2019 2020 Entrance Exam Syllabus Exam Pattern IIT IIT JAM JAM Joint Admission Test Syllabus Tech

IIT JAM Syllabus 2020 Exam Scoring Diagram

Syllabus IIT JAM

IIT JAM – "2020" Examination Scheme Correction Scheme for the Widespread Admission Check – MSc2020 Necessary Subjects Full Syllabus Reduce Particulars Marks Previous Years Paperwork for Apply February 2020 Examination Grading Schema

Syllabus IIT JAM 2020

Final update 22.05.2019: – IIT JAM 2020 will take place in February 2020. Necessary subjects and packages are listed under. Necessary links are additionally obtainable …

About IIT JAM: –

Widespread admission check for M.Sc. is a assessment of all of India. It is held in several centers of the nation. The Indian Institute of Know-how in Kanpur would be the organizing institute and will assume general duty for the belief of JAM 2020. It can manage the joint admission check for the grasp's degree. (Two years), M.Sc. – Ph.D., M.Sc. – Ph.D. Double Degree, M.Sc. – M.Tech, and different post-graduate packages.

About JAM Evaluation: –

The aim of JAM is to allow candidates for the MSc in Science to be admitted to the MSc. (Two years), Joint M.Sc.-Ph.D., M.Sc.-Ph.D. Double degree, M.Sc.-M.Tech., And other postgraduate packages at IIT and Ph.D. integrated JAM ought to serve as a reference for undergraduate science schooling within the country.

IIT JAM Syllabus 2020

Biology (BL)

Basic Biology:

Taxonomy of crops and animals; professional and eukaryotic organisms; cell organelles and their perform; multicellular organization; common physiology; power transformations; inner transport techniques for crops and animals; photosynthesis; respiration; regulation of physique fluids and excretory mechanisms; reproductive biology; plant and animal hormones and their motion; nervous methods; animal conduct; plant and animal illnesses; Mendelian Genetics and Heredity; bases of developmental biology; population and group biology; evolution; primary rules of ecology; genesis and variety of organisms.

Basics of biochemistry, molecular biology, biophysics: buffers; hint parts in biological techniques; enzymes and proteins; vitamins; organic oxidation, photosynthesis; carbohydrates and lipids and their metabolism; digestion and absorption; cleansing mechanisms; nucleic acids; nucleic acid metabolism; nature of the gene and its perform; genetic code; synthesis of nucleic acids and proteins; regulation of gene expression; operate.

Structure of biomolecules; intra and intermolecular forces; thermodynamics and kinetics of biological methods; enzymatic mechanisms and kinetics; rules of X-ray diffraction; IR and UV spectroscopy; analytical and biochemical methods.

Microbiology, cell biology and immunology: Classification of microorganisms and their characterization; nutrient necessities for progress; laboratory methods in microbiology; pathogenic microorganisms and illnesses; applied microbiology; viruses and fungi; microbial genetics; cell principle; mobile structure; cell division; varieties of chromosomal construction; biochemical genetics – innate errors of metabolism; innate and adaptive immunity, antigen antibodies; rules of improvement processes.

Mathematical Sciences:

Mathematical features (algebraic, exponential, trigonometric) and their derivatives (derived and integral of straightforward features); permutations and mixtures; primary chance and volumetric calculations.

Biotechnology (BT)

The Biotechnology (BT) check document consists of Biology, Chemistry, Mathematics and Physics.

BIOLOGY (degree 10 + 2 + 3)

Basic Biology: Taxonomy; Heredity; Genetic variation; Preservation; Rules of ecology; Evolution; Trendy Biology Methods.

Biochemistry and physiology: carbohydrates; The proteins; fat; Nucleic acids; Enzymes; Vitamins; Hormones; Metabolism – Glycolysis, TCA cycle, oxidative phosphorylation; Photosynthesis. Fixation, fertilization and osmoregulation of nitrogen; Vertebrate-nervous system; Endocrine system; Vascular system; Immune system; Digestive System and Reproductive System

Primary Biotechnology: Tissue Culture; Software of enzymes; Antigen-antibody interaction; Manufacturing of antibodies; Diagnostic aids. Molecular biology: DNA; L & # 39; RNA; Replication; Transcription; Translation; The proteins; Lipids and membranes; Operon mannequin; Gene switch. Cell biology: cell cycle; Cytoskeletal parts; Mitochondria; Endoplasmic reticulum; chloroplast; Golgi equipment; Signaling. Microbiology: isolation; Cultivation; Structural features of the virus; Bacteria; The mushrooms; Protozoa; Pathogenic microorganisms.

