CSIR NET Chemical Science Syllabus 2024 and Exam Pattern

CSIR NET Chemical Science Syllabus 2024: The CSIR NET Chemical Science Syllabus for the upcoming exam in 2024 has been released through the CSIR NET Notification PDF. The CSIR NET Chemistry syllabus 2024 is divided into two main parts. CSIR NET Chemical Science exams aim to identify qualified candidates for the posts of Assistant Professors and those pursuing a Junior Research Fellowship (JRF) across India, specifically in the field of Technical and Technological Sciences. The CSIR NET comprises five distinct papers, covering Mathematical Science, Life Science, Chemical Science, Earth Science, and Physical Science.

CSIR NET Chemical Science Syllabus 2024

Candidates are planning to take the CSIR NET Exam 2024, it is important to thoroughly understand the topics in the Chemical Science Syllabus. The CSIR NET Chemical Science Syllabus 2024 is divided into smaller sections to make it easier for candidates to grasp. Having a good understanding of this extensive Chemical Science syllabus is crucial for those candidates preparing for the CSIR NET Chemical Science exam 2024. For a comprehensive understanding of the CSIR NET Chemistry syllabus, exam pattern, recommended books, and additional details are given below in this article.

CSIR NET Chemical Science Syllabus 2024 – Overview

The CSIR NET Chemical Science Syllabus 2024 is designed to assess the candidate’s comprehensive understanding of various aspects of Chemical Sciences. The syllabus is divided into two parts, Part A and Part B & C, covering different topics in General Aptitude and the core subject, respectively. Below is an overview of the CSIR NET Chemical Science Syllabus for 2024.

CSIR NET Chemical Science Syllabus for Part A:

Graphical Analysis & Data Interpretation:

• Pie-Chart: A circular statistical graphic that is divided into slices to illustrate numerical proportions.
• Line & Bar Chart: Visual representations of data using lines or bars to show trends or comparisons.
• Graph: A diagram showing the relationship between variables through points and lines.
• Mode, Median, Mean: Statistical measures that describe the distribution of data.
• Measures of Dispersion: Statistics that describe the spread of data points, including range and standard deviation.
• Table: A systematic arrangement of data in rows and columns for easy reference.

Reasoning:

• Puzzle: A problem-solving game that tests logical thinking and deduction skills.
• Series Formation: Creating a sequence based on a specific pattern or rule.
• Clock and Calendar: Problem-solving involving time and date calculations.
• Direction and Distance: Navigational problem-solving involving directions and distances.
• Coding and Decoding: Translating information between different codes or languages.
• Ranking and Arrangement: Organizing items in a specific order based on given criteria.

Numerical Ability:

• Geometry: Branch of mathematics involving the properties and relationships of points, lines, angles, and shapes.
• Proportion and Variation: Mathematical concepts involving the comparison of quantities and their relationships.
• Time and Work: Problem-solving related to the amount of time needed to complete a task.
• HCF and LCM: Highest Common Factor and Least Common Multiple, mathematical concepts used in number theory.
• Permutation and Combination: Counting and arrangement techniques in probability and statistics.
• Compound and Simple Interest: Calculating interest on borrowed or invested money.

CSIR NET Chemistry Syllabus for Part B & C

CSIR NET Chemistry Syllabus for Part B & C is outlined below, and candidates should take note of the negative marking of 25% for each incorrect answer.

Organic Chemistry:

1. Common named reactions and rearrangements: Understanding and recognizing commonly used reactions and rearrangements in organic chemistry.
2. Applications of organic synthesis: Practical applications and methods of synthesizing organic compounds.
3. Asymmetric synthesis: Techniques to selectively produce a single enantiomer in a chiral synthesis.
4. Resolution – optical and kinetic: Methods to separate racemic mixtures into individual enantiomers based on their optical or kinetic properties.
5. Determination of enantiomeric and diastereomeric excess: Techniques to quantify the amount of different stereoisomers in a mixture.
6. Chiral auxiliaries: Auxiliary compounds used to impart chirality in a reaction.
7. Asymmetric induction methods: Strategies to induce chirality in a reaction based on the substrate, reagent, or catalyst.
8. Principles of stereochemistry: Fundamental principles governing the spatial arrangement of atoms in molecules.
9. Configurational and conformational isomerism: Understanding different arrangements of atoms in a molecule.
10. Asymmetric induction, Diastereoselectivity, Stereogenicity, Stereoselectivity, Enantioselectivity: Various aspects of stereochemistry related to the specificity of reactions and the resulting stereochemical outcomes.

Geography of India:

1. Determination of organic compounds: Techniques to identify and analyze organic compounds.
2. IR & UV-Vis: Infrared and ultraviolet-visible spectroscopy methods used for compound characterization.
3. Mass spectroscopic methods: Techniques involving mass spectrometry for determining molecular weights.
4. Concepts in organic synthesis: Understanding fundamental concepts in planning organic syntheses.
5. Disconnection, Synthons, Protecting groups: Strategies and techniques in retrosynthetic analysis and synthesis planning.
6. Linear and convergent synthesis: Approaches to synthetic pathways in organic chemistry.
7. Pericyclic reactions: Reactions where a cyclic transition state is involved, including cycloaddition and sigmatropic rearrangements.
8. Organic chemistry’s principles and applications of photochemical reactions: Understanding and applications of photochemical reactions in organic chemistry.

