JEE Main 2019

Online Application Form Dates : Feb 2,2019 to Mar 7,2019

JEE Main 2019 Paper 1 and Paper 2 exam Date: April 7,2019 to April 20,2019

JEE Mains 2019 Result Date :Paper 1 30th April, 2019 and Paper 2 15th May, 2019

JEE Main 2019

Joint Entrance Exam (JEE) Main is the national level undergraduate engineering entrance exam. The entrance exam is the gateway for the admission to various B.Tech/B.E. programmes offered by 31 NITs, 23 IIITs and 23 CFTIs. From 2019, JEE Main will be conducted by National Testing Agency (NTA), twice a year in computer-based mode only. Also, JEE Main is the qualifying test for JEE Advanced through which candidates can get admission to 23 IITs. JEE Main 2019 will be held for 2 papers where Paper-I is for B.Tech admissions and Paper-II for B.Arch admissions. States like Odisha, Madhya Pradesh, Haryana, Uttarakhand and Nagaland & some other institutions use JEE Main ranks for admissions; however, admission criteria for the mentioned states will be notified by the concerned state authorities only.

The new changes in JEE Main 2019 allow for candidates to appear twice for the entrance exam in a given year. The better of the two scores will be used for the purpose of ranking as per the regulations laid by the authorities. Form 2019, Bihar and Jharkhand have joined the JEE Main system and the state entrance exams have been done away with.

JEE Main 2019 Application Process

Mode of Application : Online and Offline

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

Application Fees






General, OBC


Online, Offline





Online, Offline

Transgender, Male


SC, OBC, General, ST


Online, Offline



SC, General, OBC, ST


Online, Offline

Transgender, Male, Female


The JEE Main 2019 application form was released in online mode by NTA. The application form for both the papers were same. Candidates could fill application form either for Paper-I or Paper-II or for both. To fill the application form of JEE Main 2019, the candidates had to follow the given below steps:

Fill Authentication Form- Before filling the application form, candidates will have to register using their either Aadhaar Card number, Passport Number, ration card number, bank account or any other valid Govt. identity number provided.

Fill JEE Main 2019 Application Form – Enter the requisite details related to academic, personal, exam qualified, contact information etc. 

Upload Scanned Images of Documents – Upload the scanned images of requisite documents in the prescribed format and dimensions. 

Specifications of Scanned Documents


File Size


File Format

Recent Photograph with name of candidate below and date on which the photograph was taken

10KB to 200KB

3.5 cm x 4.5 cm


Signature of Candidates

4 KB to 300KB

3.5 cm x 1.5 cm


 Note: Candidates need not to require to parent's signatures or photograph while filling the application form.

Make Fee Payment- Candidates will have to pay the requisite fee of entrance exam either in online or offline mode.

Application Fees

Paper (s) Appearing

JEE Main 2019 Application Fees (Rs)



For Exam Centres in India

JEE Main Paper I (B.E./B.Tech) or JEE Main Paper II (B. Arch/B.Planning) only

500 (Boys)


250 (Boys)

250 (Girls)

Both JEE Main Paper I (B.E./B.Tech) and JEE Main Paper II (B. Arch/B.Planning)

900 (Boys)

450 (Girls)

450 (Boys)

450 (Boys)

Application Fee for Exam Centres in Foreign Country

JEE Main Paper I (B.E./B.Tech) or JEE Main Paper II (B. Arch/B.Planning) only

2000 (Boys)

1000 (Girls)

1000 (Boys)

1000 (Girls)

Both JEE Main Paper I (B.E./B.Tech) and JEE Main Paper II (B. Arch/B.Planning)

3500 (Boys)

1500 (Girls)

1500 (Boys)

1500 (Girls)

Mode of Payment: Candidates will be able to pay the fees both in online and offline mode.

For payment through offline mode: Download the e-challan and deposit the fees at the nearest SBI branches.

For payment through online mode: Net banking or credit/debit card

Acknowledgement Page Print out: Once the application form is submitted, take 4 print out the acknowledgement page and keep it safely for future use.

JEE Main 2019 Correction Window- The correction is available now for the candidates who are appeared in both January and April examination. They can change their category detail until April 16 (5:00 pm). NTA had provided JEE Main 2019 application correction facility from March 11 to 15. During this time period, candidates were able to edit some of the prescribed information in their application form. Also, fees had to be paid for the corrections as requisite by the authorities.

