GATE Chemistry (CY) Syllabus 2023: Important Topics, Exam Pattern, Books and Question Paper

Updated On - September 18th, 2024

Content Curator updated

GATE Chemistry Syllabus 2023 consists of 3 sections - Physical Chemistry, Inorganic Chemistry, Organic Chemistry. These sections incorporate all the major topics of chemistry in the graduate level. The important subjects of the syllabus, as per as per the previous year GATE Paper Analysis , include - Group theory,Chemical Equilibrium, Chemical Kinetics, Spectroscopy, Reaction mechanisms, Bio-inorganic chemistry, Organometallics, Transitional elements, and Organic Synthesis.

GATE 2023 is scheduled for February 4, 5, 11, and 12, 2023. GATE 2023 chemistry paper consists of a total of 65 Questions with 55 questions from the core subjects, whereas 10 Questions are asked from the general aptitude. Candidates will be given 3 hours to complete the paper and will be negative markings for every incorrect response. Check GATE 2023 Exam Pattern. The paper code for GATE Chemistry paper is CY and candidates who have opted for this paper have the option of undertaking either Chemical Engineering (CH) or Life Sciences (XL) as their second paper. Candidates are advised to go through the syllabus detailed below, along with the GATE 2023 Preparation Tips and important books to prepare better for the exam.

Table of Contents

GATE Chemistry Syllabus 2023
GATE Chemistry Syllabus 2023: Weightage
GATE Chemistry Exam Pattern 2023
GATE Chemistry Preparation 2023
4.1 GATE Chemistry Important Books
4.2 Previous Year GATE Chemistry Question Papers
4.3 GATE Chemistry Sample Questions
GATE 2023 Syllabus Of Other Subjects
GATE Chemistry Syllabus 2023 FAQs

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GATE CY Syllabus

GATE Chemistry Syllabus 2023

GATE Chemistry Syllabus consists of three sections- Physical Chemistry, Inorganic chemistry and Organic Chemistry. Here, we are providing the complete syllabus of Chemistry for GATE which is given below:

Section 1 - Physical Chemistry

Subject	Topics
Structure	Postulates of quantum mechanics. Operators. Time-dependent and time-independent Schrödinger equations. Born interpretation. Dirac bra-ket notation. Particle in a box: infinite and finite square wells; concept of tunnelling; particle in 1D, 2D and 3D-box; applications. Harmonic oscillator: harmonic and anharmonic potentials; hermite polynomials. Rotational motion: Angular momentum operators, Rigid rotor. Hydrogen and hydrogen-like atoms : atomic orbitals; radial distribution function. Multi-electron atoms: orbital approximation; electron spin; Pauli exclusion principle; slater determinants. Approximation Methods: Variation method and secular determinants; first order perturbation techniques. Atomic units. Molecular structure and Chemical bonding: Born-Oppenheimer approximation; Valence bond theory and linear combination of atomic orbitals – molecular orbital (LCAO-MO) theory. Hybrid orbitals. Applications of LCAO-MO theory to H2 +, H2; molecular orbital theory (MOT) of homo- and heteronuclear diatomic molecules. Hückel approximation and its application to annular π– electron systems
Group theory	Symmetry elements and operations; Point groups and character tables; Internal coordinates and vibrational modes; symmetry adapted linear combination of atomic orbitals (LCAO-MO); construction of hybrid orbitals using symmetry aspects.
Spectroscopy	Atomic spectroscopy; Russell-Saunders coupling; Term symbols and spectral details; origin of selection rules. Rotational, vibrational, electronic and Raman spectroscopy of diatomic and polyatomic molecules. Line broadening. Einstein’s coefficients. Relationship of transition moment integral with molar extinction coefficient and oscillator strength. Basic principles of nuclear magnetic resonance: gyromagnetic ratio; chemical shift, nuclear coupling.
Equilibrium	Laws of thermodynamics. Standard states. Thermochemistry. Thermodynamic functions and their relationships: Gibbs-Helmholtz and Maxwell relations, Gibbs-Duhem equation, van’t Hoff equation. Criteria of spontaneity and equilibrium. Absolute entropy. Partial molar quantities. Thermodynamics of mixing. Chemical potential. Fugacity, activity and activity coefficients. Ideal and Non-ideal solutions, Raoult’s Law and Henry’s Law, Chemical equilibria. Dependence of equilibrium constant on temperature and pressure. Ionic mobility and conductivity. Debye-Hückel limiting law. Debye-Hückel-Onsager equation. Standard electrode potentials and electrochemical cells. Nernst Equation and its application, relationship between Electrode potential and thermodynamic quantities, Potentiometric and conductometric titrations. Phase rule. Clausius- Clapeyron equation. Phase diagram of one component systems: CO2, H2O, S; two component systems: liquid- vapour, liquid-liquid and solid-liquid systems. Fractional distillation. Azeotropes and eutectics. Statistical thermodynamics: microcanonical, canonical and grand canonical ensembles, Boltzmann distribution, partition functions and thermodynamic properties.
Kinetics	Elementary, parallel, opposing and consecutive reactions. Steady state approximation. Mechanisms of complex reactions. Unimolecular reactions. Potential energy surfaces and classical trajectories, Concept of Saddle points, Transition state theory: Eyring equation, thermodynamic aspects. Kinetics of polymerization. Catalysis concepts and enzyme catalysis. Kinetic isotope effects. Fast reaction kinetics: relaxation and flow methods. Diffusion controlled reactions. Kinetics of photochemical and photophysical processes.
Surfaces and Interfaces	Physisorption and chemisorption. Langmuir, Freundlich and Brunauer–Emmett– Teller (BET) isotherms. Surface catalysis: Langmuir-Hinshelwood mechanism. Surface tension, viscosity. Self- assembly. Physical chemistry of colloids, micelles and macromolecules.