CHEMISTRY (degree 10 + 2 + three)

Atomic structure: Bohr principle and Schrodinger wave equation; Periodicity within the properties; A chemical bond; Properties of block parts s, p, d and f; Complicated training; Coordinating compounds; Chemical equilibria; Chemical thermodynamics (first and second regulation); Chemical kinetics (zero, first, second and third order reactions); Photochemistry; Electrochemistry; Acid-based ideas; Stereochemistry of carbon compounds; Inductive, electromagnetic, conjugative and resonance effects; Chemistry of practical teams: hydrocarbons, alkyl halides, alcohols, aldehydes, ketones, carboxylic acids, amines and their derivatives; Aromatic hydrocarbons, halides, nitro and amino compounds, phenols, diazonium salts, carboxylic and sulphonic acids; Mechanism of natural reactions; Soaps and detergents; Artificial polymers; Biomolecules – amino acids, proteins, nucleic acids, lipids and carbohydrates (polysaccharides); Instrumental methods – Chromatography (TLC, HPLC), electrophoresis, UV-Vis spectroscopy, IR and NMR, mass spectrometry.

MATHEMATICS (degree 10 + 2)

Ensembles, Relationships and Features, Mathematical Induction, Logarithms, Numbers of Complexes, Linear and Quadratic Equations, Sequences and Collection, Trigonometry, Cartesian System of Rectangular Coordinates, Straight and Household, Circles , conic sections, permutations and mixtures, binomial theorem, exponential and logarithmic collection, mathematical logic, statistics, three-dimensional geometry, vectors, Matrices and determinants, Boolean algebra, chance, features, limits and continuity, differentiation, software of derivatives, particular integrals, and indefinite, differential equations.

PHYSICS (degree 10 + 2)

Bodily world and measurements, elementary and dynamic statistics, kinematics, legal guidelines of movement, work, power and energy, electrostatics, electrical current, magnetic results of current and magnetism, electromagnetic induction and alternating present, Electromagnetic waves, Optics, Double nature of matter and radiation, Atomic nucleus, solids and semiconductor units, Rules of communication, Movement of the particle system and rigid our bodies, Gravitation, Mechanics of solids and fluids , Heat and Thermodynamics, Oscillations, Waves

Chemistry (CY)

Primary mathematical ideas: Features; maxima and minima; the integrals; unusual differential equations; vectors and matrices; the determinants; elementary statistics and chance concept.

Atomic and Molecular Structure: Elementary Particles; Bohr's concept of the hydrogen atom; wave-particle duality; uncertain precept; Schrödinger wave equation; quantum numbers; orbital types; Hund's rule and Pauli's exclusion precept; digital configuration of straightforward homonuclear diatomic molecules.

Fuel Concept: The Superb and Non-ideal Fuel Situation Equation (van der Waals); Kinetic concept of gases; Maxwell-Boltzmann Distribution Act; equipartition of power.

Strong state: Crystals and crystalline techniques; X-rays; NaCl and KCl buildings; tight packing; atomic and ionic rays; radius report guidelines; reticular power; Born-Haber Cycle; isomorphism; thermal capability of solids.

Chemical thermodynamics: reversible and irreversible processes; first regulation and its software to preferrred and non-ideal gases; thermochemistry; second regulation; entropy and free power; criteria of spontaneity.

Chemical and part equilibria: regulation of mass action; Kp, Kc, Kx and Kn; effect of temperature on Okay; ionic equilibrium in options; pH and buffer solutions; hydrolysis; solubility product; phase-to-phase balancing rule and its software to one- or two-component methods; colligative properties.

