CSIR UGC NET Syllabus 2024 Pdf For Dec Test LS, MS, CS, PS, ES Exam
CSIR UGC NET Syllabus
Council of Scientific and Industrial Research (CSIR) is
going to conducts National Eligibility Test for Junior Research Fellowship and
Eligibility for Lectureship. Here on this page we are going to aware you about CSIR
UGC NET syllabus as well as exam paper pattern and structure. Obtain latest
Syllabus of CSIR
UGC NET for December Test. You can download CSIR UGC NET Syllabus for LS
(Life Sciences), MS (Mathematical Sciences), CS (Chemical Sciences), PS
(Physical Sciences), ES (Earth Sciences). Prepare all topics that are given in
the Examination Syllabus as per the subject for you are applying. Also to know
the Exam Pattern, you need to go via this web page.
Syllabus of CSIR UGC NET is helps you very much when you start to write in Exam. Syllabus of any exam is also tells you, how will be you exam paper pattern. This syllabus of CSIR UGC NET exam will help you very much in your exam preparation. This is big option to crack this recruitment exam for all aspirants who are going to present in this job exam. Syllabus of CSIR UGC NET exam very is compulsory for all appearing candidates so that exam syllabus gives all of you exact way for preparation of examination.
Syllabus along with Exam Pattern of CSIR UGC NET is provided below by the popular web site team for all candidates who are now on this web page. Here we are writing all the important details associated to CSIR UGC NET syllabus. Full details are also available on this web page as a link of PDF file of CSIR UGC NET exam syllabus and other navigation links to navigate you for perfect content connected to crack this written exam.
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| CSIR UGC NET Syllabus |
CSIR UGC NET JRF December Exam Syllabus
CSIR UGC NET Chemical Sciences Syllabus
->>
CSIR
UGC NET Syllabus of Inorganic Chemistry ->>
Chemical
periodicity
|
Structure
and bonding in homo- and heteronuclear molecules, including shapes of
molecules (VSEPR Theory).
|
Concepts
of acids and bases, Hard-Soft acid base concept, Non-aqueous solvents.
|
Main
group elements and their compounds: Allotropy, synthesis, structure and
bonding, industrial importance of the compounds.
|
Transition
elements and coordination compounds: structure, bonding theories, spectral
and magnetic properties, reaction mechanisms.
|
Inner
transition elements: spectral and magnetic properties, redox chemistry,
analytical applications.
|
Organometallic
compounds: synthesis, bonding and structure, and reactivity. Organometallics
in homogeneous catalysis.
|
Cages
and metal clusters.
|
Analytical
chemistry- separation, spectroscopic, electro- and thermoanalytical methods.
|
Bioinorganic
chemistry: photosystems, porphyrins, metalloenzymes, oxygen transport,
electron- transfer reactions; nitrogen fixation, metal complexes in medicine.
|
Characterisation
of inorganic compounds by IR, Raman, NMR, EPR, Mössbauer, UV-vis, NQR, MS,
electron spectroscopy and microscopic techniques.
|
Nuclear
chemistry: nuclear reactions, fission and fusion, radio-analytical techniques
and activation analysis.
|
CSIR
UGC NET Syllabus of Physical Chemistry ->>
Basic principles of quantum mechanics: Postulates; operator algebra; exactly- solvable systems: particle-in-a-box, harmonic oscillator and the hydrogen atom, including shapes of atomic orbitals; orbital and spin angular momenta; tunneling. |
Approximate
methods of quantum mechanics: Variational principle; perturbation theory up
to second order in energy; applications.
|
Atomic
structure and spectroscopy; term symbols; many-electron systems and
antisymmetry principle.
|
Chemical
bonding in diatomics; elementary concepts of MO and VB theories; Huckel
theory for conjugated π-electron systems.
|
Chemical
applications of group theory; symmetry elements; point groups; character
tables; selection rules.
|
Molecular
spectroscopy: Rotational and vibrational spectra of diatomic molecules;
electronic spectra; IR and Raman activities – selection rules; basic
principles of magnetic resonance.
|
Chemical
thermodynamics: Laws, state and path functions and their applications;
thermodynamic description of various types of processes; Maxwell’s relations;
spontaneity and equilibria; temperature and pressure dependence of
thermodynamic quantities; Le Chatelier principle; elementary description of
phase transitions; phase equilibria and phase rule; thermodynamics of ideal
and non-ideal gases, and solutions.
|
Statistical
thermodynamics: Boltzmann distribution; kinetic theory of gases; partition
functions and their relation to thermodynamic quantities – calculations for
model systems.