JEE Main 2019 Syllabus

JEE Main Paper 1 Syllabus

Section Unit Topic
Mathematics Sets, relations and functions Sets and their representation
Intersection and complement of sets and their algebraic properties
Power set
Types of relations
Equivalence relations
One-one, into and onto functions
Composition of functions
Complex number and quadratic equations Complex numbers as ordered pairs or reals
Representation of complex numbers in the form a+ib and their representation in a plane
Argand diagram
Algebra of complex numbers
Modulus and argument of a complex number
Square root of a complex number
Triangle inequality
Quadratic equation in real and complex number system and their solutions
Relation between roots and co-efficients
Nature of roots
Formation of quadratic equations with given roots
Matrices and determinants Matrices
Algebra of matrices
Types of matrices
Determinants and matrices of order two and three
Properties of determinants
Evaluation of determinants
Area of triangles using determinants
Adjoint and evaluation of inverse of a square matrix using determinants and elementary transformations
Test of consistency and solution of simultaneous linear equations in two or three variables using determinants and matrices
Permutations and combinations Fundamental principle of counting
Permutation as an arrangement and combination as selection
Meaning of P (n, r) and C (n, r). Simple applications
Mathematical induction Principle of mathematical induction and its simple applications
Binomial theorem and its simple applications Binomial theorem for a positive integral index
General term and middle term
Properties of binomial coefficients and simple applications
Sequences and Series Arithmetic and geometric progressions
Insertion of arithmetic, geometric means between two given numbers
Relation between A.M. and G.M. Sum up to n terms of special series Sn, Sn2, Sn3
Arithmetico-geometric progression
Limit, continuity and differentiability Real
Valued functions
Algebra of functions
Polynomial functions
Rational functions
Trigonometric functions
Logarithmic and exponential functions
Inverse functions
Graphs of simple functions
Limits, continuity and differentiability
Differentiation or the sum and difference
Product and quotient of two functions
Differentiation of trigonometric
Inverse trigonometric
Logarithmic exponential
Composite and implicit functions
Derivatives of order up to two
Rolle's and Lagrange's mean value theorems
Applications of derivatives
Rate of change of quantities
Monotonic - increasing and decreasing functions
Maxima and minima of functions of one variable
Tangents and normals
Integrals calculus Integral as an anti -derivative
Fundamental integrals involving algebraic, trigonometric , exponential and logarithmic functions
Integration by substitution, by parts and by partial fractions
Integration using trigonometric identities
Integral as limit or a sum
Fundamental theorem of calculus
Properties of definite integrals
Evaluation of definite integrals
Determining areas of the regions bounded by simple curves in standard form
Differential Equations Ordinary differential equations and their order and degree
Formation of differential equations
Solution of differential equations by the method of separations of variables
Solution of homogeneous and linear differential equations
Co-ordinate geometry Cartesian system of rectangular co-ordinates 10 in a plane
Distance formula
Section formula
Locus and its equation
Translation of axes
Slope of a line
Parallel and perpendicular lines
Intercepts of a line on the coordinate axes
Various forms of equations of a straight line
Intersection of lines
Angles between two lines
Conditions for concurrence of three lines
Distance of a point from a line
Equations of internal and external bisectors of angles between two lines
Coordinates of centroid
Orthocentre and circumcentre or a triangle
Equation of family of lines passing through the point of intersection of two lines
Standard form of equation of a circle
General form of the equation or a circle, its radius and centre
Equation of a circle when the end points of a diameter are given
Points of intersection of a line and a circle with the centre at the origin and condition for a line to be tangent to a circle
Equation of the tangent
Sections of cones
Equation of conic sections in standard forms
Condition for y = mx + c to be a tangent and point (s) of tangency
Three-dimensional geometry Coordinates of a point in space
Distance between two points
Section formula
Direction ratios and direction cosines
Angle between two intersecting lines
Skew lines and the shortest distance between them and its equation
Equations of a line and a plane in different forms
Intersection of a line and a plane
Coplanar lines
Vector algebra Vectors and scalars
Addition of vectors
Components of a vector in two dimensions and three dimensional space
Scalar and vector products
Scalar and vector triple product
Statistics and probability Measures of dispersion
Calculation of mean and median
Mode of grouped and ungrouped data calculation of standard deviation
Variance and mean deviation for grouped and ungrouped data
Probability of an event
Addition and multiplication theorems or probability
Baye's theorem
Probability distribution of a random variate
Bernoulli trials and binomial distribution
Trigonometry Trigonometrical identities and equations
Trigonometrical functions
Inverse trigonometrical functions and their properties
Heights and distances
Mathematical reasoning Statements
Logical operations and, or, implies, implied by, if and only if
Understanding of tautology
Converse and contrapositive
Physics Physics and measurements Physics
Technology and society
S I units
Fundamental and derived units
Least count
Accuracy and precision of measuring instruments
Errors in measurement
Dimensions of physical quantities
Dimensional analysis and its applications
Kinematics Frame of reference
Motion in a straight line
Position-time graph
Speed and velocity
Uniform and non-uniform motion
Average speed and instantaneous velocity uniformly accelerated motion
Velocity-time graph
Position-time graphs
Relations for uniformly accelerated motion
Scalars and vectors
Vector addition and subtraction
Zero vector
Scalar and vector products
Unit vector
Resolution of a vector
Relative velocity
Motion in a plane
Projectile motion
Uniform circular motion
Laws of motion Force and inertia