Electrochemistry: conductance and its purposes; transport quantity; galvanic cells; EMC and free power; concentration cells with and with out transport; polarography; concentration cells with and without transport; Debey-Huckel-Onsagar principle on robust electrolytes. Chemical kinetics: reactions of varied sorts; Arrhenius equation; collision principle; transition state principle; chain reactions – normal and branched; enzymatic kinetics; photochemical processes; catalysis.

Adsorption: Gibbs adsorption equation; isothermal adsorption; varieties of adsorption; surface adsorbents; superficial movies on liquids.

Spectroscopy: Beer-Lambert Regulation; elementary concepts of rotational resonance spectroscopy, vibrational, electronic and magnetic.


Primary Concepts of Organic Chemistry and Stereochemistry: Digital Effects (Resonance, Inductive, Hyperconjugation) and Steric Results and Its Purposes (Acid / Base Properties); optical isomerism in compounds with and without stereocenters (allenes, biphenyls); conformation of acyclic techniques (ethane / n-propane / substituted n-butane) and cyclic techniques (mono- and di-substituted cyclohexanes).

Mechanism of organic response and synthetic purposes: Chemistry of reactive intermediates (carbocations, carbanions, free radicals), carbenes, nitrenes, benzynes, and so forth.); Hofmann-Curtius-Lossen rearrangement, Wolff rearrangement, Simmons-Smith reaction, Reimer-Tiemann reaction, Michael response, Darzens response, Wittig reaction and McMurry response; Pinacol-pinacolone, Favorskii, benzilic acid rearrangement, dienone-phenol rearrangement, Baeyer-Villeger response; oxidation and reduction reactions in organic chemistry; organometallic reagents in organic synthesis (Grignard, organolithium and organocopper); Diels-Alder reactions, electrocyclics and sigmatropes; Inter-conversion of practical groups and structural problems during chemical reactions.

Qualitative organic analysis: Identification of useful groups by chemical exams; Elemental spectroscopic methods of UV, IR and 1H spectroscopy as tools for structural elucidation.

Chemistry of natural products: chemistry of alkaloids, steroids, terpenes, carbohydrates, amino acids, peptides and nucleic acids.

Fragrant and heterocyclic chemistry: monocyclic chemistry, bicyclic and tricyclic aromatic hydrocarbons and monocyclic compounds with one hetero atom: synthesis, reactivity and properties.


Periodic Desk: Periodic Desk of Parts and Periodicity of Properties; common strategies of isolation and purification of the weather. Chemical bonding and compound varieties: Bonding varieties; VSEPR principle and types of molecules; hybridization; dipolar moment; ionic solids; construction of NaCl, CsCl, diamond and graphite; community power.

Fundamental group parts (blocks s and p): Common concepts on group relations and gradation in properties; construction of electron-deficient compounds involving parts of the primary group

Transitional metals (block d): traits of 3d parts; oxide, hydroxide and first grade metallic salts; coordination complexes: structure, isomerism, response mechanism and electron spectra; Theoretical approaches VB, MO and Crystal Subject for structure, colour and magnetic properties of metallic complexes; organometallic compounds having ligands with crosslinking capabilities corresponding to metallic carbonyls, carbenes, nitrosyls and metallocenes; homogeneous catalysis.

Bioinorganic chemistry: important parts and trace parts of life; primary reactions in organic techniques and the position of metallic ions, notably Fe2 +, Fe3 +, Cu2 + and Zn2 +; construction and function of hemoglobin and myoglobin and carbonic anhydrase.

Instrumental Analysis Methods: Primary Rules; instrumentation and easy purposes of conductometry, potentiometry and UV-vis spectrophotometry; analysis of samples of water, air and soil.

Analytical chemistry: rules of qualitative and quantitative analysis; Acid-base titrations, oxidation-reduction and complexometry utilizing EDTA; Precipitation reactions; use of indicators; use of natural reagents in inorganic analysis; radioactivity; nuclear reactions; isotope purposes.