|
Electrochemistry:
Nernst equation, redox systems, electrochemical cells; DebyeHuckel theory;
electrolytic conductance – Kohlrausch’s law and its applications; ionic
equilibria; conductometric and potentiometric titrations.
|
Chemical
kinetics: Empirical rate laws and temperature dependence; complex reactions;
steady state approximation; determination of reaction mechanisms; collision
and transition state theories of rate constants; unimolecular reactions;
enzyme kinetics; salt effects; homogeneous catalysis; photochemical
reactions.
|
Colloids
and surfaces: Stability and properties of colloids; isotherms and surface
|
area;
heterogeneous catalysis.
|
Solid
state: Crystal structures; Bragg’s law and applications; band structure of
solids.
|
Polymer
chemistry: Molar masses; kinetics of polymerization.
|
Data
analysis: Mean and standard deviation; absolute and relative errors; linear
regression; covariance and correlation coefficient.
|
CSIR
UGC NET Syllabus of Organic Chemistry ->>
IUPAC
nomenclature of organic molecules including regio- and stereoisomers.
|
Principles
of stereochemistry: Configurational and conformational isomerism in acyclic
and cyclic compounds; stereogenicity, stereoselectivity, enantioselectivity,
diastereoselectivity and asymmetric induction.
|
Aromaticity:
Benzenoid and non-benzenoid compounds – generation and reactions.
|
Organic
reactive intermediates: Generation, stability and reactivity of carbocations,
carbanions, free radicals, carbenes, benzynes and nitrenes.
|
Organic
reaction mechanisms involving addition, elimination and substitution
reactions with electrophilic, nucleophilic or radical species. Determination
of reaction pathways.
|
Common
named reactions and rearrangements – applications in organic synthesis.
|
Organic
transformations and reagents: Functional group interconversion including
oxidations and reductions; common catalysts and reagents (organic, inorganic,
organometallic and enzymatic). Chemo, regio and stereoselective
transformations.
|
Concepts
in organic synthesis: Retrosynthesis, disconnection, synthons, linear and
convergent synthesis, umpolung of reactivity and protecting groups.
|
Asymmetric
synthesis: Chiral auxiliaries, methods of asymmetric induction – substrate,
reagent and catalyst controlled reactions; determination of enantiomeric and
diastereomeric excess; enantio-discrimination. Resolution – optical and
kinetic.
|
Pericyclic
reactions – electrocyclisation, cycloaddition, sigmatropic rearrangements and
other related concerted reactions. Principles and applications of
photochemical reactions in organic chemistry.
|
Synthesis
and reactivity of common heterocyclic compounds containing one or two
heteroatoms (O, N, S).
|
Chemistry
of natural products: Carbohydrates, proteins and peptides, fatty acids,
nucleic acids, terpenes, steroids and alkaloids. Biogenesis of terpenoids and
alkaloids.
|
Structure
determination of organic compounds by IR, UV-Vis, 1H & 13C NMR and Mass
spectroscopic techniques.
|
Interdisciplinary
Topics ->>
Chemistry
in nanoscience and technology.
|
Catalysis
and green chemistry.
|
Medicinal
chemistry.
|
Supramolecular
chemistry.
|
Environmental
chemistry
|
CSIR UGC NET Earth Sciences Syllabus
->>
Part
|
Topics
To Be Covered
|
PAPER
I (PART A)
|
General
Science
|
Quantitative
Reasoning & Analysis
|
|
Research
Aptitude
|
|
PAPER
I (PART B)
|
The
Earth and the Solar System
|
Earth
Materials, Surface Features and Processes
|
|
Interior
of the Earth, Deformation and Tectonics
|
|
Oceans
and Atmosphere
|
|
Environmental
Earth Sciences
|
|
PAPER
I (PART C)
|
Mineralogy
and Petrology
|
Structural
Geology and Geo tectonics
|
|
Paleontology
and its Applications
|
|
Sediment
logy and Stratigraphy
|
|
Marine
Geology and Pale oceanography
|
|
Economics
Geology
|
|
Precambrian
Geology and Crustal Evolution
|
|
Quaternary
Geology
|
|
Applied
Geology
|
|
Physical
Geography
|
|
Ocean
Sciences
|
CSIR UGC NET Life Sciences Syllabus
->>
Molecules and their Interaction Relevant to Biology
Cell Communication and Cell Signaling
Cellular Organization
Fundamental Processes
System Physiology – Animal
Inheritance Biology
Developmental Biology
System Physiology – Plant
Diversity of Life Forms
Applied Biology
Ecological Principles
Evolution and Behavior
Methods in Biology
CSIR UGC Net Mathematical Sciences Syllabus
->>
UNIT
– 1 ->>
Analysis
|
Elementary
set theory, finite, countable and uncountable sets, Real number system as a
complete ordered field, Archimedean property, supremum, infimum.