Newton’s first law of motion
Newton's second law of motion
Newton's third law or motion
Law of conservation of linear momentum and its applications
Equilibrium of concurrent forces
Static and kinetic friction
Laws of friction
Rolling friction
Dynamics of uniform circular motion
Centripetal force and Its applications
Work, energy and power Work done by a constant force and a variable force
Kinetic and potential energies
Work energy theorem
Potential energy of a spring
Conservation of mechanical energy
Conservative and non-conservative forces
Elastic and inelastic collisions in one and two dimensions
Rotational motion Centre of mass or a two-particle system
Centre of mass of a rigid body
Basic concepts of rotational motions
Moment of a force
Angular momentum
Conservation of angular momentum and its applications
Moment of inertia
Radius of gyration
Values of moments of inertia for simple geometrical
Parallel and perpendicular axes theorems and their applications
Rigid body rotation
Equations of rotational motion
Gravitation The universal law of gravitation
Acceleration due to gravity and its variation with altitude and depth
Kepler’s laws or planetary motion
Gravitational potential energy
Gravitational potential
Escape velocity
Orbital velocity of a satellite
Geo-stationary satellites
Properties of solids and liquids Elastic behaviour
Stress-strain relationship
Hooke's law
Young’s modulus
Bulk modulus
Modulus of rigidity
Pressure due to a fluid column
Pascal’s law and its applications.
Stokes’ law
Terminal velocity
Streamline and turbulent flow
Reynolds number
Bernoulli’s principle and its applications
Surface energy and surface tension
Angle of contact
Application of surface tension
Drops, bubbles and capillary rise
Thermal expansion
Specific heat capacity
Change or state
Latent heat
Heat transfer-conduction
Convection and radiation
Newton's law of cooling
Thermodynamics Thermal equilibrium
Zeroth law of thermodynamics
Concept of temperature
Heat, work and internal energy
First law of thermodynamics
Second law of thermodynamics
Reversible and irreversible processes
Carnot engine and its efficiency
Kinetics theory of gases Equation of state of a perfect gas
Work done on compressing a gas
Kinetic theory or gases - assumptions
Concept of pressure
Kinetic energy and temperature
RMS speed of gas molecules
Degrees of freedom
Law or equipartition of energy
Applications to specific heat capacities or gases
Mean free path
Avogadro's number
Oscillations and waves Periodic motion
Displacement as a function of time
Periodic functions
Simple harmonic motion and its equation
Oscillations of a spring
Restoring force and force constant
Energy in SHM
Kinetic and potential energies
Simple pendulum
Derivation or expression for its time period
Free, forced and damped oscillations
Wave motion
Longitudinal and transverse waves
Speed of a wave
Displacement relation for a progressive wave
Principle of superposition of waves
Reflection of waves
Standing waves in strings and organ pipes
Fundamental mode and harmonics
Doppler effect in sound
Electrostatics Electric charges
Conservation of charge
Coulomb's law-forces between two point charges
Forces between multiple charges
Superposition principle and continuous charge distribution
Electric field
Electric field due to a point charge
Electric field lines
Electric dipole
Electric field due to a dipole
Torque on a dipole in a uniform electric field
Electric flux
Gauss’s law and its applications to find field due to infinitely long uniformly charged straight wire
Uniformly charged infinite plane sheet and uniformly charged thin spherical shell
Electric potential and its calculation for a point charge
Electric dipole and system or charges
Equipotential surfaces
Electrical potential energy of a system of two point charges in an electrostatics field
Conductors and insulators
Dielectrics and electric polarization
Combination of capacitors in series and in parallel
Capacitance or a parallel plate capacitor with and without dielectric medium between the plates
Energy stored in a capacitator
Current electricity Electric current
Drift velocity
Ohm’s law
Electrical resistance
Resistances of different materials
V-I characteristics of ohmic and non ohmic conductors
Electrical energy and power
Electrical resistivity
Colour code for resistors
Series and parallel combinations of resistors
Temperature dependence of resistance
Electric Cell and its Internal resistance
Potential difference and EMF of a cell
Combination of cells in series and in parallel
Kirchhoff's laws and their applications
Wheatstone bridge
Metre bridge
Potentiometer and its principle and its applications
Magnetic effects of current and magnetism Biot - Savart law and its application to current carrying circular loop
Ampere’s law and its applications to infinitely long current carrying straight wire and solenoid
Force on a moving charge in uniform magnetic and electric fields
Force on a current-carrying conductor in a uniform magnetic field
Force between two parallel current carrying conductors
Definition of ampere
Torque experienced by a current loop in uniform magnetic field
Moving coil galvanometer and its current sensitivity and conversion to ammeter and voltmeter
Current loop as a magnetic dipole and its magnetic dipole moment
Bar magnet as an equivalent solenoid
Magnetic field lines
Earth's magnetic field and magnetic elements
Para, dia and ferro magnetic substance
Magnetic susceptibility and permeability
Electromagnets and permanent magnets
Electromagnetic induction and alternating currents Electromagnetic induction
Faraday's law
Induced EMF and current
Lenz's law
Eddy currents
Self and mutual inductance
Alternating currents
Peak and RMS value of alternating current/voltage
Reactance and impedance
LCR series circuit
Quality factor
Power in AC circuits
Wattless current
AC generator and transformer
Optics Reflection and refraction of light at plane and spherical surfaces
Mirror formula
Total internal reflection and its applications
Deviation and dispersion of light by a prism
Lens formula
Power of a lens
Combination of thin lenses in contact
Microscope and astronomical telescope and their magnifying powers
Wave optics
Wavefront and Huygens principle
Laws of reflection and refraction using Huygens principle
Young’s double slit experiment and expression for fringe width
Coherent sources and sustained interference of light
Diffraction due to a single slit