Section 2 - Inorganic Chemistry

Subject	Topics
Main Group Elements:	Hydrides, halides, oxides, oxoacids, nitrides, sulfides – shapes and reactivity. Structure and bonding of boranes, carboranes, silicones, silicates, boron nitride, borazines and phosphazenes. Allotropes of carbon, phosphorus and sulphur. Industrial synthesis of compounds of main group elements. Chemistry of noble gases, pseudohalogens, and interhalogen compounds. Acid-base concepts and principles (Lewis, Brønsted, HSAB and acid-base catalysis).
Transition Elements	Coordination chemistry – structure and isomerism, theories of bonding (VBT, CFT, and MOT). Energy level diagrams in various crystal fields, CFSE, applications of CFT, Jahn-Teller distortion. Electronic spectra of transition metal complexes: spectroscopic term symbols, selection rules, Orgel and Tanabe- Sugano diagrams, nephelauxetic effect and Racah parameter, charge-transfer spectra. Magnetic properties of transition metal complexes. Ray-Dutt and Bailar twists,
Reaction mechanisms	kinetic and thermodynamic stability, substitution and redox reactions. Metal-metal multiple bond. Lanthanides and Actinides: Recovery. Periodic properties, spectra and magnetic properties.
Organometallics	18-Electron rule; metal-alkyl, metal-carbonyl, metal-olefin and metal- carbene complexes and metallocenes. Fluxionality in organometallic complexes. Types of organometallic reactions. Homogeneous catalysis - Hydrogenation, hydroformylation, acetic acid synthesis, metathesis and olefin oxidation. Heterogeneous catalysis - Fischer- Tropsch reaction, Ziegler-Natta polymerization.
Radioactivity:	Detection of radioactivity, Decay processes, half-life of radioactive elements, fission and fusion processes. Bioinorganic Chemistry: Ion (Na+ and K+) transport, oxygen binding, transport and utilization, electron transfer reactions, nitrogen fixation, metalloenzymes containing magnesium, molybdenum, iron, cobalt, copper and zinc.
Solids	Crystal systems and lattices, Miller planes, crystal packing, crystal defects, Bragg’s law, ionic crystals, structures of AX, AX2, ABX3 type compounds, spinels, band theory, metals and semiconductors. Instrumental Methods of Analysis: UV-visible, fluorescence and FTIR spectrophotometry, NMR and ESR spectroscopy, mass spectrometry, atomic absorption spectroscopy, Mössbauer spectroscopy (Fe and Sn) and X- ray crystallography. Chromatography including GC and HPLC. Electroanalytical methods- polarography, cyclic voltammetry, ion-selective electrodes. Thermoanalytical methods.