|
Sequences
and series, convergence, limsup, liminf.
|
Bolzano
Weierstrass theorem, Heine Borel theorem
|
Continuity,
uniform continuity, differentiability, mean value theorem.
|
Sequences
and series of functions, uniform convergence
|
Riemann
sums and Riemann integral, Improper Integrals.
|
Monotonic
functions, types of discontinuity, functions of bounded variation, Lebesgue
measure, Lebesgue integral.
|
Functions
of several variables, directional derivative, partial derivative, derivative
as a linear transformation, inverse and implicit function theorems.
|
Metric
spaces, compactness, connectedness. Normed linear Spaces. Spaces of
continuous functions as examples.
|
Linear
Algebra
|
Vector
spaces, subspaces, linear dependence, basis, dimension, algebra of linear
transformations.
|
Algebra
of matrices, rank and determinant of matrices, linear equations.
|
Eigenvalues
and eigenvectors, Cayley-Hamilton theorem.
|
Matrix
representation of linear transformations. Change of basis, canonical forms,
diagonal forms, triangular forms, Jordan forms.
|
Inner
product spaces, orthonormal basis.
|
Quadratic
forms, reduction and classification of quadratic forms
|
UNIT
– 2 ->>
Complex
Analysis
|
Algebra
of complex numbers, the complex plane, polynomials, power series,
transcendental functions such as exponential, trigonometric and hyperbolic
functions. Analytic functions, Cauchy-Riemann equations.
|
Contour
integral, Cauchy’s theorem, Cauchy’s integral formula, Liouville’s theorem,
Maximum modulus principle, Schwarz lemma, Open mapping theorem.
|
Taylor
series, Laurent series, calculus of residues.
|
Conformal
mappings, Mobius transformations.
|
Algebra
|
Permutations,
combinations, pigeon-hole principle, inclusion-exclusion principle,
derangements
|
Fundamental
theorem of arithmetic, divisibility in Z, congruences, Chinese Remainder
Theorem, Euler’s Ø- function, primitive roots.
|
Groups,
subgroups, normal subgroups, quotient groups, homomorphisms, cyclic groups,
permutation groups, Cayley’s theorem, class equations, Sylow theorems.
|
Rings,
ideals, prime and maximal ideals, quotient rings, unique factorization
domain, principal ideal domain, Euclidean domain.
|
Polynomial
rings and irreducibility criteria.
|
Fields,
finite fields, field extensions, Galois Theory.
|
Topology
|
basis,
dense sets, subspace and product topology, separation axioms, connectedness
and compactness.
|
UNIT
– 3 ->>
Ordinary
Differential Equations (ODEs)
|
Existence
and uniqueness of solutions of initial value problems for first order
ordinary differential equations, singular solutions of first order ODEs,
system of first order ODEs.
|
General
theory of homogenous and non-homogeneous linear ODEs, variation of
parameters, Sturm-Liouville boundary value problem, Green’s function.
|
Partial
Differential Equations (PDEs)
|
Lagrange
and Charpit methods for solving first order PDEs, Cauchy problem for first
order PDEs.
|
Classification
of second order PDEs, General solution of higher order PDEs with constant
coefficients, Method of separation of variables for Laplace, Heat and Wave
equations.
|
Numerical
Analysis
|
Numerical
solutions of algebraic equations, Method of iteration and Newton-Raphson
method, Rate of convergence, Solution of systems of linear algebraic
equations using Gauss elimination and Gauss-Seidel methods, Finite
differences, Lagrange, Hermite and spline interpolation, Numerical
differentiation and integration, Numerical solutions of ODEs using Picard,
Euler, modified Euler and Runge-Kutta methods.
|
Calculus
of Variations
|
Variation
of a functional, Euler-Lagrange equation, Necessary and sufficient conditions
for extrema. Variational methods for boundary value problems in ordinary and
partial differential equations.
|
Linear
Integral Equations
|
Linear
integral equation of the first and second kind of Fredholm and Volterra type,
Solutions with separable kernels. Characteristic numbers and eigenfunctions,
resolvent kernel.
|
Classical
Mechanics
|
Generalized
coordinates, Lagrange’s equations, Hamilton’s canonical equations, Hamilton’s
principle and principle of least action, Two-dimensional motion of rigid
bodies, Euler’s dynamical equations for the motion of a rigid body about an
axis, theory of small oscillations.
