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OJEE Syllabus 2017 Changes in MBA/MCA/BHMS/BSC Orissa JEE Exam Pattern


OJEE Syllabus

OJEE Syllabus 2017: What Type of Changes are Included in OJEE Syllabus? Check To Know!!!  OJEE is also known as Odisha Joint Entrance Examination and it is the state level entrance test of Odisha state which is conducted by the State Government. The purpose of this exam is to provide admission to Various Courses in private and governmental Medical, Engineering and Management Institutions of Odisha. Candidates who are scheduling to prepare for OJEE Entrance Exam for admission to MBA, MCA, BHMS, and BSC Courses may get the latest Orissa JEE Syllabus along with OJEE Exam Pattern through this page.

OJEE Syllabus
Entrance exam is very important for every university, so candidates who will qualify in the entrance exam may get admission to above mentioned courses. With the help of the OJEE Syllabus and paper pattern, students may prepare according to their need. Candidates can go through this page of privatejobshub.in to get Odisha Joint Entrance Examination Syllabus or the question types in order to prepare good for their exam.

Prepare From Here

OJEE Syllabus

Mathematics (60 marks):
  • Statement
  • Negation
  • Implication
  • Converse
  • Contraposititve
  • Conjuction
  • Disjunction
  • Truth Table
  • Different methods of proof
  • Principle of Mathematical induction
Algebra of sets
  • Set operation
  • Union
  • Intersection
  • Difference
  • Symmetric difference
  • Complement
  • Venn diagram
  • Cartesian product of sets
  • Relation and functions
  • Equivalence relation
  • Kinds of functions and their domain and range
  • Composite function
  • Inverse of a function
Number system
  • Real numbers (algebraic and order properties, rational and irrational
  • numbers)
  • Absolute value
  • Triangle inequality
  • AM ≥ GM
  • Inequalities(simple cases)
  • Complex numbers
  • Algebra of complex numbers
  • Conjugate and square root of a complex number
  • Cube roots of unity
  • De Moivre’s theorem with simple application Permutations and Combinations -simple applications
  • Binomial theorem for positive integral index
  • Identities involving binomial co-efficients
  • Determinants and matrices:
  • Determinants of third order
  • Minors and cofactors
  • Properties of determinants
  • Matrices upto third order
  • Types of matrices
  • algebra of matrix
  • adjoint and inverse of matrix
  • Application of determinants and matrices to the solution of linear equations (in three unknowns)
  • Compound angles
  • Multiple and Submultiple angles
  • Solution of trigonometric equations
  • Properties of triangles
  • Inverse circular function
  • Sum and product of sine and cosine functions
  • Co-ordinate geometry of two dimensions:
  • Straight lines
  • Pairs of straight lines
  • Circles Equations of tangents and normals to a circle
  • Equations of parabola
  • Ellipse and hyperbola in simple forms
  • their tangents and normals
  • Condition of tangency
  • Rectangular and Conjugate hyperbolas
  • Coordinate geometry of three dimensions:
  • Distance and Division formulae
  • Direction
  • cosines and direction ratios
  • Projection
  • Angle between two planes
  • Angle between a line and a plane
  • Distance of a point from a line and a plane
  • Equation of a sphere – general equation
  • Equation of sphere when end points of diameter are given
Quadratic polynomials
  • Roots of quadratic polynomial
  • Factorisation of quadratic
  • polynomials
  • Maximum and minimum values of quadratic polynomials for all real values of
  • the variable
  • sign of the quadratic polynomial for all real values of the variable
  • Solution of quadratic inequations
Sequence and Series
  • Definition
  • Infinite geometric series
  • Arithmetico-geometric series
  • Exponential and Logarithmic series
  • Fundamentals
  • Dot and cross product of two vectors
  • Scalar triple product and vector triple product
  • Simple application of different products
Differential calculus
  • Concept of limit
  • Continuity of functions
  • Derivative of standard
  • Algebraic and Transcendental functions
  • Derivative of composite functions
  • functions in parametric form
  • Implicit differentiation
  • Successive differentiation (simple cases)
  • Leibnitz theorem
  • Partial differentiation
  • Application of Euler’s theorem
  • Derivative as a rate measure
  • Increasing and decreasing functions
  • Maxima and Minima
  • Indeterminate forms
  • Geometrical application of derivatives such as finding tangents and normals to plane
  • curves
Integral calculus
  • Standard methods of integration (substitution, by parts, by partial
  • fraction, etc)
  • Integration of rational
  • irrational functions and trigonometric functions
  • Definite integrals and properties of definite integrals
  • Areas under plane curves
Differential equations
  • Definition
  • order
  • degree of a differential equation
  • General and particular solution of a differential equation
  • Formation of a differential equation
  • Solution of a differential equations by method of separation of variables
  • Homogeneous differential equations of first order and first degree
  • Linear differential equations of the form dy/dx +p(x)y = q(x), Solutions of differential equations of the form d2y/dx2 =f(x)
Probability and statistics
  • Average (mean, median and mode)
  • Dispersion (standard
  • deviation and variance)
  • Definition of probability
  • Mutually exclusive event
  • Independent
  • events
  • Compound events
  • Conditional probability
  • Addition theorem
Number system
  • Decimal
  • binary
  • octal
  • hexadecimal numbers and their conversion