Geology (GG)

The planet Earth: origin of the photo voltaic system and the Earth; Geosphere and composition of the Earth; Form and measurement of the earth; Earth-Moon system; Formation of continents and oceans; Courting rocks and the age of the earth; Volcanism and volcanic reliefs; Interior of the earth; Earthquakes; The magnetism and gravity of the Earth, isostasis; Parts of plate tectonics; Orogenic cycles. Geomorphology: dangerous weather and erosion; Transport and deposits because of wind, ice, rivers, sea and the ensuing landforms, landforms underneath structural management.

Structural Geology: Stratum Concept; Contour; Outcropping patterns; Maps and cross sections; Dip and strike; Classification and origin of folds, faults, joints, discords, foliations and lineations; shear zones. Stereographic and surface-level projections of planes and features; calculating the precise thickness of the beds from outcrops and drill holes.

Paleontology: primary levels in the evolution of life types; Fossils; their mode of preservation and utility; Morphological characteristics, major evolutionary developments and ages of necessary animal teams – Brachiopods, Molluscs, Trilobita, Graptolitoidea, Anthozoa, Echinodermata; Fossils of Gondwana Crops; Elementary concept of ​​verterre fossils in India

Stratigraphy: Rules of stratigraphy; Lithographic, chronological and biostratigraphic classification; distribution and classification of stratigraphic horizons from Archean India to the current.

Mineralogy: symmetry and types in widespread courses of crystals; Bodily properties of minerals; Isomorphism and polymorphism, Classification of minerals; Silicate construction; Mineralogy of widespread minerals forming rocks; Mode of look of minerals within the rocks. Transmitted polarized mild microscopy and optical properties of uniaxial and biaxial minerals

Petrology: Definition and classification of rocks; Igneous Rocks – Igneous Physique Shapes; Crystallization from magma; classification, affiliation and genesis of igneous rocks; Sedimentary rocks – classification, texture and construction; measurement and shape of sedimentary our bodies. Metamorphic rocks – classification, facies, zones and texture. Characteristic mineral assemblages of pelites in barrovian zones and mafic rocks in widespread facies.

Financial Geology: Properties of Widespread Economic Minerals; Common processes of formation of mineral deposits; Bodily characters; Mode of prevalence and distribution in India of metallic and non-metallic mineral deposits; Occurrences of coal and oil in India. Utilized geology: groundwater; Rules of Engineering Geology

Arithmetic (MA)

Sequences and Collection of Actual Numbers: Sequence of Actual Numbers, Convergence of Sequences, Boundary and Monotonic Sequences, Convergence Criteria of Sequences of Actual Numbers, Sequences of Cauchy, subsequences, Bolzano – Theorem of Weierstrass. Collection of real numbers, absolute convergence, convergence checks for constructive collection of terms – comparison check, ratio check, root check; Leibniz check for the convergence of alternate collection.

Features of a real variable: limit, continuity, intermediate worth property, differentiation, Rolle's theorem, mean value theorem, rule of the Hospital, Taylor's theorem, maxima and minima.

Features of two or three real variables: limit, continuity, partial derivatives, differentiability, maxima and minima.

Integral Calculus: Integration because the inverse means of differentiation, the definite integrals and their properties, the elemental theorem of computation. Integrals double and triple, change of order of integration, calculation of surfaces and volumes with the help of double integrals, computation of volumes with the assistance of integrals triplets.

Differential equations: first-order odd differential equations of the shape y # = f (x, y), Bernoulli's equation, actual differential equations, integration issue, orthogonal trajectories, homogeneous differential equations, variable separable equations, linear second-order differential equations with fixed coefficients, parameter variation technique, Cauchy-Euler equation.

Scalar and Vector Fields, Gradients, Divergences, Curves, Line Integrals, Floor Integrals, Green, Stokes and Gauss Theorems.

Group Concept: Teams, Subgroups, Abelian Groups, Non Abelian Teams, Cyclic Teams, Permutation Teams, Regular Subgroups, Lagrange Theorem for Finite Groups, Group Homomorphisms, and Primary Ideas. teams of quotient.

Linear algebra: Vect in finite dimension or areas, linear independence of vectors, basis, dimension, linear transformations, matrix representation, vary area, null area, null rank theorem. Rank and inverse of a matrix, determinant, options of methods of linear equations, consistency circumstances, eigenvalues ​​and eigenvectors for matrices, Cayley-Hamilton theorem.

