and the role of their hormones

Zoology: Unit 12

Genetics
Mendel's laws
Sex determination
(i) Sex determination X0, ZZ, ZW to honey bee methods, secondary sex differences-role of hormones, (ii) sex linked inheritance X, Y, XY, incomplete, sex limited and sex influenced inheritance
Gene expression and gene regulation
Blood groups-their inheritance (ABO and Rh)-Rh factors, significance in pregnancy and transfusion

Zoology: Unit 13

Organic evolution
(i) Origin of life, (ii) theories of organic evolution-Lamarck, Darwin, Devries
Modern concepts-variations, Hardy Weinberg equilibrium, natural selection, gene pool speciation, macro and micro evolution, drift
Evidence of organic evolution

Zoology: Unit 14

Applied zoology
(i) Poultry layers and broilers poultry diseases ( bacterial, viral, and fungal), (ii) animal breeding in dairy and poultry-cloning
Immunity disorders-AIDS, hepatitis, and allergic reactions

KLEEE E-books and Sample Papers

KLUEEE Sample Paper

21 marked as useful

2,203+ Downloads

KLUEEE Sample Paper for Chemistry

35 marked as useful

2,071+ Downloads

KLUEEE Sample Paper for Mathematics

34 marked as useful

1,447+ Downloads

KLUEEE Sample Paper for Physics

18 marked as useful

975+ Downloads

KLEEE 2023 Exam Pattern

Students can find the KLEEE 2023 exam pattern on the official website. The exam pattern of KLEEE 2023 will include details on number of questions, subjects asked, marking scheme and mode of examination. Applicants will be able to attend the KLEEE 2023 exam in both online and offline mode. All questions will be asked in multiple choice types. Applicants will get one mark for each correct answer.

Subject	Total questions	Marking Scheme	Mode of Paper
Physics	40	Each correct response carries 1 mark	Available in both online and offline mode
Chemistry	40
Mathematics	80
Total	160

KLEEE 2023 Admit Card

The authorities will release the KLEEE 2023 admit card for all those candidates who will register before the deadline. To download the admit card of KLEEE 2023, students will have to use their application number and password. After downloading the KLEEE 2023 admit card, applicants must check all the details mentioned in the admit card. In case of any discrepancy in the admit card of KLEEE 2023, candidates must contact the exam conducting authority before the commencement of the exam.

Steps to download KLEEE admit card 2023

Visit the KLEEE official website - kluniversity.in.
Click on the direct link to download the KLEEE admit card.
Enter the login credentials in the required fields.
Check all details mentioned in the admit card of KLEEE 2023.
Download the KLEEE 2023 admit card for future reference.

State	City
Andaman and Nicobar Islands	Port Blair
Andhra Pradesh	Vijayawada
	Visakhapatnam
	Sitanagaram
Assam	Guwahati
Bihar	Gaya
	Muzaffarpur
	Patna
Punjab	Chandigarh
Chhattisgarh	Raipur
Delhi	New Delhi
Goa	Panaji
Gujarat	Ahmedabad
	Gandhinagar
	Surat
	Vadodara
Haryana	Faridabad
	Gurgaon
	Kurukshetra
Himachal Pradesh	Hamirpur
Himachal Pradesh	Shimla
Jammu and Kashmir	Jammu
Jharkhand	Dhanbad
	Jamshedpur
	Ranchi
Karnataka	Bangalore
	Hubli
	Mangalore
Kerala	Ernakulam
	Kozhikode
	Thiruvananthapuram
Madhya Pradesh	Bhopal
	Gwalior
	Indore
	Jabalpur
Maharashtra	Aurangabad
	Mumbai
	Nagpur
	Nashik
	Pune
Manipur	Imphal
Meghalaya	Shillong
Mizoram	Aizawl

View All

Documents Required at Exam

Admit card

2 Colleges Accepting Admission through KLEEE

Click here

KLEEE 2023 Result

The authorities will declare the result of KLEEE 2023 in online mode. Applicants will be able to check their KLEEE 2023 result using the application number. The KLEEE result 2023 comprises overall and subject-wise marks secured by the candidate and rank. Applicants shortlisted on the basis of KLEEE result 2023 will be called for the counselling process later. Applicants can refer to the steps below to check KLEEE result.

How to check KLEEE 2023 result

Visit the KLEEE official website - kluniversity.in.
Click on the direct link to check KLEEE result.
Enter the login credentials in the required fields.
Check all details mentioned in the KLEEE 2023 scorecard.
Download the KLEEE result for future reference.

KLEEE 2023 Counselling

Mode of Counselling: Offline

After the declaration of the KLEEE result, the exam authority will commence the counselling process. The counselling of KLEEE 2023 will be held in online mode. Applicants first need to complete the counselling registration and choice filling. On the basis of choices filled by candidates, the exam authority will release the KLEEE 2023 seat allotment result at the official website. Shortlisted candidates on the basis of allotment result, candidates will be called for the document verification process. Candidates who are placed higher in their respective groups (including respective categories like SC, ST, and OBC) are allotted seats first. Document verification is an integral part of the KLEEE 2023 counselling process, and candidates will be allotted seats only post successful verification.

Course-wise Counselling Fee

B.Tech Courses	Admission Fee (one time)	Caution deposit money	Tuition Fee
CSE, ECE, ME	Rs.10,000	Rs.5,000	Rs.87,000
Bio-Tech, EEE, Civil, PE, ECM	Rs.10,000	Rs.5,000	Rs.80,000

Please note that there is a fee concession of Rs. 10,000 for candidates belonging to SC, ST and PwD categories. OBC candidates are eligible for a fee concession of Rs. 5000.