Introduction to Computer
  • Brief history of Computers
  • Components of a Computer
  • Computer related general knowledge
  • Application of Computers
  • Classification of Computers
  • Windows
Computer Arithmetic
  • Number System with general base
  • Number base conversion
  • Elementary arithmetic operation
C Language
  • Keywords
  • Constants
  • Variables
  • Identifiers
  • Operators
  • Statements
  • Writing simple C program
  • Arithmetic and logical expression
  • Simple if
  • nested if, if-else-ladder, conditional operators,
  • Switch case, for, while and do while loops.
  • Concept of functions in C.

+3 Sc. / B.Sc. PHYSICS (15 Questions)
  • laws of motion
  • motion in a uniform field
  • components of velocity and acceleration in different coordinate systems
  • Motion under a central force
  • Kepler’s law
  • Gravitational law and field
  • Potential due to a spherical body
  • Gauss and Poisson equations for gravitational self-energy
  • System of particles
  • center of mass
  • equation of motion
  • conservation of linear and angular momenta
  • conservation of energy
  • elastic and inelastic collisions
  • Rigid body motion
  • rotational motion
  • moment of inertia and their products
  • Harmonic oscillations
  • kinetic and potential energy examples of simple harmonic oscillations spring and mass system
  • simple and compound pendulum
  • torsional pendulum
  • Superposition of two simple harmonic motions of the same frequency along the same line
  • interference
  • superposition of two mutually perpendicular simple harmonic vibrations of the same frequency
  • Lissajous figures
  • case of different frequencies
Motion of charged particles in electric and magnetic fields
  • E as an accelerating field
  • electron gun
  • case of discharge tube
  • linear accelerator
  • E as deflecting field-CRO
  • sensitivity
Properties of Matter
  • Elasticity
  • small deformations
  • Hooke’s law
  • elastic
  • constants for an isotropic solid
  • beams supported at both the ends
  • cantilever
  • torsion of a cylinder
  • bending moments and shearing forces
  • Bernoulli’s theorem
  • viscous fluids
  • streamline and turbulent flow
  • Poiseulle’s law
  • Capillarity
  • tube of flow
  • Reynold’s number
  • Stokes law
  • Surface tension and surface energy
  • molecular interpretation of surface tension
  • pressure across a curved liquid surface
  • angle of contact and wetting
  • Coulomb’s law (in vacuum) expressed in vector forms
  • calculation of E for simple distributions of charge at rest
  • dipole and quadrupole fields Work done on a charge in an electrostatic field expressed as a line integral conservative nature of the electrostatic field
  • Electric potential
  • E = -dV/dx
  • Torque on a dipole in a uniform electric field and its energy
  • flux of the electric field
  • Gauss’ law and its application for finding E for symmetric charge distributions
  • Gaussian pillbox
  • fields at the surface of a conductor
  • Screening of electric field by a conductor
  • Capacitors
  • electrostatic energy
  • force per unit area of the surface of a conductor in an electric field
Electric Currents
  • Steady current
  • Current density vector J
  • non-steady currents and continuity equation
  • Kirchoff’s law and analysis of multi-loop circuits
  • rise and decay of current in LR and
  • CR circuits
  • decay constants
  • transients in LCR circuits
  • AC circuits
  • Complex numbers and their applications in solving AC circuit problems
  • complex impedance and reactance
  • series and parallel resonance
  • Q factor
  • power consumed by an AC circuit
  • power factor
  • Force on a moving charge
  • Lorentz force equation and definition of B
  • force on a straight conductor carrying current in a uniform magnetic field
  • torque on a current loop
  • magnetic dipole moment
  • Biot and Savart’s law
  • calculation of B in simple geometric situations
Time Varying Fields
  • Electromagnetic induction
  • Faraday’s law
  • electromotive force
  • e=σ.E.dr
  • Integral and differential forms of Faraday’s law
  • mutual and self inductance
  • transformers
  • energy in a static magnetic field
  • Maxwell’s displacement current
  • Maxwell’s equations
  • electromagnetic field
  • energy density
Electromagnetic Waves
  • The wave equation satisfied by E and B
  • plane electromagnetic waves in vacuum
  • Poynting’s vector
Kinetic theory of Matter
  • Real gas
  • Van der Waals gas
  • equation of state
  • nature of Van der Waals forces
  • comparison with experimental P-V curves
  • The critical constants
  • distinction between gaseous and vapour state
  • Joule expansion of ideal gas and of a Van der Waals gas
  • Joule coefficient
  • estimates of J-T cooling
  • Blackbody radiation
  • energy distribution in blackbody spectrum
  • Planck’s quantum postulates
  • Planck’s law
  • Interpretation of behaviour of specific heats of gases at low temperature
Kinetic Theory of Gases
  • Maxwellian distribution of speeds in an ideal gas