Actual analysis: interior factors, endpoints, open units, closed units, bounded sets, related units, compact units, completeness of the R. Energy collection (of the actual variable), Taylor collection, radius and convergence interval , differentiation by term and integration of the collection of powers.

Mathematical Statistics (MS)

The mathematical statistics (MS) check consists of arithmetic (40% weighting) and statistics (60% weighting).


Sequences and collection: Convergence of sequences of real numbers, comparability, root and ratio checks for collection convergence of actual numbers.

Differential calculus: Limits, continuity and differentiability of the features of one and two variables. Rolle's theorem, imply value theorems, Taylor's theorem, indeterminate varieties, maxima and minima of features of 1 and two variables.

Integral Calculus: Elementary Theorems of Integral Calculus. Double and triple integrals, definite integral purposes, arc lengths, surfaces and volumes.

Matrices: Rank, inverse of a matrix. Methods of linear equations. Linear transformations, eigenvalues ​​and eigenvectors. Cayley-Hamilton theorem, symmetric, asymmetric and orthogonal matrices.


Chance: axiomatic definition of chance and properties, conditional chance, multiplication rule. Theorem of the full chance. Bayes' theorem and independence of occasions.

Random variables: chance mass perform, chance density perform and cumulative distribution features, distribution of a perform of a random variable. Mathematical expectation, producing perform of moments and moments. Inequality of Chebyshev.

Normal distributions: Binomial, binomial adverse, geometric, Poisson, hypergeometric, uniform, exponential, gamma, beta and regular distributions. Poisson approximations and normals of a binomial distribution

Distributions hooked up: Joint, marginal and conditional distributions. Distribution of features of random variables. Perform generating a standard second. Product Moments, Correlation, Easy Linear Regression. Independence of random variables.

Sampling distributions: Chi-square, t and F distributions and their properties.

Restrict theorems: Regulation of Low. Central limit theorem (i.i.d. with case of finite variance solely).

Estimation: lack of bias, consistency and efficiency of estimators, technique of moments and most probability technique. Sufficiency, factorization theorem. Completeness, Rao-Blackwell and Lehmann-Scheffe theorems, uniformly minimum estimators with out variance. Iroquality of Rao-Cramer. Confidence intervals for the parameters of the univariate normal distribution, the exponential distribution of the traditional normal to two parameters, and the exponential distribution to a parameter. Probability ratio checks for univariate regular distribution parameters.

Physics (PH)

Mathematical Methods:

Calculation of Single and A number of Variables, Partial Derivatives, Jacobian Differentials, Imperfect and Good, Taylor Enlargement, Fourier Collection. Vector Algebra, Vector Computation, Multiple Integrals, Divergence Theorem, Inexperienced Theorem, Stokes Theorem. First-order equations and linear second-order differential equations with constant coefficients. Matrices and Determinants, Complicated Numbers Algebra

Mechanics and Common Properties of Matter:

Newton's Legal guidelines of Movement and Purposes, Velocity and Acceleration in Cartesian, Polar and Cylindrical Coordinate Methods, Uniformly Rotated Chassis, Forces Centrifugal and Coriolis, Movement by advantage of a central drive, Kepler's legal guidelines, regulation and gravitational subject, conservative and non-conservative forces. Particle system, mass middle, CM movement equation, kinetic and linear momentum conservation, power conservation, variable mass techniques. Elastic and inelastic collisions. Inflexible physique movement, fastened axis rotations, rotation and translation, moments of inertia and inertial products, theorem of parallel and perpendicular axes. Fundamental moments and axes. Kinematics of fluids in motion, continuity equation, Euler equation, Bernoulli theorem.

Oscillations, waves and optics: Differential equation for a easy harmonic oscillator and its basic answer. Superposition of two or extra easy harmonic oscillators. Lissajous figures. Oscillators damped and compelled, resonance. Wave equation, progressive and stationary waves in a single dimension. Density of power and transmission of power within the waves. Group velocity and part velocity. Sound waves within the media. Doppler effect. Precept of Fermat. Basic principle of the formation of pictures. Thick lens, thin lens and lens mixtures. Interference of light, optical path delay. Fraunhofer diffraction. Rayleigh criterion and resolving energy. Diffraction gratings. Polarization: linear, round and elliptical polarization. Double refraction and optical rotation.