Width of central maximum
Resolving power of microscopes and astronomical telescopes
Plane polarized light
Brewster’s law
Uses of plane polarized light and polaroids
Dual nature of matter and radiation Dual nature of radiation
Photoelectric effect
Hertz and Lenard’s observations
Einstein's photoelectric equation
Particle nature of light
Matter waves-wave nature of particle and Broglie relation
Davisson-Germer experiment
Atoms and nuclei Alpha-particle scattering experiment
Rutherford's model of atom
Bohr model
Energy levels
Hydrogen spectrum
Composition and size of nucleus
Atomic masses
Alpha. beta and gamma particles/rays and their properties
Radioactive decay law
Mass-energy relation
Mass defect
Binding energy per nucleon and its variation with mass number
Nuclear fission and fusion
Electronic devices Semiconductors
Semiconductor diode
1-V characteristics in forward and reverse bias
Diode as a rectifier
I-V characteristics or LED
Solar cell and Zener diode
Zener diode as a voltage regulator
Junction transistor
Transistor action
Characteristics or a transistor
Transistor as an amplifier and oscillator
Logic gates
Transistor as a switch
Communications system Propagation of electromagnetic waves in the atmosphere
Sky and space wave propagation
Need for modulation
Amplitude and frequency modulation
Bandwidth of signals
Bandwidth of transmission medium
Basic elements of a communication system
Experimental skills Familiarity with the basic approach and observations of the experiments and activities
Vennier callipers and its use to measure internal and external diameter and depth of a vessel
Screw gauge and its use to determine thickness/diameter of thin sheet/wire
Simple pendulum-dissipation of energy by plotting a graph between square of amplitude and time
Meter scale and mass or a given object by principle of moments
Young’s modulus of elasticity of the material of a metallic wire
Surface tension of water by capillary rise and effect of detergents
Co-efficient or viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body
Plotting a cooling curve for the relationship between the temperature of a hot body and time
Speed of sound in air at room temperature using a resonance tube
Specific heat capacity of a given solid and liquid by method of mixtures
Resistivity of the material of a given wire using metre bridge
Resistance of a given wire using Ohm's law
Comparison or EMF of two primary cells
Determination of internal resistance of a cell
Resistance and figure of merit of a galvanometer by half deflection method
Focal length
Convex mirror
Concave mirror
Convex Iens using parallax method
Plot of angle of deviation vs angle of incidence for a triangular prism
Refractive index of a glass slab using a travelling microscope
Characteristic curves of a p-n junction diode in forward and reverse bias
Characteristic curves of a Zener diode and finding reverse break down voltage
Characteristic curves of a transistor and finding current gain and voltage gain
Identification of diode, LED, transistor, IC, resistor, capacitor from mixed collection of such items
Using multimeter to
Identify base of a transistor
Distinguish between NPN and PNP type transistor
See the unidirectional flow of current in case of a diode and an LED
Check the correctness or otherwise of a given electronic component
Chemistry Some basic concepts in chemistry Matter and its nature
Dalton’s atomic theory
Concept of atom, molecule, element and compound
Physical quantities and their measurements in chemistry
Precision and accuracy
Significant figures
SI units
Dimensional analysis
Laws of chemical combination
Atomic and molecular masses
Mole concept
Molar mass
Percentage composition
Empirical and molecular formulae
Chemical equations and stoichiometry
States of matter Gaseous state
Measurable properties or gases
Gas laws
Boyle’s Iaw
Charles law
Graham's law of diffusion
Avogadro’s law and Dalton’s law of partial pressure
Concept of absolute scale of temperature
Ideal gas equation
Kinetic theory of gases
Concept of average, root mean square and most probable velocities
Real gases
Deviation from ideal behaviour
Compressibility factor and Van der Waals equation
Liquid State
Properties of liquids
Vapour pressure
Viscosity and surface tension and effect of temperature on them
Solid state
Classification of solids
Molecular, ionic, covalent and metallic solids
Elementary idea of amorphous and crystalline solids
Bragg’s law and its applications
Unit cell and lattices
Packing in solids
Calculations involving unit cell parameters
Imperfection in solids
Electrical and magnetic properties
Atomic structure Thomson and Rutherford atomic models and their limitations
Nature of electromagnetic radiation
Photoelectric effect
Spectrum of hydrogen atom and its postulates
Bohr model of hydrogen atom and its postulates
Derivation of the relations for energy of the electron and radii of the different orbits
Limitations of Bohr’s model
Dual nature of matter
De-Broglie's relationship
Heisenberg uncertainty principle
Elementary ideas of quantum mechanics
Quantum mechanical model of atom and its important features
Concept of atomic orbitals as one electron wave functions
Various quantum numbers and their significance
Shapes of s, p and d orbitals
Electron spin and spin quantum number
Rules for filling electrons in orbitals
Aufbau principle
Pauli's exclusion principle and Hund's rule
Electronic configuration of elements
Extra stability of half-filled and completely filled orbitals
Chemical bonding and molecular structure Lewis approach to chemical bond formation
Concept of ionic and covalent bonds
Ionic bonding and formation of ionic bonds
Factors affecting the formation of ionic bonds
Calculation of lattice enthalpy
Covalent bonding
Concept of electronegativity
Fajan's rule
Dipole moment
Valence shell electron pair repulsion theory and shapes of simple molecules
Quantum mechanical approach to covalent bonding
Valence bond theory and its important features
Concept of hybridization involving s, p and d orbitals
Molecular orbital theory and its important features
Types of molecular orbitals
Sigma and pi-bonds
Molecular orbital electronic configurations of homonuclear diatomic molecules
Concept of bond order
Bond length and bond energy
Elementary idea of metallic bonding
Hydrogen bonding and its applications
Chemical thermodynamics Fundamentals of thermodynamics
System and surroundings
Extensive and intensive properties
