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Kerala PSC Non Vocational Teacher Chemistry Syllabus 2023, Download PDF

Kerala PSC Non Vocational Teacher Chemistry Syllabus: Kerala Public Service Commission has released the Non Vocational Teacher Chemistry Syllabus on its official website. If you have applied for the post of Chemistry Teacher (Senior) and would like to know the detailed syllabus, then your search ends right here. In this article, we will provide the detailed syllabus of the upcoming Kerala PSC Non Vocational Teacher Chemistry Exam 2023. In order to crack the exam, one needs to have a clear understanding of the syllabus, therefore read through Non Vocational Teacher Chemistry Syllabus to broaden your perspective. You can also download Kerala PSC Non Vocational Teacher Chemistry Syllabus in pdf format.

Kerala PSC Non Vocational Teacher Chemistry Syllabus 2023

Kerala PSC Non Vocational Teacher Chemistry Syllabus: പരീക്ഷയ്ക്കുള്ള തയ്യാറെടുപ്പുകൾ ആരംഭിക്കാൻ  സമയമായി. പരീക്ഷയിൽ വിജയിക്കുന്നതിന്, സിലബസിനെക്കുറിച്ച് വ്യക്തമായ ധാരണ ഉണ്ടായിരിക്കണം, അതിനാൽ കേരള PSC നോൺ വൊക്കേഷണൽ ടീച്ചർ കെമിസ്ട്രി സിലബസ് 2023 വിശദമായി വായിച്ച് മനസിലാക്കുക. നിങ്ങൾക്ക് Non Vocational Teacher Chemistry Syllabus Pdf രൂപത്തിൽ ഡൗൺലോഡ് ചെയ്യാം.

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Non Vocational Teacher Chemistry Syllabus 2023: Overview

ചുവടെ നൽകിയിരിക്കുന്ന പട്ടികയിൽ Non Vocational Teacher (Chemistry) Syllabus 2023 സംബന്ധമായ എല്ലാ പ്രധാനപ്പെട്ട വിവരങ്ങളും ലഭിക്കും.

Non Vocational Teacher (Chemistry) Syllabus
Organization Kerala Public Service Commission
Category Exam Syllabus
Department Kerala Vocational Higher Secondary Education, Higher Secondary Education
Name of the Post Non Vocational Chemistry Teacher (Senior)
Category No. 740/2021, 400/2022, 504/2022, 578/2022, 585/2022
Last Date to Submit Confirmation 11th March 2023, 15th March 2023
Mode of Examination OMR/ONLINE (Objective Multiple Choice)
Medium of Questions English
Total Marks 100
Duration of Examination 1 Hour 30 Minutes
Official Website

Kerala PSC Non Vocational Teacher Chemistry Exam Pattern

Kerala PSC Non Vocational Teacher (Chemistry) Exam Pattern
Parts Main Topics Marks
Part I CHEMISTRY 70 Marks

Kerala PSC Non Vocational Teacher Chemistry Syllabus PDF Download

Kerala PSC Non Vocational Teacher Chemistry Syllabus PDF ഡൗൺലോഡ് ചെയ്യാൻ, താഴെ നൽകിയിരിക്കുന്ന ലിങ്കിൽ ക്ലിക്ക് ചെയ്യുക.

Kerala PSC Non Vocational Teacher (Chemistry) Syllabus Download Pdf

Kerala PSC Non Vocational Teacher Chemistry Syllabus

PART I: Chemistry

Module 1  Inorganic Chemistry-1 (8 Marks)

  • Structure and bonding in molecules- Chemical periodicity- Chemistry of Hydrogen and s
    block elements- Chemistry of p block elements and d block elements- Extractive chemistry of various metals of commercial importance- Chemistry of Non-transition elements like Glass
  • Theories of acids and bases- HSAB concept- solvent effects, linear free energy relationship – the mechanism and methods of determination, super acids – Reactions in Non-aqueous solvents Protic and Aprotic solvents- Chemistry of Isopoly and Heteropoly acids; Silicon-Oxygen compounds; Zeolites; Xenon and Krypton compounds including their organic and coordination compounds
  • Synthesis, reactions, structure and bonding in Sulphur-Nitrogen compounds; Sulphur Phosphorus compounds; Phosphorous-Nitrogen compounds; Boron – Nitrogen compounds; Boron hydrides; Organoboranes; Carboranes and Metallo carboranes- STYX and WADE rules Chemistry of Lanthanides and Actinides including their extraction and applications as well as their coordination complexes and spectral behaviour
  • Theories of Coordination Chemistry in detail: Werner’s theory – Crystal field theory – Ligand field theory – Molecular orbital theory- Stereochemistry of coordination compounds- Jahn Teller distortion- Detailed study of Stability and reactions of metal complexes- Electron transfer, Substitution and Photochemical reactions and their kinetics

