Topic Wise Weightage in CSIR NET Chemical Science
The table below summarizes the Topic-Wise Weightage of the CSIR NET Chemical Science. This table is formed by analyzing the chemistry previous year's question paper. The candidates can go through the table below and formulate their study plans accordingly.
| Topics | Number Of Questions |
| Coordination | 3-4 |
| Organometallic Compounds | 1-2 |
| Bioorganic | 1-2 |
| Ferredoxin | 1-2 |
| Hemocyanin | 1-2 |
| Spectroscopy | 4-5 |
| Term Symbols | 2-3 |
| Chemical Kinetics | 1-2 |
CSIR NET Chemistry Syllabus
CSIR NET Chemical Sciences is a single paper exam with 120 multiple-choice questions (MCQs) divided into three parts: Part A, Part B, and Part C. Part A consist of general and research aptitude questions. This section covers broad aptitude topics such as series formation, numerical ability, reasoning, etc. Part B is intended to assess students' memory skills, CSIR NET Chemistry syllabus, and questions are based on the topics covered in the syllabus. Part C questions are analytical and require logical thinking and concept clarity. In this case, a candidate is asked to utilize scientific knowledge to solve a specific problem.
CSIR NET Chemical Science Syllabus: Part B & Part C | |
Organic Chemistry | |
Common named reactions and rearrangements | Applications of organic synthesis. |
Asymmetric synthesis | Resolution – optical and kinetic. |
Determination of enantiomeric and diastereomeric excess | |
Chiral auxiliaries | |
Asymmetric induction methods– substrate, reagent, and catalyst controlled reactions. | |
Principles of stereochemistry | Configurational and conformational isomerism |
Asymmetric induction | |
Diastereoselectivity | |
Stereogenicity | |
Stereoselectivity | |
Enantioselectivity | |
Geography of India | |
Determination of organic compounds | IR & UV-Vis |
Mass spectroscopic methods | |
Concepts in organic synthesis | Disconnection |
synthons | |
protecting groups | |
linear and convergent synthesis | |
Pericyclic reactions | Cycloaddition |
Sigmatropic rearrangements, electrocyclization | |
Other related concerted reactions. | |
Organic chemistry's principles and applications of photochemichemistry'ss. | |
Inorganic Chemistry | |
Concepts of acids and bases | Non-aqueous solvents |
hard-soft acid-base concept. | |
Organometallic compounds | Bonding and structure |
Bonding and structure | |
Reactivity and synthesis | |
Organometallics in homogeneous catalysis. | |
Bioinorganic chemistry | Porphyrins |
Photosystems | |
Oxygen transport | |
Nitrogen fixation. | |
Metal complexes in medicine | |
Nuclear Chemistry | Radio-analytical techniques |
Activation analysis | |
Nuclear reactions, fission, and fusion. | |
Inner Transition Elements | Redox chemistry |
Spectral and magnetic properties | |
Analytical applications | |
Chemical Periodicity | Periodic table |
Elements | |
Groups | |
Physical Chemistry | |
Chemical applications | Group theory |
Symmetry elements | |
Character tables. | |
Solid-state | Bragg's law and applications |
Band structure of solids | |
CrBragg'structures. | |
Polymer chemistry | Kinetics of polymerization |
Molar masses. | |
Colloids and surfaces | Isotherms and surface area |
heterogeneous catalysis | |
Properties of colloids. | |
Atomic structure | Spectroscopy |
Antisymmetry principle | |
Many-electron systems. | |
Data analysis | Absolute and relative errors |
Covariance and correlation coefficient | |
Mean and standard deviation | |
Principles of quantum mechanics | Operator algebra |
Orbital and spin angular momenta | |
Postulate | |
Chemical kinetics | Complex reactions |
Determination of reaction mechanisms | |
Steady-state approximation | |
Empirical rate laws and temperature dependence | |
Enzyme kinetics | |
Molecular spectroscopy | Basic principles of magnetic resonance |