State functions
Types of processes
First law or thermodynamics
Concept of work, heat, internal energy and enthalpy
Heat capacity and molar heat capacity
Hess’s law of constant heat summation
Enthalpies of bond dissociation
Phase transition
Ionization and solution
Second law of thermodynamics
Spontaneity of processes
∆S of the universe and ∆G of the system as criteria for spontaneity
Standard Gibbs energy change and equilibrium constant
Solutions Different methods for expressing concentration of solution
Molality, molarity, mole fraction, percentage, vapour pressure of solutions and Raoult’s law
Ideal and non-ideal solutions
Composition of vapour pressure
Plots for ideal and non-ideal solutions
Colligative properties of dilute solutions
Relative lowering of vapour pressure
Depression of freezing point
Elevation of boiling point and osmotic pressure
Determination of molecular mass using colligative properties
Abnormal value of molar mass
Van't Hoff factor and its significance
Equilibrium Meaning of equilibrium
Concept of dynamic equilibrium
Equilibria involving physical processes
Solid -liquid, liquid - gas and solid - gas equilibria
Henry's law
General characteristics of equilibrium involving physical processes
Equilibria involving chemical processes
Law of chemical equilibrium
Equilibrium constants and their significance
Significance of ∆G and ∆G' in chemical equilibria
Factors affecting equilibrium concentration, pressure and temperature
Effect of catalyst
Le Chatelier's principle
Ionic equilibrium
Weak and strong electrolytes
Ionization of electrolytes
Various concepts of acids and bases and their ionization
Acid - base equilibria and ionization constants
Ionization of water
PH scale
Common ion effect
Hydrolysis of salts and pH of their solutions
Solubility of sparingly soluble salts and solubility products
Buffer solutions
Redox reactions and electrochemistry Electronic concepts of oxidation and reduction
Redox reactions
Oxidation number
Rules for assigning oxidation number
Balancing of redox reactions
Electrolytic and metallic conduction
Conductance in electrolytic solutions
Molar conductivities and their variation with concentration
Kohlrausch's law and its applications
Electrochemical cells
Electrolytic and galvanic cells
Different types of electrodes
Electrode potentials including standard electrode potential
Half-cell and cell reactions
EMF of a galvanic cell and its measurement
Nernst equation and its applications
Relationship between cell potential and Gibbs' energy change
Dry cell and lead accumulator
Fuel cells
Chemical kinetics Rate of a chemical reaction
Factors affecting the rate of reactions
Concentration, temperature, pressure and catalyst
Elementary and complex reactions
Order and molecularity of reactions
Rate law
Rate constant and its units
Differential and integral forms of zero and first order reactions and their characteristics
Effect of temperature on rate of reactions
Arrhenius theory
Activation energy and its calculation
Collision theory of bimolecular gaseous reactions
Surface chemistry Adsorption
Physisorption and chemisorption and their characteristics
Factors affecting adsorption of gases on solids
Freundlich and Langmuir adsorption isotherms
Adsorption from solutions
Homogeneous and heterogeneous
Activity and selectivity of solid catalysts
Enzyme catalysis and its mechanism
Colloidal state
Distinction among true solutions
Colloids and suspensions
Classification of colloids
Lyophilic and lyophobic
Macromolecular and associated colloids
Preparation and properties of colloids
Tyndall effect
Brownian movement
Coagulation and flocculation
Emulsions and their characteristics
Classification of elements and periodicity in properties Modern periodic law and present form of the periodic table, s, p, d and f block elements
Periodic trends in properties of elements atomic and ionic radii
Ionization enthalpy
Electron gain enthalpy
Oxidation states and chemical reactivity
General principles and process of Isolation of metals Mode of occurrence of elements in nature
Steps involved in the extraction or metals
Reduction and refining with special reference to the extraction of Al, Cu, Zn and Fe
Thermodynamic and electrochemical principles involved in the extraction of metals
Hydrogen Position of hydrogen in periodic table
Preparation, properties and uses of hydrogen
Physical and chemical properties of water and heavy water
Structure and preparation of hydrogen peroxide
Reactions and uses of hydrogen peroxide
Classification of hydrides
Ionic, covalent and interstitial
Hydrogen as a fuel
S - block elements - alkali and alkaline earth metals General introduction of group 1 and 2 Elements
Electronic configuration and general trends in physical and chemical properties of elements
Anomalous properties of the first element of each group
Diagonal relationships
Preparation und properties of some important compounds
Sodium carbonate and sodium hydroxide and sodium hydrogen carbonate
Industrial uses of lime, limestone plaster of Paris and cement
Biological significance of Na, K, Mg and Ca
P - block elements General Introduction of Group 13 to 18 Elements
Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups
Unique behaviour or the first element in each group
P - block elements - group 13 elements Preparation, properties and uses of boron and aluminium
Structure, properties and uses of borax, boric acid, diborane, boron trifluoride, aluminium chloride and alums
Structure, properties and uses of boric acid
Structure, properties and uses of diborane
Structure, properties and uses of boron trifluoride
Structure, properties and uses of aluminium chloride and alums
P - block elements - group 14 elements Tendency for catenation
Structure, properties and uses of allotropes and oxides of carbon, silicon tetrachloride, silicates. Zeolites and silicones
P - block elements - group 15 elements Properties and uses or nitrogen and phosphorus
Allotrophic forms of phosphorus
Preparation, properties, structure and uses of ammonia, nitric acid, phosphine and phosphorus halides
Structures of oxides and oxoacids of nitrogen and phosphorus
P - block elements - group 16 elements Preparation, properties, structures and uses of ozone
Allotropic forms or sulphur
Preparation, properties, structures and uses of sulphuric acid
Structures of oxoacids of sulphur
P - block elements - group 17 elements Preparation, properties and uses of hydrochloric acid