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Section 3 - Organic Chemistry

Subject	Topics
Stereochemistry	Chirality and symmetry of organic molecules with or without chiral centres and determination of their absolute configurations. Relative stereochemistry in compounds having more than one stereogenic centre. Homotopic, enantiotopic and diastereotopic atoms, groups and faces. Stereoselective and stereospecific synthesis. Conformational analysis of acyclic and cyclic compounds. Geometrical isomerism and optical isomerism. Configurational and conformational effects, atropisomerism, and neighbouring group participation on reactivity and selectivity/specificity.
Reaction Mechanisms:	Basic mechanistic concepts – kinetic versus thermodynamic control, Hammond’s postulate and Curtin-Hammett principle. Methods of determining reaction mechanisms through kinetics, identification of products, intermediates and isotopic labelling. Linear free-energy relationship – Hammett and Taft equations. Nucleophilic and electrophilic substitution reactions (both aromatic and aliphatic). Additional reactions to carbon-carbon and carbon-heteroatom (N and O) multiple bonds. Elimination reactions. Reactive intermediates – carbocations, carbanions, carbenes, nitrenes, arynes and free radicals. Molecular rearrangements.
Organic Synthesis:	Synthesis, reactions, mechanisms and selectivity involving the following classes of compounds – alkenes, alkynes, arenes, alcohols, phenols, aldehydes, ketones, carboxylic acids, esters, nitriles, halides, nitro compounds, amines and amides. Uses of Mg, Li, Cu, B, Zn, P, S, Sn and Si based reagents in organic synthesis. Carbon-carbon bond formation through coupling reactions - Heck, Suzuki, Stille, Sonogoshira, Negishi, Kumada, Hiyama, Tsuji-Trost, olefin metathesis and McMurry. Concepts of multistep synthesis – retrosynthetic analysis, strategic disconnections, synthons and synthetic equivalents. Atom economy and Green Chemistry, Umpolung reactivity – formyl and acyl anion equivalents. Selectivity in organic synthesis – chemo-, regio- and stereoselectivity. Protection and deprotection of functional groups. Concepts of asymmetric synthesis – resolution (including enzymatic), desymmetrization and use of chiral auxiliaries, organocatalysis. Carbon-carbon and carbon-heteroatom bond forming reactions through enolates (including boron enolates), enamines and silyl enol ethers. Stereoselective addition to C=O groups (Cram, Prelog and Felkin-Anh models).
Pericyclic Reactions and Photochemistry:	Electrocyclic, cycloaddition and sigmatropic reactions. Orbital correlations - FMO and PMO treatments, Woodward-Hoffmann rule. Photochemistry of alkenes, arenes and carbonyl compounds. Photooxidation and photoreduction. Di-π-methane rearrangement, Barton-McCombie reaction, Norrish type-I and II cleavage reaction.
Heterocyclic Compounds:	Structure, preparation, properties and reactions of furan, pyrrole, thiophene, pyridine, indole, quinoline and isoquinoline.
Biomolecules	Structure, properties and reactions of mono- and di-saccharides, physicochemical properties of amino acids, chemical synthesis of peptides, chemical structure determination of peptides and proteins, structural features of proteins, nucleic acids, lipids, steroids, terpenoids, carotenoids, and alkaloids.
Experimental techniques in organic chemistry	Optical rotation (polarimetry). Applications of various chromatographic techniques such as thin-layer, column, HPLC and GC. Applications of UV-visible, IR, NMR and Mass spectrometry in the structural determination of organic molecules.

GATE Chemistry Syllabus 2023: Weightage of Important Topics

GATE CY Weightage

By the Previous Year GATE Chemistry Paper Analysis, the general trend in the GATE Chemistry exam in terms of the weightage of the different subjects is given below.