Electronic spectra | |
Rotational and vibrational spectra of diatomic molecules. | |
Approximate methods of quantum mechanics | Perturbation theory up to second order in energy |
Variational principle; and its applications. | |
Elementary concepts of MO and VB theories | Huckel theory |
Chemical bonding in diatomics. | |
Electrochemistry | Includes topics such as Ionic equilibria |
Conductometric and potentiometric titrations | |
DebyeHuckel theory | |
Interdisciplinary Topics | |
CSIR NET Chemical Science Interdisciplinary Topics | Environmental chemistry |
Supramolecular Chemistry | |
Chemistry in nanoscience and technology | |
Medicinal chemistry | |
Catalysis and green chemistry | |
Best Books for CSIR NET Chemistry
Books play an important role in preparation for the chemical science exams. Check CSIR NET Chemical Science Books given below to make the most effective Study Plan:
| Best Books for CSIR NET Chemical Science | |
| CSIR-UGC NET/JRF/SET Chemical Sciences | Dr. Hemant Kulshrestha |
| Inorganic Chemistry | Dr. T. J. Patil |
| Fundamentals of Molecular Spectroscopy | Colin N. Banwell |
| Trueman's UGC-CTrueman's NET Chemical Sciences | M Gagan |
CSIR NET Chemical Science Study Material
The table below contains the links for the CSIR NET Chemical Science Study Notes, Formula Sheet, and Important Questions for the adequate preparation of the candidates for the examination.
| Study Material | Links |
| Study Notes for Chemical Science | Click Here |
| Most Imp Ques for Chemical Science | Click Here |
| Formula Sheets for Chemical Science | Click Here |
CSIR NET Chemistry Preparation Tips
Follow the CSIR NET chemical science preparation tips suggested by the experts and last year's toppers who themselves cleared the exam from below.
Analyze the Question Paper from the Previous Year: After analyzing the CSIR NET Chemical Science previous year's question papers, you must divide the syllabus according to the weightage of topics. To get the best grades, cover tDon'tgher-weighted topicIt'srst.
Don't be a lazy person: It's simple to delay, but believe that finishing the CSIR NET Syllabus will take a long time. You must ensure you are making the most of your time and not wasting it. Even though 90 days is sufficient for adequate preparation for the CSIR NET Chemical Science Exam, you should not waste your time.
Regularly Study: Begin by sitting for a short period and then taking a break. Increase your study time progressively after a few days. This practice will guarantee that you are comfortable sitting for long periods and, as a result, will allow you to cover a large portion of the syllabus in a single sitting.
Make every effort to stick to your plan: Make sure you don't forget anything. That is to say, whichever part of the course you choose to study, ensure you complete it on time. It implies that you must stick to the timetable religiously. A casual attitude often hampers your achievement before the exam.
Highlight and Revise: When studying, you should either use a highlighter or make a separate note of the important facts. Keeping track of important notes or highlighting them will aid you in revising at the conclusion.
Continue to revise: Before beginning a new topic, review the ones you've already covered. Revision of previously discussed topics for 20-25 minutes will assist you in remembering them for a longer period.
Make Notes: Keep your notes, pathway diagrams, and other diagrams in one location. Save the videos that will be useful during the revising period. These minor details help you save time during last-minute revisions.
CSIR NET Chemical Science Exam Pattern
Before going to strategy for the chemistry study plan, the Candidate must know the CSIR NET Exam pattern for the exam. The detailed chemistry exam pattern is shared below.