Trends in the acidic nature of hydrogen halides
Structures of interhalogen compounds and oxides and oxoacids of halogens
P - block elements - group 18 elements Occurrence and uses of noble gases
Structures of fluorides and oxides of xenon
D and F - block elements Transition elements
General introduction
Electronic configuration
Occurrence and characteristics
General trends in properties of the first row transition elements
Physical properties
Ionization enthalpy
Oxidation states
Atomic radii
Colour and catalytic behaviour
Magnetic properties
Complex formation
Interstitial compounds
Alloy formation
Preparation, properties and uses of K, Cr, O, and KMNO4
Inner Transition Elements
Electronic configuration of Lanthanoids
Oxidation states and lanthanoid contraction
Electronic configuration and oxidation states of Actinoids
Co-ordinations compound Introduction to co-ordination compounds
Werner's theory
Co-ordination number
IUPAC nomenclature of mononuclear co-ordination compounds
Valence bond approach and basic ideas of crystal field theory
Colour and magnetic properties
Importance of co-ordination compounds
Environmental chemistry Environmental pollution
Atmospheric, water and soil
Atmospheric pollution
Tropospheric and stratospheric
Tropospheric pollutants
Oxides of carbon, nitrogen and sulphur, hydrocarbons and their sources
Harmful effects and prevention
Greenhouse effect and global warming
Acid rain
Particulate pollutants
Smoke, dust, smog. fumes, mist and their sources
Stratospheric pollution
Formation and breakdown of ozone
Depletion or ozone layer and its mechanism and effects
Water pollution
Major pollutants such as pathogens, organic wastes and chemical pollutants and their harmful effects and prevention
Soil pollution
Major pollutants such as pesticides their harmful effects and prevention
Strategies to control environmental pollution
Purification and characteristics of organic compounds Purification
Differential extract ion and chromatography
Principles and their applications
Qualitative analysis
Detection of nitrogen, sulphur, phosphorus and halogens
Quantitative analysis
Estimation of carbon, hydrogen, nitrogen, halogens, sulphur and phosphorus
Calculations or empirical formulae and molecular formulae
Numerical problems in organic quantitative analysis
Some basic principles of organic chemistry Tetra valency of carbon
Shapes of simple molecules
Hybridization of S and P
Classification of organic compounds based on functional groups and those containing halogens, oxygen, nitrogen and sulphur
Homologous series
Structural and stereoisomerism
Nomenclature of trivial and IUPAC
Covalent bond fission
Homolytic and heterolytic
Free radicals
Carbocations and carbanions
Stability of carbocations and free radicals, electrophiles and nucleophiles
Electronic displacement in a covalent bond
Inductive effect
Electrometric effect
Resonance and hyperconjugation
Common types of organic reactions
Substitution, addition, elimination and rearrangement
Hydrocarbons Classification
IUPAC nomenclature
General methods of preparation, properties and reactions
Sawhorse and Newman projections
Mechanism of halogenation of alkanes
Geometrical isomerism
Mechanism of electrophilic addition
Addition of hydrogen, halogens, water, hydrogen halides
Ozonolysis and polymerization
Acidic character
Addition of hydrogen, halogens, water and hydrogen halides
Aromatic hydrocarbons
Structure and aromaticity
Mechanism of electrophilic substitution
Friedel-Craft’s alkylation and acylation
Directive influence of functional group in mono-substituted benzene
Organic compounds containing halogens General methods of preparation, properties and reactions
Nature of C-X bond
Mechanisms of substitution reactions
Environmental effects of chloroform
Iodoform freons and DDT
Organic compounds containing oxygen General Methods of Preparation, Properties, Reactions and Uses
Identification of primary, secondary and tertiary alcohols
Mechanism of dehydration
Acidic nature
Electrophilic substitution reactions
Halogenation, nitration and sulphonation
Reimer-Tiemann reaction
Aldehyde and ketones
Nature of carbonyl group
Nucleophilic addition to >C=O group
Relative reactivities of aldehydes and ketones
Important reactions such as nucleophilic addition reactions
Grignard reagent
Acidity of α-hydrogen
Aldol condensation
Cannizzaro reaction
Haloform reaction
Chemical tests to distinguish between aldehydes and ketones
Carboxylic acids
Acidic strength and factors affecting it
Organic compounds containing nitrogen General methods of preparation, properties, reactions and uses.
Basic character and identification of primary, secondary and tertiary amines and their basic character
Diazonium salts
Importance in synthetic organic chemistry
Polymers General introduction and classification of polymers
General methods of polymerization, addition and condensation
Natural and synthetic rubber and vulcanization
Some important polymers with emphasis on their monomers and uses
Polythene, nylon, polyester and Bakelite
Biomolecules General introduction and importance or biomolecules
Classification of carbohydrates
Aldoses and ketoses
Monosaccharides and constituent monosaccharides of oligosacchorides
Elementary Idea of α-amino acids, peptide bond, polypeptides
Primary, secondary, tertiary and quaternary structure of proteins
Denaturation of proteins and enzymes
Classification and functions of vitamins
Nucleic acid
Chemical constitution of DNA and RNA
Biological functions of nucleic acids
Chemistry in everyday life Chemicals in medicines
Chemicals in food
Cleansing agents
Principles related to practical chemistry Detection of extra elements in organic compounds
Detection of the following functional groups
Alcoholic and phenolic
Aldehyde and ketone
Carboxyl and amino groups in organic compound
Chemistry involved in the preparation or the following
Inorganic compounds
Mohr’s salt
Potash alum
Organic compounds
P nitroacetanilide
Aniline yellow
Chemistry involved in the titrimetric exercise
Acids, bases and the use of indicators
Oxalic-acid vs
Mohr's salt vs KMNO4
Chemical principles involved in the qualitative salt analysis
Chemical principles involved in the following experiments
Enthalpy of solution of CuSO4
Enthalpy or neutralization of strong acid and strong base
Preparation of lyophilic and lyophobic sols
Kinetic study or reaction of iodide with hydrogen peroxide at room temperature