Section	Approximate Number of Questions asked
Chemical Equilibrium	4
Chemical Kinetics	5
Group Theory	3
Transitional Elements	3
Stereochemistry	4
Organics Synthesis	5
Biomolecules	2
Experimentation techniques in Organic Chemistry	2
Reaction Mechanisms	5
Spectroscopy	2
Main Group Elements	4
Organometallics	3
Structure	3
Spectroscopy	2
Solids	2
Radioactivity	2
Heterocyclic Compounds:	2
Pericyclic Reactions and Photochemistry	2

GATE CY Exam Pattern

GATE Chemistry Exam Pattern 2023

GATE Chemistry Exam Pattern consists of 65 questions which the applicants have to attend in the duration of 3 hours. The exam includes 2 types of Questions- MCQs & NAT.Read More aboutGATE Exam Pattern

Section	Distribution of Marks	Total Marks	Types of questions
General Ability	5 questions of 1 mark each 5 questions of 2 marks each	15 marks	MCQs
Chemistry	25 questions of 1 mark each 30 questions of 2 marks each	85 marks	MCQs and NATs

GATE Chemsitry Marking Scheme 2023

Total marks: 100 marks
Negative marking: Only for the MCQs

Type of question	Negative marking for wrong answer
MCQs	1/3 for 1 mark questions 2/3 for 2 marks questions
NATs	No negative marking

Must Read: How to calculate GATE Score?

GATE CY Preparation

GATE Chemistry Preparation 2023

The GATE Chemistry syllabus is a bit lengthy, so here are a few reference books, previous year papers and sample questions to help a student. Students can also refer to GATE Preparation Tips to learn more about GATE Preparation Strategy.

GATE Chemistry Important Books

As a popular saying goes, books are indeed a student’s best friend. Books are the most efficient tool to prepare for any exam. Especially the reference books, which offer all the insights and subject materials related to the subject. Candidates can check the section-wise important book for GATE 2023 Chemistry paper in the lists given below:

Book	Author/ Publication
Concept Check in Organic Chemistry	Avinash More
Success Guide to Inorganic Chemistry	Tauheed Nadeem
Success Guide to organic Chemistry	Tauheed Nadeem
Chapterwise Solved Papers Chemistry GATE 2023	Sanjay Saxena & Preeti Gupta
GATE 2023: Chemistry Year-wise Previous Solved Papers 2000-2019	GKP
GATE Chemistry Solved Papers	Career Endeavour Publications
Wiley’s Gate Chemistry Chapter Wise Solved papers	Wiley Editorial

Check

Best Books for GATE Preparation	GATE 2023 Practice Papers

GATE CY Question Paper

Previous Year GATE Chemistry Question Papers

GATE conducting authorities release the Question paper for the year and the respective GATE Answer Key for all 27 papers after all the exams for the year have been concluded.Going through previous years GATE question paper gives an insight into the important topics from GATE Syllabus. Given below are the links to download the previous year GATE Question Paper from 2021, 2020, 2019, 2018.

Year	GATE Question paper	Answer Key
2021	Download	Download
2020	Download	Download
2019	Download	Download
2018	Download	Download

GATE Chemistry Sample Questions

Sample Questions from GATE Chemistry

Sample Question 1: An ideal gas occupies an unknown volume V liters (L) at a pressure of 12 atm. The gas is expanded isothermally against a constant external pressure of 2 atm so that its final volume becomes 3 L. The work involved for this expansion process is ________cal. (Round off to two decimal places)
Sample Question 2:

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GATE Top M Tech College Cutoff	GATE FAQs

GATE Syllabus 2023 of Other Subjects

Paper	Code	Paper	Code
Aerospace Engineering	AE	Mechanical Engineering	ME
Agricultural Engineering	AG	Metallurgical Engineering	MT
Civil Engineering	CE	Mining Engineering	MN
Engineering Sciences	XE	Production and Industrial Engineering	PI
Electronics and Communication	EC	Textile Engineering and Fibre Science	TF
Electrical Engineering	EE	Biotechnology	BT
Petroleum Engineering	PE	Chemical Engineering

Frequently Asked Questions

GATE Chemistry Syllabus 2023 FAQs

Ques: What will be the major topics in GATE Chemistry syllabus 2023?