|
UNIT
– 4 ->>
Descriptive
statistics, exploratory data analysis
|
Sample
space, discrete probability, independent events, Bayes theorem. Random
variables and distribution functions (univariate and multivariate);
expectation and moments. Independent random variables, marginal and
conditional distributions. Characteristic functions. Probability inequalities
(Tchebyshef, Markov, Jensen). Modes of convergence, weak and strong laws of
large numbers, Central Limit theorems (i.i.d. case).
|
Markov
chains with finite and countable state space, classification of states,
limiting behaviour of n-step transition probabilities, stationary
distribution, Poisson and birth-and-death processes.
|
Standard
discrete and continuous univariate distributions. sampling distributions,
standard errors and asymptotic distributions, distribution of order
statistics and range.
|
Methods
of estimation, properties of estimators, confidence intervals. Tests of
hypotheses: most powerful and uniformly most powerful tests, likelihood ratio
tests. Analysis of discrete data and chi-square test of goodness of fit.
Large sample tests.
|
Simple
nonparametric tests for one and two sample problems, rank correlation and
test for independence. Elementary Bayesian inference.
|
Gauss-Markov
models, estimability of parameters, best linear unbiased estimators,
confidence intervals, tests for linear hypotheses. Analysis of variance and
covariance. Fixed, random and mixed effects models. Simple and multiple
linear regression. Elementary regression diagnostics. Logistic
regression.
|
Multivariate
normal distribution, Wishart distribution and their properties. Distribution
of quadratic forms. Inference for parameters, partial and multiple
correlation coefficients and related tests. Data reduction techniques:
Principle component analysis, Discriminant analysis, Cluster analysis,
Canonical correlation.
|
Simple
random sampling, stratified sampling and systematic sampling. Probability
proportional to size sampling. Ratio and regression methods.
|
Completely
randomized designs, randomized block designs and Latin-square designs.
Connectedness and orthogonality of block designs, BIBD. 2K factorial
experiments: confounding and construction.
|
Hazard
function and failure rates, censoring and life testing, series and parallel
systems.
|
Linear
programming problem, simplex methods, duality. Elementary queuing and
inventory models. Steady-state solutions of Markovian queuing models: M/M/1,
M/M/1 with limited waiting space, M/M/C, M/M/C with limited waiting space,
M/G/1.
|
CSIR UGC Net Physical Sciences Syllabus
->>
PART
|
Topics
|
PART ‘A’ CORE
|
Mathematical Methods of Physics
|
Classical Mechanics
|
|
Electromagnetic Theory
|
|
Quantum Mechanics
|
|
Thermodynamic and Statistical Physics
|
|
Electronics and Experimental Methods
|
|
PART – B (ADVANCED)
|
Mathematical Methods of Physics
|
Classical Mechanics
|
|
Electromagnetic Theory
|
|
Quantum Mechanics
|
|
Thermodynamic and Statistical Physics
|
|
Electronics and Experimental Methods
|
|
Atomic & Molecular Physics
|
|
Condensed Matter Physics
|
|
Nuclear and Particle Physics
|
CSIR UGC NET Exam Pattern ->>
CSIR NET Physical Science (PH) Exam Pattern
->>
Sr.
No.
|
Parts
of Exam
|
Total
Number of Questions
|
Number
of Questions to be Attempted
|
Total
Marks
|
Negative
Marking
|
Time
of Exam
|
1
|
Part-A
|
20
|
15
|
30
|
0.25
|
3
Hours
|
2
|
Part-B
|
25
|
20
|
70
|
0.25
|
|
3
|
Part-C
|
30
|
20
|
100
|
0.25
|
|
Total
|
200
|
|||||
CSIR NET Chemical Science (CH) Exam Pattern
->>
Sr.
No.
|
Parts
of Exam
|
Total
Number of Questions
|
Number
of Questions to be Attempted
|
Total
Marks
|
Negative
Marking
|
Time
of Exam
|
1
|
Part-A
|
20
|
15
|
30
|
0.25
|
3
Hours
|
2
|
Part-B
|
40
|
35
|
70
|
0.25
|
|
3
|
Part-C
|
60
|
25
|
100
|
0.25
|
|
Total
|
200
|
|||||
CSIR UGC for Life Science (LS) Exam Pattern
->>
Sr.