JEE Main Paper 2 Syllabus

Section Unit Topic
Drawing Awareness of person, place, building and materials Objects
Texture related to architecture and build-environment
Visualising three dimensional objects from two dimensional drawings
Visualising different sides or three dimensional objects
Analytical reasoning mental ability
Three-dimensional Perception
Understanding and appreciation of scale and proportion of objects
Building forms and elements
Colour texture, harmony and contrast
Design and drawing or geometrical or abstract shapes and patterns in pencil
Transformation of forms both 2D and 3D union
Subtraction, rotation and development or surfaces and volumes
Generation of plan
Elevations and 3D views of objects
Creating two dimensional and three dimensional compositions using given shapes and forms
Sketching of scenes and activities from memory or urbanscape
Landscape and rural life


JEE Main 2019 Preparation Tips

If a candidate dreams to pursue engineering from one of the top IITs, then cracking JEE Main 2019 becomes mandatory for him/her. NTA is conducting JEE Main 2019 twice a year. The January session has been concluded which was conducted from January 8 to 12 whereas, the April session will be conducted on April 7 (Paper 2) and April 8, 9, 10 and 12 (Paper 1).Paper I is fully computer-based, whereas Paper II is part computer-based and part pen-and-paper based. The JEE Main preparation tips 2019 will aid the candidates to draw a clearcut plan as they aspire to crack one of the most coveted engineering exams in the country. Certain tricks of the trade, if followed can help the candidates sail through the competitive exam with ease. Some of the valuable JEE Main 2019 preparation tips include management of time, the topics, and chapters which the candidates must focus depending on the weightage given, solving the sample papers and taking mock tests on a regular basis to name few. Knowing the topic wise analysis from the past year papers is another handy and useful tool while preparing for JEE Main. Read below the JEE Main 2019 preparation tips so that by following them, cracking the entrance exam become easy.
Manage Time Well- One of the important JEE Main preparation tips is time management. Candidates should draw a clear-cut timetable and must ensure that they adhere to it. Within stipulated time they should finish the syllabus. For this candidates must draw certain goals. Depending on the difficulty level of the chapter or the topic, a candidate must decide for themselves in how many days they will be able to finish it. Before proceeding towards the new topic, candidates must ensure that they finish the previous one. Revise thoroughly as it will prove fruitful for the candidate a month or fortnight before the exam.
Preparation tips for JEE Main along with Class XII board
Candidates who are appearing for the JEE Main as well as for the class XII board exams they can follow certain JEE Main 2019 preparation tips which will aid them in both the exams. One of the aspects of How to prepare for JEE Main and Class 12th Board Simultaneously,” is that firstly candidates must check the Class XII and the JEE Main syllabus. This will help them to know which are the common topics from where the questions will be asked both in the JEE Main exam as well as in the Class XII board exams. One of the key JEE Main preparation tip in this context is that the candidates must cover the syllabus of both Class XI & Class XII. At no stage, the candidate can afford to lose focus since he is preparing for two extremely important examinations. There is very little room for error since with each passing day the competition is getting tougher and tougher owing to a large number of students who are appearing in the competitive exam. At the same time, it is pertinent to perform well in the Class XII board exam since there are some institutes and universities which offer admission to candidates on the basis of the Class XII scores as well, while others take into account the class XII and the JEE Main scores as well.

Mock Tests- Taking of the mock test at a time when the actual exam takes place is also part of JEE Main preparation tips. Hence, the candidates must take the mock tests from 9:00 a.m to 12:00 p.m and from 2:00 p.m to 5:00 p.m. This will make the candidates comfortable on the day of the JEE Main entrance exam as by regularly taking the exam at that particular time, they are able to acclimatize themselves and will not face any problem on the day of the actual exam. To help the candidates practise, NTA has set up Test Practice Centres.
Revision- JEE Main 2019 preparation tips also include revising thoroughly what all the candidate has studied. This will enable the candidates to be able to recall at the time of the entrance exam whatever they have studied. Earlier also, while they are preparing, they will be get an idea what is difficult for them to recall.  It is here revision hold the key to success.
How to Improve Memory- Whatever a candidate has studied, it is imperative for him to be able to memorize them and also recall at the time of the exam. As part of the JEE Main 2019 preparation tips, a candidate must eat healthy food, remain hydrated. Drink as much as water as possible. Candidates must remember that their aim is to enhance their memory for the long term. Thus candidates can try meditation. At the same time, candidates can also try to visualize what they have studied and try to recall it by following the steps in sequence.