Ans: The major topics in GATE 2023 Chemistry syllabus 2023 are mentioned below:

Chemical Equilibrium
Chemical Kinetics
Group Theory
Transitional Elements
Stereochemistry
Organics Synthesis
Biomolecules
Experimentation techniques in Organic Chemistry
Reaction Mechanisms
Spectroscopy
Main Group Elements
Organometallics
Structure
Spectroscopy
Solids
Radioactivity
Heterocyclic Compounds:
Pericyclic Reactions and Photochemistry

Ques: What will be the marking scheme of GATE Chemistry 2023?

Ans: The marking scheme of GATE Chemistry 2023 is mentioned below:

Section	Distribution of Marks	Total Marks
General Ability	5 questions of 1 mark each 5 questions of 2 marks each	15 marks
Physics	25 questions of 1 mark each 30 questions of 2 marks each	85 marks

Ques: I am planning to appear for the chemistry paper, does the GATE Chemistry syllabus 2023 include the engineering mathematics subject?

Ans: No. The Engineering mathematics is not part of GATE Chemistry syllabus 2023. So there is no need to prepare for the same. But the general aptitude section , which is common for all the 25 disciplines of GATE, does include some basic mathematics questions.

Ques: Any Good Reference books for GATE Chemistry syllabus 2023?

Ans: For better preparations you can also refer to some of the books provided below:

Book	Author/ Publication
Chapterwise Solved Papers Chemistry GATE 2023	Sanjay Saxena & Preeti Gupta
GATE 2023: Chemistry Year-wise Previous Solved Papers 2000-2019	GKP

Apart from these books one must refer to the notes, study material, etc of his graduation level too because the GATE Chemistry syllabus 2023 will be based on graduation level.

Ques. What is the paper code of GATE Chemistry?

Ans. The paper code of GATE Chemistry is CY. Candidates who have opted for this paper have the option of undertaking either Chemical Engineering (CH) or Life Sciences (XL) as their second paper.

Ques. What subjects from Organic Chemistry are covered by the GATE Chemistry syllabus 2023?

Ans. The subjects in the organic chemistry covered in the GATE Chemistry syllabus 2023 are:

Stereochemistry
Reaction Mechanisms:
Organic Synthesis:
Pericyclic Reactions and Photochemistry:
Heterocyclic Compounds:
Biomolecules
Experimental techniques in organic chemistry

Ques. Are Numerical Type Questions a part of the GATE Chemistry syllabus 2023?

Ans. Yes. There will be NAT or numerical answer type questions in GATE Chemistry syllabus 2023. In contrast with the MCQ Questions, these questions have no negative marking criteria. Read More aboutGATE Exam Pattern

Ques. What subjects from Inorganic Chemistry are covered by the GATE Chemistry syllabus 2023?

Ans. The subjects in the Inorganic chemistry covered in the GATE Chemistry syllabus 2023 are:

Main Group Elements:
Transition Elements
Reaction mechanisms
Organometallics
Radioactivity:
Solids

Ques. Will I get any negative marks for answering a question with a wrong answer in GATE Chemistry 2023?

Ans. Yes, a candidate will get negative marks for every wrong answer, depending on the type of question. 1 Mark Question would have ⅓ Mark penalty for every wrong answer, while 2 Mark Questions would have ⅔ Mark penalty for every wrong answer. NAT Questions do not have any penalty

Ques. How many questions are asked from each section of GATE GATE Chemistry syllabus 2023?

Ans. In total about 55 Questions are asked from the GATE Chemistry syllabus 2023 while 10 Questions are related to the General Aptitude. There is no set criteria for a specified number of questions from a section thus the questions asked from each section vary from year to year. However, from the analysis of past trends, at least 10 Questions are asked from each question in the GATE Chemistry paper

GATE 2025 : 20 Answered QuestionsView All

• Top Answer By Pragya Tripathi on 20-Apr-2023

Ans. An MS from IIT Kanpur is considered to be a highly respected and prestigious degree. The MS program at IIT Kanpur is reputed for its focus on excellent research and its strong focus on practical, hands-on learning. As an MS student, you get to work with some of the most experienced and respected scholars and researchers in their fields, which gives an insight into the latest industry developments and trends. Additionally, not being located near metropolitan areas, IIT Kanpur gives a peaceful learning environment and students donâ€™t spend much time partying or clubbing. Although it is a 2-year program, with the right determination one can complete it in 18 months also. If you are true to your passion you can also complete a Ph.D. under an experienced thesis advisor and wonâ€™t have to go to a foreign university for a Ph.D. Overall, an MS from IIT Kanpur is a valuable and highly esteemed program that offers many opportunities in terms of career and professional advancement. Although it is challenging, the learning experience is worth the effort. Read more