State	City
Andhra Pradesh	Guntur
Telangana	Hyderabad

Counselling call letter
S.S.C marks memo/equivalent certificate
10+2 or equivalent qualified exam mark sheet and provisional certificate/pass certificate
Hall ticket and rank card (KLEEE , JEE advanced or EAMCET )
Transfer certificate (TC)
Conduct certificate (CC)
Other certificates such as sports/NCC/ex-service men/single girl child/extra curricular activities (ECA) as mentioned in application
Caste certificate (if admission sought under reserved category)
Two photocopies of aadhar card
6 Passport size colour photographs

General Information

Contacts

08662577715

Relevant Links

Official Website Link Click Here

Frequently Asked Questions (FAQs)

Question:Is there any negative marking in KLEEE?

Answer:

No, there is no negative marking in KLEEE exam.

Question:How do I check KL results?

Answer:

The authorities will be able to check the KLEEE result 2023 online from the official website. Candidates need to use their application number to access their KLEEE result.

Question:How do I apply for KL University B.Tech course?

Answer:

Candidates can fill the KLEEE application form and appear for the entrance examination. Qualified candidates will be considered for B.Tech admission through KLEEE based on their performance and eligibility.

Question:Why is KLEEE exam conducted?

Answer:

KL University conducts KLEEE for admissions into engineering programmes.

Question:Is there any entrance exam for KL University?

Answer:

Yes, KL University conducts Engineering Entrance Exam for admission into B.Tech courses.

Questions related to KLEEE

Showing 266 out of 266 Questions

246 Views

I have secured 10783 rank in KLEEE .Can I geta sceat in KLU???

ayanmukherjee045 12th Feb, 2022

Dear aspirant,

As you have secured 10.8 k rank in kleee, so let me tell you have more chances to get seat in electronic and electrical branch, electronics and communication engineering, information technology.

Although various factors are considered while deciding the cut offs like number of candidates appearing in the examination, number of vacant seats in college, previous years cut offs and difficulty level of the paper.

But you will definitely get a seat in kl university from the above the mentioned colleges.

For more information you can check out the link given below-

https://www.careers360.com/university/koneru-lakshmaiah-education-foundation-guntur

114 Views

I got 6648 rank in kleee entrance exam but I got 372 marks in 1st year of intermediate and do I get cse branch in KL university of engineering

Piyush 8th Feb, 2022

Hello aspirant,

I hope that you are doing absolutely great.

With reference to your above mentioned query, I would like to tell you that with the above rank scored by you in KLEEE, the chances for you to get a seat in CSE branch would be little difficult as the cutoff keeps varying every year and is differennt for different category students.

However, looking at the last year cutoff trends, the closing cutoff for CSE branch in KLEEE was around 5k. So, you have the little chances to get CSE branch as I said.

The cutoff depends on variety of factors like : previous year question paper, difficulty level of the paper, previous year trends etc.

Further, for the KLEEE cutoff you can chekc the below KLEEE cutoff article :

https://engineering.careers360.com/exams/kleee#cutOff

I hope that this will help.

127 Views

I Have got 1717 Rank in the KLEEE exam . Can I get 75% Scholarship in tuition fees in KLU?

Aditya 5th Feb, 2022

Hi aspirant,

KL University offers scholarship to meritorious students based upon their performance in KLEEE. At first congratulations on your wonderful performance but I would want to tell you that the highest scholarship that can be offered is 50 percent, so there is no way that you can get 75% scholarship. Also apart from your rank the amount of scholarship also depends upon the branch you are going to choose, since you have not mentioned any I am providing below a table from which you can find the same:

	50%	35%	25%	15%	10%
CSE, AI&DS, BT	-	-	1-500	501-1000	1001-2500
ECE, CS&IT, IoT, ECS	1-500	501-1000	1001-1250	1251-2500	2501-5000
CE, ME, EEE	1-1000	1001-2500	2501-5000	5001-10000	10001-20000

Hope it helps!!

160 Views

i got 21236 rank in kleee,can i get seat in klu

Shja 4th Jul, 2021

Dear Aspirant,

In my opinion it's very tough for you to grab a seat in the branches which has the most demand like CSE/IT/ECE. You may get other branches but their is a slim chance. Don't worry it's not end of the world. You can give your best in other entrance exams as well. You can attend the counseling session till the last round to make sure you don't loose a chance but I recommend to move on and crack another entrance exam.

Hope this Helps!
Good Luck

105 Views

I got 7300 rank in gitam gat2020 and i got 19000 rank in kL univerity(kleee) ..now i am totally confused for the college selection in that both colleges

Shivang Dubey 27th May, 2020

Hey Sai

Gandhi Institute of Technology and Management (GITAM) has a very good infrastructure and facility services with a urban locality of Visakhapatnam. GITAM also has liberty given to students and has a good alumni base. According to student's reviews, the academic record is also better with a nice placement statistics.

Considering KL University, it has a good academic record with strict rules and has an average placement record. You can also consider them on the basis of locality and fees, which suits you and considering GITAM would be better.

All the best

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KLEEE 2023 Exam - Dates, Phase 1 Result (Out), Admit Card, Syllabus, Pattern

About KLEEE 2023

What is KLEEE?

KLEEE 2023 Highlights

KLEEE 2023 Important Dates

KLEEE 2023 Eligibility Criteria

Qualification in Entrance Exam

KLEEE 2023 Application Process

Steps to fill KLEEE 2023 form in online mode

Steps to fill KLEEE application form 2023 in offline mode

Application Fees

KLEEE 2023 Syllabus

Physics-

Units and dimensions

Elements of vectors

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