| Chemical Science | Total number of Questions | Max question to attempt | Correct answer marks | Negative marking |
| Part A | 20 | 15 | 2 | 0.5 |
| Part B | 40 | 35 | 2 | 0.5 |
| Part C | 60 | 25 | 4 | 1 |
| Total | 120 | 75 | 200 | - |
CSIR NET Chemical Science Study Plan
We have covered Part A, Part B & Part C topics in this 42 days CSIR NET chemistry study plan. The following 18 days are for you to practice. You can divide 18 days also, like the first 5 days after completing unit 1 and the next 5 days after unit 2, or you can use 18 days in the last after completing the whole chemistry syllabus in 42 days. We'll leave an 18-day practice plan for you to build yourself according to your preparation. We've separated the four sections further and included all of the chemistry topics, as well we've general aptitude, to create a 90 days CSIR NET Chemical Science Study plan for you:
| CSIR NET Chemical Science Study Plan | ||
| Day 1 | Numerical System | Common name reaction & rearrangement |
| Day 2 | Simplification | Asymmetric synthesis |
| Day 3 | LCM | Organic reactive intermediates |
| Day 4 | HCF | Concepts in organic synthesis |
| Day 5 | Average | Synthesis and reactivity of common heterocyclic compounds |
| Day 6 | Quadratic Equations | Chemistry of natural products |
| Day 7 | Sequence and Series | Principles of stereochemistry |
| Day 8 | Surds and Indices | Determination of organic compounds |
| Day 9 | Logarithms | IUPAC Nomenclature |
| Day 10 | Percentage | Pericyclic reactions |
| Day 11 | Profit and Loss | Organic reaction mechanisms |
| Day 12 | Simple Interest | Organic transformations and reagents |
| Day 13 | Compound Interest | Aromaticity |
| Day 14 | Ratio | Concepts of acids and bases |
| Day 15 | Proportion and Variation | Organometallic compounds |
| Day 16 | Partnership | Characterization of inorganic compounds and elements |
| Day 17 | Allegation | Bioinorganic chemistry |
| Day 18 | Mixture | Nuclear chemistry |
| Day 19 | Time, Speed, and Distance | Inner transition elements |
| Day 20 | Time and Work | Chemical periodicity |
| Day 21 | Permutations and Combinations | Cages and metal clusters |
| Day 22 | Probability | Analytical Chemistry |
| Day 23 | Geometry | Transition elements and compounds |
| Day 24 | Mensuration | Structure and bonding in hetero and homonuclear molecules |
| Day 25 | Trigonometry | Main group elements and their compounds |
| Day 26 | Series Formation | Chemical applications |
| Day 27 | Coding-Decoding | Solid-state |
| Day 28 | Distance and Directions | Polymer chemistry |
| Day 29 | Calendar | Colloids and surfaces |
| Day 30 | Clock | Atomic structure |
| Day 31 | Ranking | Data analysis |
| Day 32 | Sitting Arrangement | Principles of quantum mechanics |
| Day 33 | Puzzles | Chemical kinetics |
| Day 34 | Mean | Molecular spectroscopy |
| Day 35 | Median | Approximate methods of quantum mechanics |
| Day 36 | Mode | Elementary concepts of MO and VB theories |
| Day 37 | Measures of Dispersion | Electrochemistry |
| Day 38 | Bar Graph | Environmental chemistry |
| Day 39 | Line Graph | Supramolecular chemistry |
| Day 40 | Pie-Chart | Chemistry in nanoscience and technology |
| Day 41 | Tabulation | Medicinal chemistry |
| Day 42 | Data Interpretation | Catalysis and green chemistry |
CSIR NET Analysis for Chemistry
Analyzing the CSIR NET Chemistry Analysis will help the candidates to acknowledge the difficulty level of each section given in the question paper, which will help them to formulate their preparation strategy.
| Part Name | Total MCQs | Total MCQs to be Attempted | Difficulty Level |
| Part A | 20 | 15 | Moderate to Difficult |
| Part B | 40 | 35 | Easy to Moderate |
| Part C | 60 | 25 | Moderate To Difficult |
| Total | 120 | 75 | Moderate |
Previous Year Question Paper for CSIR NET Chemistry
The table below contains the CSIR NET Chemistry Previous Year Question Paper for different years and sets. The candidates can go through every set of papers and analyze the questions asked in the exam. They can also check the answers if needed by downloading the PDF given in each table.
CSIR NET Chemical Science Question Paper 2019
| Subject | Question Paper | Answer Key |
| Chemical Science | Set A | Click Here |
| Set B | ||
| Set C |
CSIR NET Chemical Science Question Paper with Answers 2018
| Subject | June Session | December Session | Answer Key |
| Chemical Science | Set A | Set A | Click Here |
| Set B | Set B | ||
| Set C | Set C |
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