Module 2 Inorganic Chemistry-2 (8 Marks)

  • Construction of energy level diagrams. Correlation diagram. Method of descending symmetry. Term symbols; Correlation diagrams for dn and d10 ions in octahedral and tetrahedral fields; Orgel and Tanabe-Sugano diagrams. Symmetry and Selection rules for electronic spectra, IR and Raman Theory of Electronic, IR, NMR, ESR and Mossbaur spectra of complexes. Different aspects of magnetic properties of complexes and their determination.
  • Spectroscopic Methods in Inorganic Chemistry- Structural Elucidation of Coordination compounds containing the following molecules/ ions as ligands- NH3, H2O, CO, NO, OH– , SO2 –, CN–, SCN–, NO –, NO –, CH3COO– and X–(X=halogen). changes in ligand vibration in coordination with metal ions.- CD and ORD spectra of metal complexes- NMR of metal nuclides with emphasis on 11B, 31P and 19F NMR.- ESR spectra: Application to Cu(II) complexes and inorganic free radicals such as PH4, F – and [BH ]–. Mossbauer Spectroscopy: Application of the technique to the studies of iron and tin complexes
  • Nomenclature, synthesis, structure, properties and bonding of organo-metallic compounds – metal carbonyls and cyanides – Complexes with linear π donor ligands: Olefins, acetylenes, dienes and allyl complexes. Complexes with cyclic π donors: Cyclopentadiene, benzene complexes. Structure and bonding of ferrocene and di benzene chromium complexes – Metal –Metal bonds and metal atom clusters. Tri, Tetra and hexa nuclear clusters, Isoelectronic and isolobal relationships, Low nuclearity and High nuclearity carbonyl clusters (LNCCs and HNCCs). Cubane Clusters, Chalcogenide Clusters, Chevrel Phases. Zintl Anions and Cations – Capping Rule Catalysis by organometallic compounds and metal clusters- hydrogenation, hydroformylation and polymerization.
  • Essential and trace metal elements in biological systems, Role of Iron, Calcium, Copper, Lithium, Aluminium, Magnesium and other metals in biological systems structure and functions of biological membranes, mechanism of ion transport across membranes, sodium- potassium pump. – Role and effects: Coenzymes, Cytochromes, chlorophylls and hormones. Photosynthesis, porphyrin ring system, chlorophyll, PS I and PS II. Synthetic model for photosynthesis. Inorganic medicinal chemistry. Metals in medicine.

Module 3 Inorganic Chemistry-3 (8 Marks)

  • Nuclear reactions – structure and stability- Magic numbers – Detailed study of different nuclear models- radioactive equilibria and equations of radioactive decay and growth – Nuclear reactions: Direct nuclear reactions, heavy ion induced nuclear reactions, photonuclear reactions. Neutron captures cross-section and critical size -Applications of nuclear reactions- fission and fusion; neutron activation analysis – counting techniques.
  • Solid State Chemistry: Crystal symmetry- Point groups and space groups. Miller indices and Bravais Lattices- Close-packed structures: BCC, FCC and HCP. Voids. Coordination number.
  • X-ray diffraction by crystals: Applications and calculations using Bragg’s equation and indexing methods. Different types of Crystal defects and consequences
  • Electronic structure of solids. Different theories about conductors, insulators and semiconductors and their applications. Doping and band gap adjustments. AX, AX2, AmX2, ABX3, Spinels and Inverse spinel structures. Structure and theories of Liquids- Liquid crystals and their applications.
  • Temperature dependence of conductivity, carrier density and carrier mobility in semiconductors – Superconductivity, Photoconductivity Photovoltaic effect.
  • Colour in inorganic solids. – Dielectric properties. Dielectric materials. Ferroelectricity, pyroelectricity, piezoelectricity and ionic conductivity. Applications of Ferro, piezo and pyroelectrics.
  • Inorganic Advanced materials: Solid Electrolytes: Mixed oxides, cationic, anionic solid electrolytes, mixed ionic-electronic conductors- Solid Oxide Fuel Cells (SOFC), Rechargeable battery materials- Solid state chemistry of metal nitrides and fluorides, chalcogenides, intercalation chemistry and metal-rich phases.- Inorganic pigments, Inorganic phosphors Molecular materials and fullerides, the basic idea of molecular materials chemistry like dimensional metals, Molecular magnets and Inorganic liquid crystals.