Electricity and Magnetism: Coulomb's Regulation, Gauss's Regulation. Electrical subject and potential. Electrostatic boundary circumstances, answer of the Laplace equation for easy instances. Conductors, capacitors, dielectrics, dielectric polarization, volumetric and surface expenses, electrostatic power. Biot-Savart's Regulation, Ampere's Regulation, Faraday's Regulation on Electromagnetic Induction, Self and Mutual Inductance. Alternating currents. Single DC and AC circuits with R, L and C elements. Displacement current, Maxwell equations and aircraft electromagnetic waves, Poynting theorem, reflection and refraction at a dielectric interface, transmission and reflection coefficients (normal incidence only). Lorentz Drive and motion of charged particles in electric and magnetic fields

Kinetic principle, thermodynamics:

Parts of the kinetic principle of gases. Velocity ​​distribution and equipartition of power. Particular heat of mono, di and tri-atomic gases. Best fuel, van-der-Waals fuel and equation of state. Medium free means. Laws of thermodynamics. Zéroth regulation and concept of thermal equilibrium. First regulation and its consequences. Isothermal and adiabatic processes. Reversible, irreversible and quasi-static processes. Second regulation and entropy. Carnot cycle. Thermodynamic relationships of Maxwell and its easy purposes. Thermodynamic potentials and their purposes. Part transitions and Clausius-Clapeyron equation. Ensemble ideas, Maxwell-Boltzmann, Fermi-Dirac and Bose-Einstein distributions.

Trendy Physics:

Galactic Inertial and Invariance Frames. Postulates of relativity restricted. Lorentz transformations. Contraction of length, dilation of time. Relativistic velocity addition theorem, equivalence of mass power. Black physique radiation, photoelectric effect, Compton impact, Bohr atomic mannequin, X-rays. Wave-particle duality, uncertainty principle, superposition principle, expectancy calculation, Schrödinger equation and its answer for bins one, two and three dimensions. Answer of the Schrödinger equation for the unidimensional harmonic oscillator. Reflection and transmission with excessive potential, Pauli's exclusion principle. Atomic nucleus construction, mass and binding power. Radioactivity and its purposes. Laws of radioactive decay.

Strong state physics, units and electronics: Crystalline structure, networks and basis of Bravais. Miller's clues. X-ray diffraction and Bragg's regulation; Intrinsic and extrinsic semiconductors, variation of resistivity as a perform of temperature. Fermi degree. p-n junction diode, I-V traits, Zener diode and its purposes, BJT: traits in CB, CE, CC modes. Single-stage amplifier, coupled two-stage R-C amplifiers. Simple oscillators: Barkhausen situation, sinusoidal oscillators. OPAMP and purposes: Inverter and non-inverting amplifier. Boolean algebra: Binary quantity methods; changing from one system to a different system; addition and binary subtraction. AND, OR, NO, NAND, OR Unique OR gates; Fact tables; mixture of doorways; Morgan's theorem.

Observe: Questions from earlier years are also out there. The download link is given under

Examination diagram: –

Headings Section A Part B Part C [19659105] No. questions 30 10 20
Kinds of questions Multiple selection A number of selection No choice will probably be displayed
Examination mode On-line ] On-line On-line
Complete Questions: 60
Complete variety of points 100

Score System: –

  • Part A – 10 Questions. of 1 level every and 20 ques.
  • Part B – 2 factors for each right reply
  • Section C – 10 questions. of 1 level each and 20 ques.

Destructive marking only in section A.

  • For 1 notice – 1 observe might be deducted.
  • For two marks – 2 points can be deducted.

Final words: –

Ensure you prepare yourself for the IIT JAM 2020 exam questionnaire. Candidates are welcome to be prepared. Candidates subsequently transfer as much as the subsequent degree and put together nicely for the exam.

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