  • distribution of speeds and of velocities
  • distinction between mean
  • rms and most probable speed values
Physical Optics
  • The principle of superpositions
  • Interference of a light
  • double-slit interference
  • coherence requirement for the sources
  • optical path retardation
  • lateral shift of fringes
Localized fringes
  • thin films
  • Michelson interferometer
  • Fresnel diffraction
  • Fresnel half-period zones
  • plates
  • straight edge
  • rectilinear propagation
  • Fraunhofer
  • Diffraction of a single slit
  • the intensity distribution
  • diffraction at a circular
  • aperture and a circular disc
  • Diffraction gratings:
  • Diffraction at N parallel slits
  • intensity distribution
  • plane diffraction grating
  • polarization of transverse waves
  • plane
  • circular and elliptically polarized light
  • Polarization by reflection and refraction
Double reflection and optical rotation
  • Refraction
  • in uniaxial crystals
  • its electromagnetic theory
  • Phase retardation plates
  • double image prism
  • rotation of plane of polarized light
  • origin of optical rotation in liquids and in crystals
Quantum Mechanics
  • Origin of the quantum theory
  • failure of classical physics to explain the phenomena such as blackbody spectrum
  • photo electric effect
  • Ritz combination
  • principle in spectra
  • stability of an atom
  • Planck’s radiation law
  • Einstein’s explanation of photoelectric effect
  • Bohr’s quantization of angular momentum and its applications to hydrogen atom
  • limitations of Bohr’s theory
  • Wave particle duality and uncertainty
  • de Broglie’s hypothesis for matter waves
  • the concept of wave and group velocities
  • evidence for diffraction and interference of particles, experimental demonstration of matter waves
  • Consequence of de Broglie’s concepts
  • quantization in hydrogen atom
  • quantized energy levels of a particle in a box
  • wave packets
  • Heisenberg’s
  • uncertainty relation for p and x
  • its extension to energy and time
uncertainty relation
  • gamma ray microscope
  • diffraction at a slit
  • particle in a box
  • position of electron in a Bohr orbit
Quantum Mechanics
  • Schrodinger’s equation
  • Postulatory basis of quantum mechanics
  • operators
  • expectation values
  • transition probabilities
  • applications to particle in a one dimensional box
  • harmonic oscillator
  • reflection at a step potential
  • transmission across a potential barrier
Week spectra
  • ontinuous X-ray spectrum and its dependence on voltage
  • Characteristics X-rays
  • Moseley’s law
  • Raman effect
  • Stokes and anti-Stocks lines
  • fission and fusion (concepts)
  • energy production in stars by p-p and carbon cycles (concepts)
  • Cyclotron
Solid State Physics
  • X-ray diffraction
  • Bragg’s law
  • Atomic magnetic moment
  • magnetic susceptibility
  • Dia-Para-and Ferromagnetism
  • Ferromagnetic domains
  • Hysteresis
Band Structure
  • Energy bands
  • energy gap
  • metals
  • insulators
  • semiconductors
Solid State Devices
  • Semiconductors - Instrinsic semiconductors
  • electrons and holes Fermi level
  • Temperature dependence of electron and hole concentrations
  • impurity states
  • n and p type semiconductors
Semiconductor devices
  • p-n junction
  • majority and minority charge carriers
  • junction diode
  • Zener diode
  • Power supply
  • diode as a circuit element
  • load line concept
  • rectification
  • ripple factor
  • Zener diode
  • voltage stabilization
  • IC voltage regulation
  • characteristics of a
  • 16 transistor in CB
  • CE and CC mode

Start Your Test

Orissa JEE Exam Pattern:
  • OJEE is the pen and paper based examination.
  • The question paper of OJEE 2017 will consisting of 60 MCQs (multiple choice questions)
  • There will be four options for each question, out which only one option is correct.
  • Each correct answer will contain 4 marks while for every incorrect answer 1 mark will be deducted as the negative marking.
  • The duration of the examination varies from course to course.
  • The exam duration will be 1 hour or 2 hours.
Related Updates

Steps to download OJEE Entrance Exam Syllabus

Candidates can get complete syllabus by following these some easy steps which is given below:  
  • Firstly, candidates need to visit the Official site which is ojee.nic.in
  • Now hit on the “Syllabus for OJEE-2017” link this is available on the “Important” section on the homepage.
  • Now, choose the course for which you are looking for OJEE Syllabus.
  • A PDF file will get opened on the screen of your system.
  • Save it or get a print out of OJEE Syllabus to start your preparation.
Candidates can visit our site privatejobshub.in time to time to get the latest information about OJEE Syllabus 2017. You can also join us on Facebook and Google plus to receive latest updates regarding OJEE Syllabus and we will send the updates on your Facebook wall. You can also book mark our web portal by using CTRL+D option. 

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