1 Answer

• Top Answer By Prachi Sinha on 09-May-2022

Ans. Andhra University M.Tech admission is done in two ways, i.e. through GATE and through AP PGECET. To get admission, you need to have a valid GATE score or you need to score a valid rank in AP PGECET. Soon, Andhra University will release the notification for AP PGECET. Here are the tentative dates. Event Tentative dates Notification release date Second week of July 2022 Application form available Second week of July 2022 Admit card release date Second week of September 2022 Exam date Third week of September 2022 Result Second week of October 2022 Andhra University will release the application form online. Visit the official website of the institute regularly to get the updated information. Read more

2 Answers

• Top Answer By Aditi Gupta on 01-Apr-2022

Ans. Many GATE toppers leave PSU and join NITIE, instead of IITs because it offers better placements. Usually, students with good scores join ONGC, NTPC, BHEL, IOCL, and others. Despite the good salary, PSU jobs can get monotonous after a few years. So, the top rankers start looking for better career options. If they wish to do an MBA, they need to prepare for CAT. Some do prepare for CAT, but many join NITIE as it is an easier option. NITIE takes admission through GATE and the GATE score is valid for 3 years. So, they can easily get admission based on their GATE score. Also, the institute has a great placement record. During the NITIE Mumbai placement in 2022, the average CTC offered was INR 25.41 LPA. The video below will convince you further to join NITIE Mumbai Overall, its the excellent opportunities offered by NITIE that makes mant GATE toppers leave PSU and join NITIE Read more

2 Answers

• Top Answer By Subham Patra on 15-Jul-2022

Ans. Here are some strategies that can help you prepare for GATE and ESE simultaneously. Compare the syllabus of GATE and ESE. Go through the previous years' questions of both. The technical portion of both examinations overlaps a lot. The major difference is question patterns and styles. Different types of questions are asked on the same topics. GATE tests aptitude for solving technical questions. While ESE puts more emphasis on technical details. Figure out which subjects contribute more to which examinations. If you have less time, start with GATE preparation. The topics can be covered easily and in less time. Once you are through GATE preparation, you can solve ESE questions without much difficulty. Focus on GATE and ESE preparations only. First, go through the syllabus thoroughly. Once you are done with the syllabus, go through your notes and solve previous years' questions. Solve test series, and review hard questions. Analyze the tests you give and work on your mistakes. Read more

2 Answers

• Top Answer By Dishi Mishra on 15-Jul-2022

Ans. GATE consists mostly of numerical questions. It tests the aptitude for solving questions in less time. BITS HD papers have 10-15 numerical questions usually. The numerical questions aren’t on the same level as GATE and are just formula-based problems. Usually, around 80-90% of BITS HD questions are theory oriented. You need to have a good grasp of your engineering subjects to score well in BITS HD. The questions can come from anywhere in the syllabus. BITS HD usually consists - 15 Mathematics questions (difficulty usually higher than GATE) 15 general English questions 70 Engineering discipline questions Also, note that BITS take admission based on GATE scores as well. Read more

2 Answers

• Top Answer By Lorina on 27-Feb-2023

Ans. The required GATE rank depends upon various parameters like The engineering branch Company (PSU) Number of vacancies for the stream People who are graduating in 3-4 years are lucky as both IOCL and ONGC are planning to recruit in bulk because of massive retirements in both the companies. The mechanical and chemical branches are expected to have the most vacancies. Candidates will be called in a 1:5 ratio and thus, interviews will be the major determining factor of your selection. If you are unable to showcase your knowledge and talent during the interview, even a single-digit rank cannot guarantee your admission. A minimum of 40% marks are required to pass the interview. So if you get a call for the interview, donâ€™t let your rank discourage you or even make you overconfident. Read more