JEE Main 2019 Selection Process

JEE Main Paper 2 Selection Process

JEE Main 2019 Paper-II was conducted in two shifts on April 7. The normalized scores also called as NTA scores of all the candidates who appeared in first attempt will be declared on April 30. The result of JEE Main 2019 will also comprise of normalized marks obtained in Paper II of JEE Main 2019. For the January session, Paper 2ii was conducted on January 8. 

What will JEE Main Result  2019 Carry?

Candidates appeared in both the attempts- JEE Result 2019 will comprise of total normalized scores obtained by the candidate in first attempt as well as in second attempt along with All India rank and All India category rank.

Candidate appeared in one attempt- NTA scores obtained by the candidate in that particular attempt along with All India rank and All India category rank.

Preparation of Rank List of JEE Main 2019 

The raw marks obtained by candidates who have appeared in JEE Main 2019 will be normalized for the compilation of scores and to equalise the difficulty levels of both attempts. The merit list and ranks will be prepared through normalization procedure based on percentile score. 

Candidates appeared in both the attempts- the better of the two scoress will be considered while preparing the merit list of JEE Main 2019. 

In case of a tie- If two or more candidates will obtain equal total marks in JEE Main 2019, inter-se merit of such candidates will be taken into consideration.

JEE Main 2019 Exam Centers

State City
Andaman and Nicobar Islands Port Blair
Andhra Pradesh Chittoor
Odisha kanikapada
Assam Dibrugarh
Bihar Aurangabad
Chandigarh Chandigarh
Punjab Mohali
Fatehgarh Sahib
Chhattisgarh Durg
Daman and Diu Daman
Delhi Delhi
Goa Panaji
Gujarat Ahmedabad
Haryana Ambala
Himachal Pradesh Palampur
Jammu and Kashmir Baramulla
Jharkhand Dhanbad
Bokaro Steel City
Karnataka Bellary
Kerala Alappuzha
Madhya Pradesh Bhopal
Maharashtra Ahmednagar
Navi Mumbai
Manipur Imphal
Meghalaya Shillong
Mizoram Aizawl
Nagaland Dimapur
Puducherry Puducherry
Rajasthan Ajmer
Sikkim Gangtok
Tamil Nadu Chennai
Telangana Hyderabad
Tripura Agartala
Uttar Pradesh Agra
Greater Noida
Uttarakhand Dehradun
West Bengal Asansol

JEE Main 2019 Eligibility Criteria

Before proceeding towards filling the application form, do refer and meet the mentioned below JEE Main 2019 eligibility criteria prescribed by the authorities: 

Age Criteria: NTA has removed the age limit. However, candidates need to pass 10+2 or equivalent examination in 2017, 2018 or should be appearing for the same in 2019 in irrespective of their birth date.

Qualifying Examinations: Must have passed class 12 or equivalent exam in 2017 or 2018. Also, candidates appearing for class 12 board examination in 2019 will be also eligible for JEE Main 2019.

Subjects to be Qualified in Qualifying Examination: Mathematics, Physics, Chemistry/Biology/Biotechnology/Technical Vocational Subject, Language and any other subject

Qualifying Marks for Admission into IITs, NITs, IIITs and CFTIs: Must score the minimum of 75% marks or should be in the top 20 percentile of their respective boards. For candidates belonging to SC/ST category minimum scores required is  65%.  

For JEE Main Paper-II- Candidates seeking admission to the architecture course must have passed 10+2 or equivalent examination with 50% marks in Physics, Chemistry and Mathematics and also 50% marks in aggregate in the qualifying examination. No Diploma holder is eligible for the entrance exam.

Reservation Criteria



Other Backward Classes (OBC) if they belong to Non-Creamy Layer (NCL)


Scheduled Castes (SC)


Scheduled Tribes (ST)


Persons with Disability (PwD)with 40% or more disability

3% horizontal


JEE Main 2019 Result

JEE Main 2019 result has been announced in online mode by the authorities on April 29 for Paper 1 and on May 14 for Paper 2. As the Paper conducted in multi-shifts, raw marks obtained by the candidates in different sessions has been converted to normalized NTA Score. 

The authorities will prepare the final rank list of candidates the by merging the normalized, calculated NTA scores for all the sessions. The result of JEE Main 2019 for January attempt was announced on January 19. This result comprises of four NTA scores for each of the three subjects- Mathematics, Physics, Chemistry along with the total marks obtained in Paper-1 of JEE Main 2019 for the first attempt.

The same procedure will be applied to calculate the JEE Main 2019 result for second attempt.
JEE Main 2019 Merit List:

NTA have released the merit list of JEE Main 2019 in online mode. There is combined rank list of JEE Main 2019 for both the attempts which will mention the details of candidates who has qualified for JEE Advanced 2019. The merit list has prepared through normalization procedure based on the percentile score. The percentile score of a candidate will be the score obtained after using normalization method (instead of the raw marks of the candidate) which will be used for preparation of the merit lists.

The four NTA scores for each of the candidates in Paper-1 for both the first and second attempt has been merged for compilation of result and preparation of overall JEE Main 2019 rank list using the normalization formula. 

Candidates who will appear in both the attempts- their best of the two NTA scores (total) will be considered to prepare the merit list.

In case of a tie, inter-se merit of such candidates will be used to break it.

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