Dr. A.P.J. Abdul Kalam Technical University conducts every year Uttar Pradesh State Entrance Examination (UPSEE), for aspirants seeking admissions to B.Tech programmes in the engineering colleges of the state. About 1.50 lakh engineering seats including around 4,000 government college seats at different technical institutes across Uttar Pradesh will be filled through this exam.

According to Dr. A.P.J. Abdul Kalam Technical University, 10 per cent of the total seats in Engineering/Architecture at private institutions in the state will be kept open for candidates of other states also. So 10 per cent seats will be filled on the basis of combined merit of **UPSEE 2016**.

To apply for UPSEE Exam UG Course: **CLICK HERE**

To apply for UPSEE Exam PG Course: **CLICK HERE**

**UPSEE Exam Syllabus 2016**

Below is the detailed syllabus for the UPSEE Exam. All the students who aspire to get admission in various colleges through UPSEE can go through the below syllabus.

The syllabus is divided in 3 sections:

- Physics
- Chemistry
- Mathematics

__Mathematics__

**Vectors**: Algebra of vectors, scalar and vector products of two and three vectors and their applications.

**Co-ordinate Geometry**: Pair of straight lines, Circles, General equation of second degree, parabola, ellipse and hyperbola, tracing of conics

**Probability:** Definition, Dependent and independent events, Numerical problem on addition and multiplication, theorem of probability.

**Algebra**: Sets relations & functions, De-Morgan’s Law, Mapping Inverse relations, Equivalence relations, Peano’s axioms, Definition of rationals and integers through equivalence relation, Indices and surds, Solutions of simultaneous and quadratic equations, A.P., G.P. and H.P., Special sums i.e. ;n2 and ;n3 (n;N ), Partial fraction,

Binomial theorem for any index, exponential series, Logarithm and Logarithmic series. Determinants and their use in solving simultaneous linear equations, Matrices, Algebra of matrices, Inverse of a matrix, Use of matrix for solving equations

**Trigonometry: Identities**, Trigonometric equations, properties of triangles, solution of triangles, heights and distances, Inverse function, Complex numbers and their properties, Cube roots of unity, De-Moivre’s theorem.

**Calculus**: Limits & continuity of functions, Differentiation of function of function, tangents & normal, Simple examples of Maxima & Minima, Indeterminate forms, Integration of function by parts, by substitution and by partial fraction, definite integral, application to volumes and surfaces of frustums of sphere, cone and cylinder. Differential equations of first order and of first degree

**Statics**: Composition of coplanar, concurrent and parallel forces moments and couples resultant of set of coplanar forces and condition of equilibrium, determination of centroid in simple cases, Problems involving friction.

__Physics:__

**Laws of Motion**: Force and inertia, Newton’s laws of motion, and their significance.

Motion in two dimensions: Projectile motion, uniform circular motion, tangential and radial acceleration in curvelinear motion, relative motion and relative acceleration

Motion in one dimension: Average velocity, instantaneous velocity, one-dimensional motion with constant accelerations, freely falling bodies

**Linear Momentum & collisions**: Linear momentum & impulse, conservation of linear momentum for two particle system, collisions, collision in one dimension, collision in two dimension, rocket propulsion.

**Rotation of a rigid body about a fixed axis**: Angular velocity and angular acceleration, rotational kinematics, rotational motion with constant angular acceleration relationship between angular and linear quantities, rotational energy, moment of inertia for a ring, rod, spherical shell, sphere and plane lamina, torque and angular acceleration, work and energy in rotational motion, rolling motion of a solid sphere and cylinder

**Oscillatory motion**: Harmonic motion, oscillatory motion of mass attached to a spring, kinetic & potential energy, Time Period of a simple pendulum, comparing simple and harmonic motion with uniform circular motion, forced oscillations, damped oscillations and resonance.

**Gravitation**: Gravitational field, Kepler’s laws and motion of planets, planetary and satellite motion, geostationary satellite.

**Measurement**: Dimensional analysis and error estimation, dimensional compatibility and significant figures.

**Heat and thermodynamics**: First law of thermodynamics, specific heat of an ideal gas at constant volume and constant pressure, relation between them, thermodynamics process (reversible, irreversible, isothermal, adiabatic), second law of thermodynamics, concept of entropy and concept of absolute scale, efficiency of a Carnot engine, thermal conductivity, Newton’s law of cooling, black body radiation, Wien’s displacement law, Stefan’s law.

**Mechanics of solids and fluids**: States of matter young’s modulus, bulk modulus, shear modulus of rigidity, variations of pressure with depth, Buoyant forces and Archimedes principle, Pascal’s law, Bernoulli’s theorem and its application, surface energy, surface tension, angle of contact, capillary rise, coefficient of viscosity, viscous force, terminal velocity, Stoke’s law, stream line motion, Reynold’s numbers.

**Electrostatics**: Coulomb’s law, electric field and potential due to point charge, dipole and its field along the axis and perpendicular to axis, electric flux, Gauss’s theorem and its applications to find the field due to infinite sheet of charge, and inside the hallow conducting sphere, capacitance, parallel plate capacitor with air and dielectric medium between the Plates, series and parallel combination of capacitors, energy of a capacitor, displacement currents.