3 Answers

• Top Answer By Ankita Sinha on 07-Oct-2020

Ans. Sikkim Manipal University has been ranked at 17 for Private Engineering by India Today in 2020. The largest department within the institution is the CSE department and it has also won the best department in SMIT multiple times. Admissions: Class 12th with mandatory subjects in Physics, Maths, Chemistry/computer science/biology is the prerequisite for admission to CSE at Sikkim Manipal. SMIT online, MET, JEE Mains is the examinations accepted for BTech admission. The total intake for CSE is 180 and the course fee is 12.20 lakhs. Curriculum: The University offers a well-structured and detailed curriculum with exposure to major areas of computer science like Big data analytics, robotics, cloud computing, ethical hacking, and more. The course structure focuses on providing students with knowledge of the core subjects of computer science in order to strengthen their foundation and make them industry-ready. Faculty: The university has 33 highly experienced and qualified faculties for CS. The faculty members also conduct seminars and workshops with esteemed institutions like ISRO, IIT, and TIFR. Infrastructure: The University offers a great infrastructure for the CSE department as it receives funding from two highly esteemed agencies, AICTE and ISRO. There are nine state-of-the-art practical labs like the Networking lab, digital circuit and microprocessor labs, GIS and remote sensing lab, advanced programming lab, and more. It also has a huge library with over 2500 journals and books dedicated to the CSE branch. It has been updated with modern facilities and infrastructure all across the campus in order to provide students with the best experience. Placements: AGS Infotech, Amazon, Britannia, Cipla, Capgemini are some of the major recruiters at the institute. Placement Rate within CSE 92.5% Lowest CTC 3.5 LPA Average CTC 5 LPA Highest CTC 18 LPA Sikkim Manipal University is a great option for students who want to pursue a BTech degree program in the CSE department. Read more

1 Answer

• Top Answer By Harshita Sinha on 15-Jul-2022

Ans. It depends on your career goals. GATE offers more options for engineering students. It is an all-around examination. You can go for MTech, PSUs, MS, and FRM. If you want more options, GATE will be better for you. If you want to do an MBA, after graduation, CAT will be the better option. Almost all top B-Schools accept CAT scores for MBA. Read more

2 Answers

• Top Answer By Ashish Gupta on 15-Apr-2023

Ans. IIT Roorkee admission 2023 hasnâ€™t been wrapped up yet, hence its GATE cutoff too hasnâ€™t been released as of now. M.Tech admission process of IIT Roorkee is conducted on the basis of the GATE cutoff, and all the candidates applying for admission into the M.Tech course under the non-sponsored category will be required to clear the cutoff for admission. The cutoff scores for M.Tech admission at IIT Roorkee for 2022 and 2021 have not been disclosed by the admission authority. Letâ€™s consider GATE 2020 cutoff for a slight idea. Category GATE 2020 Cutoff General 77.1 EWS 79.1 OBC 72.32 SC 58.62 ST 61.33 Read more

1 Answer

• Top Answer By Radhika Srivastava on 11-Apr-2023

Ans. First of all, admission to the IIT Roorkee MTech program is not given on the basis of GATE rank. The final shortlisting is done on the basis of Normalized GATE marks were used which is calculated by IIT Roorkee as follows: Normalized GATE marks = Normalized marks out of 100 or Marks*100\Maximum marks awarded in the paper that year For example if a candidate has scored 64 marks and the maximum marks given that year are 92, the Normalized GATE marks are 64*100/92=69.57. The table below comprises the expected GATE 2023 cut-off for IIT Roorkee based on the previous year's cut-off trends. MTech Course Cutoff Alternate Hydro Energy Centre 760-839 Architecture & Planning 650-844 Biotechnology 570-577 Civil Engineering 656-780 Chemical Engineering 650-657 Computer Science & Engineering 840-844 Disaster Mitigation & Management 700-710 Electronics and Communication Engineering 736-750 Electrical Engineering 760-779 Mechanical and Industrial Engineering 748-785 Read more

1 Answer

*The article might have information for the previous academic years, which will be updated soon subject to the notification issued by the University/College

Table of Contents

GATE Chemistry (CY) Syllabus 2023: Important Topics, Exam Pattern, Books and Question Paper