Module 4 Organic Chemistry-1 (8 Marks)

  • Nomenclature of organic compounds – Cyclic, fused polycyclic and bridged polycyclic hydrocarbons, bridged and fused hydrocarbon systems, Spirocyclic hydrocarbon systems, Heterocyclic systems containing Nitrogen and Oxygen.
  • Molecular symmetry and chirality, axial chirality, planar chirality and helicity, relative configuration, stereochemical nomenclature, R and S, E and Z. Stereochemistry of biphenyl and allenes – Topicity and pro stereo isomerism -asymmetric synthesis. Axial stereochemistry: atropisomerism and its designation – biphenyls, allenes, spires- M and P configurations. Stereoselectivity: enantioselectivity, diastereoselectivity & stereoconvergence. Stereospecific and stereoselective synthesis. stereotopicity & stereo projections. Prochiral centre and prochiral faces
  • – Pro R and Pro S, Reface and Si face, Importance of prochirality in biological systems. Geometrical isomerism, Conformational analysis in acyclic and cyclic systems, Application of Cram’s rule, Felkin–Ahn model
  • Basic concepts of Organic reactions – Electron displacement effects –Aromaticity and antiaromaticity. Non-aromatic, homoaromatic, hetero and non–benzenoid aromatic systems. Aromaticity of annulenes, mesoionic compounds, metallocenes, cyclic carbocations and carbanions.
  • Mechanism and applications of common substitution, addition, elimination and rearrangement reactions. Stereochemistry and factors affecting Aliphatic and Aromatic SN1 and SN2 reactions. SN1′, SN2′, SNi SNAr and benzyne mechanisms – NGP and Nonclassical carbocations- Generation and reactions of Nitrenes, Carbenes and free radicals like Triphenyl methyl, TEMPO, Dibenzoyl peroxide, NBS, Tributyl Tinhydride and AIBN. – Chlorination of alkane, the addition of HX, SRN1 mechanism- Acyloin condensation, Alkyne coupling reactionsReimer-Tiemann, Vilsmeier-Haack reactions. Mitsunobu reaction and Chichibabin reactions.
  • Mechanism of Addition of H2O, X2, HX, and boranes to C=C systems- Cis and trans hydroxylation of cycloalkenes- Mechanism and applications of Michael addition and Robinson Annulation- Aldol condensation- Stork enamine, Cannizzaro, Perkin, Ritter, Stobbe, Knoevenagel, Darzen, Reformatsky and benzoin condensations- Grignard, Mannich, Thorpe reactions and Dieckmann condensation
  • Mechanism and regio and stereo aspects of E1, E2 and E1cb reactions in cyclic and acyclic systems. Hoffmann and Saytzeff elimination- Elimination Vs substitution- Mechanism and applications of Shapiro reaction, Peterson and Julia olefination, Wittig and Wittig – Horner reactions; Chugaev reaction and Cope eliminations- Sodium in liquid ammonia and Lindlars catalyst in the conversion of alkynes to alkenes.

Module 5 Organic Chemistry-2 (8 Marks)

  • Mechanism with evidence of Wagner – Meerwein, Pinacol, Demjanov, Hofmann, Curtius, Schmidt, Lossen, Beckmann, Fries, Hofmann–Martius, Dienone–phenol, Benzilic acid, Benzidine, Favorskii, Stevens and Wolf rearrangement.
  • Oxidation and Reduction reactions in organic synthesis- Reduction using boranes, hindered boranes and derivatives- NaBH4, and LiAlH4, DIBAL-H, tri-n-butyltin hydride, diimide, and aluminium alkoxide. Birch reduction, Clemmensen reduction and Wolff – Kishner reduction, Huang – Minlon modification, Rosenmund reduction – allylic and benzylic oxidation, Sharpless epoxidation, oxidation using SeO2, manganese (IV) oxide, lead tetraacetate, ozone, peracids, DDQ, silver carbonate and Cr(VI) reagents. Jones oxidation, Swern oxidation, Moffatt oxidation, Sommelet reaction. Applications of HIO4, OsO4 and mCPBA
  • Linear Free Energy Relations, The Hammett equation and its applications. Significance of sigma (σ) and rho (ρ) reactions with negative and positive ρ, low and high ρ, abnormal Hammet plot, Taft equation. Hammet plot and applications- Primary, secondary, inverse kinetic isotope effects. Salt effects and special salt effects in SN reactions
  • Retrosynthetic analysis and disconnection approach in organic synthesis- Olefin metathesis- Grubbs’ catalysts. Umpolung concept-1,3-Dithiane, benzoin condensation. Heck, Negishi, Sonagashira, Kumada, Stille coupling and Suzuki coupling
  • Use of various organic, inorganic and organometallic reagents in organic synthesisGrignard reagents, Alkyl lithiums, Lithium Dialkylcuprates, Alkynyl copper reagents, Tebbe reagents etc. Use of various protecting groups in peptide synthesis. Phase transfer catalysis and its applications.

