CSIR NET Chemistry/Chemical Science Exam Pattern
To properly prepare for the exam, it is essential to understand the CSIR NET exam pattern for Chemical Science. Understanding the exam’s structure, the kinds of questions that will be asked, how long the exam will last, and the scoring system will be made easier for candidates if they are familiar with its format. Inorganic Chemistry, Physical Chemistry, Organic Chemistry and multidisciplinary topics are the four divisions of the Chemical Sciences syllabus.
Given below are important points concerning the exam pattern of the CSIR NET Exam for Chemical Sciences:
- There are three parts of the exam: Part A, B and C.
- Each question in parts A and B of the grading formula is worth two marks. Each question in section C, however, is worth four marks.
- There are a total of 120 multiple-choice questions (MCQs) in the Chemical Science/ Chemistry Test.
- The total duration of the exam is 3 hours.
- The negative marking for parts A and B is 0.5 marks, while the negative marking for section C is 1.
For a better understanding of the candidates, we have included the details of the Chemical Science test format in the table below.
| CSIR NET Chemical Science Exam Pattern | ||||
| Section | Part A | Part B | Part C | Total |
| Number Of Questions | 20 | 40 | 60 | 120 |
| Maximum Marks | 30 | 70 | 100 | 200 |
| Maximum Questions to Attempt | 15 | 35 | 25 | 75 |
| Marks For Each Correct Answer | 2 | 2 | 4 | – |
| Deduction for Each Wrong Answer | 0.5 | 0.5 | 1 | – |
All the candidates who are planning to take the CSIR NET exam can download their CSIR NET Admit Card in the linked article.
CSIR NET Chemical Science Syllabus
For students interested in a career in chemistry as an Associate Professor or a Junior Research Fellowship must take the CSIR NET exam. To perform well in the exam, candidates must completely prepare each topic listed in the CSIR NET Chemistry – Chemical Science Syllabus PDF. The following major subjects are covered on the syllabus & all these Subjects will be covered in detailed manner in IBTS Best CSIR NET CHEMISTRY COACHING IN CHANDIGARH:
- Organic Chemistry.
- Inorganic Chemistry.
- Physical Chemistry.
- Interdisciplinary Topics in Chemistry
Aspirants of the CSIR NET exam can download the CSIR NET Chemical Science Syllabus in the following section of the article.
Aspirants of the CSIR NET Exam can check the CSIR NET Answer Key in the linked article.
CSIR NET Chemical Science: Section Wise Syllabus
To prepare for this exam Join IBTS CSIR NET Chemical Science Coaching in Chandigarh (Online/Offline Classes):, it is essential to comprehend the importance of each section of the Chemical Science syllabus. The following analysis of the CSIR NET exam is given below for the understanding of the exam:
| Paper Sections | Questions Provided | Marks for Each Section | Negative Marking | Marks Per Question | Total time |
| Part A | 20 | 30 | 0.5 | 2 | 3 hours |
| Part B | 50 | 70 | 0.5 | 2 | |
| Part C | 75 | 100 | 1 | 4 | |
| Total Marks | 200 | ||||
Important topics for the Chemistry exam are given below:
| CSIR NET Chemical Science Syllabus: Part A (General Aptitude) | |
| Numerical Ability | Geometry |
| Proportion and Variation | |
| Time and Work | |
| HCF and LCM | |
| Permutation and Combination | |
| Compound and Simple Interest | |
| Reasoning | Puzzle |
| Series Formation | |
| Clock and Calendar | |
| Direction and Distance | |
| Coding and Decoding | |
| Ranking and Arrangement | |
| Graphical Analysis & Data Interpretation | Pie-Chart |
| Line & Bar Chart | |
| Graph | |
| Mode, Median, Mean | |
| Measures of Dispersion | |
| Table | |
| CSIR NET Chemistry Chemical Science Syllabus: Part B & Part C | |
| Physical Chemistry | |
| Data analysis | Absolute and relative errors |
| Covariance and correlation coefficient | |
| Mean and standard deviation | |
| Atomic structure | Spectroscopy |
| Antisymmetry principle | |
| Many-electron systems. | |
| Principles of quantum mechanics | Operator algebra |
| Orbital and spin angular momenta | |
| Postulate | |
| Polymer chemistry | Kinetics of polymerization |
| Molar masses. | |
| Colloids and surfaces | Isotherms and surface area |
| heterogeneous catalysis | |
| Properties of colloids. | |
| Chemical applications | Group theory |
| Symmetry elements | |
| Character tables. | |
| Solid-state | Bragg’s law and applications |
| Band structure of solids | |
| Crystal structures. | |
| 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. | |
| Electrochemistry | Includes topics such as Ionic equilibria |
| Conductometric and potentiometric titrations | |
| DebyeHuckel theory | |
| Elementary concepts of MO and VB theories | Huckel theory |
| Chemical bonding in diatomics. | |
| Chemical Kinetics | Complex reactions |
| Determination of reaction mechanisms | |
| Steady-state approximation | |
| Empirical rate laws and temperature dependence | |
| Enzyme kinetics | |
| Inorganic Chemistry | |
| Bioinorganic chemistry | Porphyrins |
| Photosystems | |
| Oxygen transport | |
| Nitrogen fixation. | |
| Metal complexes in medicine | |
| Chemical periodicity | Periodic table |
| Elements | |
| Groups | |
| Organometallic compounds | Bonding and structure |
| Bonding and structure | |
| Reactivity, and synthesis. | |
| Organometallics in homogeneous catalysis. | |
| Inner transition elements | Redox chemistry |
| Spectral and magnetic properties | |
| Analytical applications | |
| Concepts of acids and bases | Non-aqueous solvents |
| hard-soft acid-base concept. | |
| Nuclear chemistry | Radio-analytical techniques |
| Activation analysis | |
| Nuclear reactions, fission, and fusion. | |
| Organic Chemistry | |
| Asymmetric synthesis | Resolution – optical and kinetic. |
| Determination of enantiomeric and diastereomeric excess | |
| Chiral auxiliaries | |
| Asymmetric induction methods– substrate, reagent, and catalyst-controlled reactions. | |
| Common named reactions and rearrangements | Applications of organic synthesis. |
| Determination of organic compounds | IR & UV-Vis |
| Mass spectroscopic methods | |
| Concepts in organic synthesis | Disconnection |
| Synthons | |
| protecting groups | |
| linear and convergent synthesis | |
| Principles of stereochemistry | Configurational and conformational isomerism |
| Asymmetric induction | |
| Diastereoselectivity | |
| Stereogenicity | |
| Stereoselectivity | |
| Enantioselectivity | |
| Geography of India | |
| Pericyclic reactions | Cycloaddition |
| Sigmatropic rearrangements, electrocyclization | |
| Other related concerted reactions. | |
| Organic chemistry’s principles and applications of photochemical reactions. | |
| Interdisciplinary Topics | |
| CSIR NET Chemical Science Interdisciplinary Topics | Medicinal chemistry |
| Catalysis and Green Chemistry | |
| Environmental Chemistry | |
| Supramolecular Chemistry | |
| Chemistry in nanoscience and technology | |