No.
|
Parts
of Exam
|
Total
Number of Questions
|
Number
of Questions to be Attempted
|
Total
Marks
|
Negative
Marking
|
Time
of Exam
|
1
|
Part-A
|
20
|
15
|
30
|
0.25
|
3
Hours
|
2
|
Part-B
|
50
|
35
|
70
|
0.25
|
|
3
|
Part-C
|
75
|
25
|
100
|
0.25
|
|
Total
|
200
|
|||||
CSIR UGC NET for Mathematical Science (MA)
Exam Pattern ->>
Sr.
No.
|
Parts
of Exam
|
Total
Number of Questions
|
Number
of Questions to be Attempted
|
Total
Marks
|
Negative
Marking
|
Time
of Exam
|
1
|
Part-A
|
20
|
15
|
30
|
0.25
|
3
Hours
|
2
|
Part-B
|
40
|
20
|
75
|
0.25
|
|
3
|
Part-C
|
60
|
20
|
95
|
0
|
|
Total
|
200
|
|||||
CSIR UGC Earth Science (ES) Exam Pattern ->>>
Sr.
No.
|
Parts
of Exam
|
Total
Number of Questions
|
Number
of Questions to be Attempted
|
Total
Marks
|
Negative
Marking
|
Time
of Exam
|
1
|
Part-A
|
20
|
15
|
30
|
0.25
|
3
Hours
|
2
|
Part-B
|
50
|
35
|
70
|
0.25
|
|
3
|
Part-C
|
80
|
25
|
100
|
0.33
|
|
Total
|
200
|
|||||
CSIR
UGC NET Study Material ->> In the below, we are introducing
CSIR UGC NET Exam Study Material and Syllabus of Physics/ Chemistry streams.
These books surely help you in creating an interest in concerned subject and
also for preparation. So candidates take a look on the above section of this
page.
CSIR
UGC NET Book Name
|
Author
name
|
For
Chemical Sciences
|
|
UGC
CSIR NET / SET (JRF & LS) Chemical Sciences {PB}
|
Arihant
|
CSIR-UGC
(NET) Inorganic chemistry Sciences
|
Shriver
& Atkins
|
CSIR-UGC
NET/JRF/SET Chemical Sciences (Through Solved Problems) 1st Edition
|
Ajay
Taneja, Hemant Kulshrestha
|
Trueman's
UGC-CSIR JRF/NET Chemical Sciences (Chemistry)
|
B.Roy,
M.Gagan
|
CSIR-UGC
NET Chemical Sciences (Part A, B & C)
|
RPH
Editorial Board
|
The
Pearson Guide to UGC-CSIR: Chemical Sciences 1st Edition
|
Sanjay
singh rawal
|
The
Complete Idiot\'s Guide to Chemistry, 3rd Edition
|
Lan
guch
|
CSIR-UGC
NET JRF and Eligibility for Lectureship in chemistry Sciences
|
Karan
dev
|
CSIR-UGC
NET/JRF/SET Chemical Sciences For Paper-I & II 1st Edition
|
Ajay
Taneja, Hemant Kulshrestha
|
For
Physical Sciences
|
|
Trueman's
UGC CSIR-NET Physical Sciences
|
Kushwaha
S
|
UGC-CSIR
NET (JRF & LS) Physical Science (Arihant)
|
W.
Malemnganba Chenglei
|
CSIR-UGC
Physical Sciences (Unique Publishers)
|
Sunil
Kumar
|
Joint
CSIR - UGC NET (Physical Science) Exam Guide
|
Mitesh
Chakraborty
|
CSIR-UGC
NET/JRF/SLET Physical Sciences (Paper I & II) (Upkar)
|
Dr.
M P Sinha
|
Joint
CSIR-UGC NET Junior Research Fellowship and Eligibility for Lectureship:
Physical Science Exam Guide (Ramesh Publishing House)
|
R.
Gupta
|
CSIR-UGC
NET/JRF/SET Physical Sciences (Upkar)
|
Anshul
Gupta, Dr. Surekha Tomar
|
UGC-CSIR
NET (JRF & LS) Physical Sciences
|
Chenglei
W M
|
CSIR-UGC
NET/JRF/SET Physical Sciences 1st Edition
|
Surekha
Tomar
|
Some
Important Instructions ->>
Examination is conducted in four subjects such as Life Sciences, Chemical Science, Mathematical Science, Earth Science and Physical Science.
Examination is conducted in four subjects such as Life Sciences, Chemical Science, Mathematical Science, Earth Science and Physical Science.
Exam is only organized for the candidates, who are
having degree of M.Sc. or MBBS or BS/MS or B-Tech.
Examination is pen-paper based, so please bring black
ball point pen at time of exam.
Exam will be organized in four Session such as Morning
Session – 9.00 am-12.00 noon and Evening Session – 2.00 pm-5.00 pm.
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