Inorganic Chemistry:

1. Concepts of acids and bases: Understanding the theories and properties of acids and bases.
2. Non-aqueous solvents: Properties and applications of solvents other than water.
3. Hard-soft acid-base concept: A theory classifying acids and bases based on their hardness or softness.
4. Organometallic compounds: Understanding the bonding, structure, reactivity, and synthesis of compounds containing metal-carbon bonds.
5. Bioinorganic chemistry: The role of metals in biological systems, including porphyrins, photosystems, oxygen transport, nitrogen fixation, and metal complexes in medicine.
6. Nuclear chemistry: Study of nuclear reactions, radio-analytical techniques, activation analysis, nuclear reactions, fission, and fusion.
7. Inner transition elements: Characteristics and properties of elements in the f-block of the periodic table, including redox chemistry, spectral and magnetic properties, and analytical applications.
8. Chemical periodicity: Understanding the periodic table, elements, and groups.

Physical Chemistry:

1. Chemical applications: Applications of chemical principles in various contexts.
2. Group theory: Application of mathematical group theory to the analysis of molecular symmetry.
3. Symmetry elements, Character tables: Fundamental concepts in symmetry analysis.
4. Solid-state: Understanding Bragg’s law and its applications, band structure of solids, and crystal structures.
5. Polymer chemistry: Kinetics of polymerization and determination of molar masses.
6. Colloids and surfaces: Understanding isotherms and surface area, heterogeneous catalysis, and properties of colloids.
7. Atomic structure: Principles of spectroscopy, antisymmetry principle, and many-electron systems.
8. Data analysis: Techniques for analyzing and interpreting experimental data, including absolute and relative errors, covariance, correlation coefficient, mean, and standard deviation.
9. Principles of quantum mechanics: Key concepts such as operator algebra, orbital and spin angular momenta, postulates of quantum mechanics.
10. Chemical kinetics: Study of complex reactions, determination of reaction mechanisms, steady-state approximation, empirical rate laws, temperature dependence, enzyme kinetics.
11. Molecular spectroscopy: Basic principles of magnetic resonance, electronic spectra, rotational and vibrational spectra of diatomic molecules.
12. Approximate methods of quantum mechanics: Perturbation theory up to the second order in energy, variational principle, and its applications.
13. Elementary concepts of MO and VB theories: Understanding Huckel theory, chemical bonding in diatomics.
14. Electrochemistry: Topics include ionic equilibria, conductometric and potentiometric titrations, and Debye-Huckel theory.

Interdisciplinary Topics:

1. Environmental chemistry: Study of chemical processes occurring in the environment.
2. Supramolecular Chemistry: Understanding the chemistry of molecular assemblies beyond traditional molecules.
3. Chemistry in nanoscience and technology: Application of chemistry principles to nanoscale materials and technologies.
4. Medicinal chemistry: Study of the design and development of pharmaceutical agents.
5. Catalysis and green chemistry: Understanding catalytic processes and environmentally friendly approaches to chemical synthesis.

Candidates are advised to thoroughly cover these topics to prepare effectively for the CSIR NET Chemistry exam’s Part B & C.

CSIR NET Exam Pattern 2024 – Chemical Sciences

In the CSIR NET Chemical Sciences paper, candidates are required to attempt a total of 75 Multiple Choice Questions (MCQs) from Part A, B, and C. The allocation of marks for each part is as follows: questions in Part A and B carry a weightage of two marks each, while each question in Part C carries four marks. It is important to note that there is a negative marking of 25 per cent for incorrect answers. Below is a detailed breakdown of the CSIR NET Exam Pattern for Chemical Sciences:

In the CSIR NET Chemical Sciences paper, candidates are required to attempt a total of 75 Multiple Choice Questions (MCQs) from Part A, B, and C. The allocation of marks for each part is as follows: questions in Part A and B carry a weightage of two marks each, while each question in Part C carries four marks

• Part A:
  • Total Questions: 20
  • Maximum Number of Questions to Attempt: 15
  • Marks for Each Correct Answer: 2
  • Negative Marking: 0.5
• Part B:
  • Total Questions: 40
  • Maximum Number of Questions to Attempt: 35
  • Marks for Each Correct Answer: 2
  • Negative Marking: 0.5
• Part C:
  • Total Questions: 60
  • Maximum Number of Questions to Attempt: 25
  • Marks for Each Correct Answer: 4
  • Negative Marking: 1
• Total:
  • Total Questions: 120
  • Maximum Number of Questions to Attempt: 75
  • Total Marks: 200

Particulars	Part A	Part B	Part C	Total
Total Questions	20	40	60	120
No. of Questions to Attempt	15	35	25	75
Marks for Each Correct Answer	2	2	4	200
Negative Marking	0.5	0.5	1	–

CSIR NET Chemical Science Syllabus 2024 – FAQs