**Current Electricity**: Concept of free and bound electrons, drift velocity and mobility, electric current, Ohm’s law, resistivity, conductivity, temperature dependency of resistance, resistance in series and parallel combination,Kirchoff’s law and their application to network of resistances, principle of potentiometer, effect of temperature on resistance and its application

**Wave**: Wave motion, phase, amplitude and velocity of wave, newton’s formula for longitudinal waves, propagation of sound waves in air, effect of temperature and pressure on velocity of sound, Laplace’s correction, Principle of superposition, formation of standing waves, standing waves in strings and pipes, beats, Doppler’s effect

**Ray Optics and optical instruments**: Sources of light, luminous intensity,luminous flux, illuminance, photometry, wave nature of light, Huygen’s theory for propagation of light and rectilinear propagation of light, reflection of light , total internal reflection, reflection and refraction at spherical surfaces, focal length of a combination of lenses, spherical and chromatic aberration and their removal, refraction and dispersion of light due to a prism, simple and compound microscope, reflecting and refracting telescope, magnifying power and resolving power.

**Wave Optics**: Coherent and incoherent sources of light, interference, young’s double slit experiment diffraction due to a single slit, linearly polarized light, Polaroid.

**Magnetic Effect of Current**: Magnetic field due to current, Biot-Savart’s law, magnetic field due to solenoid, motion of charge in a magnetic field, force on a current carrying conductors and torque on current loop in a magnetic field, magnetic flux, forces between two parallel current carrying conductors, moving coil galvanometer and its conversion into ammeter and voltmeter.

**Magnetism in Matter**: The magnetization of substance due to orbital and spin motions of electrons, magnetic moment of atoms, diamagnetism, paramagnetism, ferromagnetism, earth’s magnetic field and its components and their measurement.

**Electromagnetic induction**: Induced e.m.f., Faraday’s laws, Lenz’s law, electromagnetic induction, self and mutual induction, B-H curve, hysisteresisloss and its importance, eddy currents

**Modern Physics**: Photo-electric equation, matter waves, quantization, Planck’s hypothesis, Bohr’s model of hydrogen atom and its spectra, ionisation potential, Rydberg constant, solar spectrum and Fraunhofer lines, fluorescence and phosphorescence, X-Rays and their productions, characteristic and continuous spectra, Nuclear Instability, radioactive decay laws, Emission of a, b, g rays, Mass – defect, Mass Energy equivalence, Nuclear Fission Nuclear Reactors, Nuclear Fusion. Classification of conductors, Insulators and semiconductors on the basis of energy bands in solids, PN junction, PN Diode, junction Transistors, Transistor as an amplifier and Oscillator.

Principles of Logic Gates ( AND, OR and NOT ) Analog Vs Digital communication, Difference between Radio and television, Signal propagation, Principle of LASER and MASER, Population Inversion, Spontaneous and stimulated Emission.

__Chemistry:__

**Atomic Structure**: Bohr’s concept. Quantum numbers, Electronic configuration, molecular orbital theory for homonuclear molecules, Pauli’s exclusion principle.

Periodic Table: Classification of elements on the basis of electronic configuration, properties of s,p and d block elements, ionization potential, electronegativity & electron affinity.

**Chemical Bonding**: Electrovalency, co-valency, hybridization involving s,p and d orbitals hydrogen bonding.

**Chemical Equilibrium and Kinetics**: Equilibrium constant (for gaseous system only) Le Chaterlier’s principle, ionic equilibrium, Ostwald’s dilution law, hydrolysis, pH and buffer solution, solubility product, common-ion effect, rate constant and first order reaction.

**Redox Reactions**: Oxidation number, oxidising and reducing agents, balancing of equations

**Electrochemistry**: Electrode potential and electro-chemical series.

**Catalysis**: Types and applications.

**Acid **– Base Concepts: Bronsted Lowry & Lewis.

**Colloids**: Types and preparation, Brownian movement, Tyndall effect, coagulation and peptization.

**Preparation and Properties of the following**: Hydrogen peroxide. copper sulphate, silver nitrate, plaster of paris, borax, Mohr’s salt, alums, white and red lead, microcosmic salt and bleaching powder, sodium thiosulphate

**Colligative Properties of Solution**: Lowering of vapour pressure, Osmotic pressure, depression of freezing point, elevation of boiling point, determination of molecular weight Thermochemistry: Exothermic & endothermic reactions Heat of reaction, Heat of combustion & formation, neutralisation, Hess’s law.

**General Organic Chemistry**: Shape of organic compounds, Inductive effect, mesomeric effect, electrophiles & nucleophiles, Reaction intermediates: carboniumion, carbanions & free radical, Types of organic reactions, Cannizzaro Friedel Craft, Perkin, Aldol condensation

**Isomerism**: Structural, Geometrical & Optical

**IUPAC**: Nomenclature of simple organic compounds.

**Polymers**: Addition & condensation polymers

**Corbohydrates**: Monosaccharides

**Solid State**: Structure of simple ionic compounds, Crystal imperfections (point defects only), Born-Haber cycle

**Preparation and Properties Of the Followings**: Hydrocarbons, monohydric alcohols, aldehydes, ketones, monocarboxylic acids, primary amines, benzene, nitrobenzene, aniline, phenol, benzaldehyde, benzoic acid, Grignard Reagent

**Petroleum**: Important industrial fractions, cracking, octane number, anti knocking compounds.

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