Module 6 Organic Chemistry-3 (8 Marks)

  • Photochemical processes. Singlet and triplet states and their reactivity, Jablonski diagram, Energy transfer, sensitization and quenching. Photoreactions of carbonyl compounds, enes, dienes and arenes. Patterno-Buchi and Barton reactions, Hofmann- Löffler- Freytag reaction, photo-Fries and Di-π methane, di- π methane rearrangements. Applications of photochemistry.
  • Classification of pericyclic reactions, FMO, Correlation diagram, Mobius and Huckel theory of electrocyclic and cyclo addition reactions- Stereo and region selectivity and industrial applications of Diels Alder reaction, 1,3–Dipolar cycloaddition and Sigmatropic rearrangements
  • Chemistry of Natural Products: Terpenes, steroids, alkaloids, carbohydrates, proteins, nucleic acids, vitamins, prostaglandins, hormones and enzymes.
  • Combinatorial organic synthesis, introduction, methodology, automation, solidly supported and solution phase synthesis, the study of targeted or focused libraries and small molecule libraries. Application of Drug design and development- various steps
  • Fundamentals of polymerization – the structure-property relationship of polymers and polynucleotides- Protein sequencing by Edmans method.
  • Protein denaturation – Synthesis of stereoregular polymers. Ziegler-Natta catalyst. Polymers in organic synthesis – supports, reagents and catalysts. Biodegradable polymers biopolymers
  • Spectroscopic methods in Organic chemistry- Applications of UV, IR, H1NMR, C13NMR and Mass Spectroscopy – 2D NMR techniques – NOE, DEPT, and 2D techniques such as COSYHSQC, HMQC and HMBC. Spectral interpretation and structural elucidation. Solving structural problems on the basis of numerical and spectrum-based data. ORD and CD – theory and applications

Module 7 Physical Chemistry-1 (5 Marks)

  • Gaseous State- Maxwell’s distribution and equation- Transport phenomena- Chapman equation- Equations of state of real gases- van der Waals, Virial and other equations- Intermolecular forces and consequences.
  • Electronic Structure of Solids – Crystal Symmetry – Theories of Solids – Properties of Solids: Electrical, Magnetical and Optical – Crystal defects. Structure and Theories of LiquidsXRD of liquids- Theories and calculation of Surface tension and Viscosity – Liquid Crystals and their applications
  • Laws of Thermodynamics – Entropy and its dependence on variables of system equations of state- Euler’s relation, Gibbs and Helmholtz equations and energies. Maxwells relations- Gibbs Duhem equation- Partial Molar Quantities- Chemical potential- FugacityActivity coefficients. Thermodynamics of Solutions – Duhem Marghules equation- vant Hoff’s equations, isochore and isotherm. Thermodynamics of the irreversible process – Fundamentals and advances in the study of Phase Equilibria – Two and Three-Component Systems
  • Statistical thermodynamics – Molecular Partition Function – Quantum Statistics – Heat capacities of Solids and Gases- Relationship between partition functions and thermodynamic properties, Sackur-Tetrode equation. The principle of equipartition of energy Chemical equilibrium, Law of mass action, Transformation of the equilibrium expressions. Statistical derivation.


Module 8 Physical Chemistry-2 (5 Marks)

  • The gas-solid interphase, a type of adsorption. Monolayer and multilayer adsorption –
    Adsorption Isotherms Heat of adsorption and its determination .-Adsorption from solutions -Determination of surface area of solids-Harkins–Jura absolute method, point B method, Langmuir method and BET method- – Principles of LEED, SEM, TEM, ECSA, Photoelectron spectroscopy, scanning probe microscopy, Auger electron spectroscopy
  • Electrochemistry and Ionics: Activity and activity coefficient of electrolytes, determination of activity coefficient.- Electrodes and Electrochemical Cells – Nernst, Debye-Huckel, Omsager Equations – Over potentials: Butler-Volmer equation. Tafel and Nernst equation, Tafel plot and its significance – Electrolytic Polarization- Fuel cells: H2-O2, zinc-air and solid oxide fuel cells theory and applications of electro Analytical Methods: Potentiometry, Polarography, Coulometry, Conductometry, Cyclic Voltammetry, Stripping Voltammetry and Amperometry- Colloids – Zeta Potential – Electrokinetic Phenomena
  • Basic principles of Kinetics – Kinetics of Complex reactions – steady state approximation
    -Theories of Reaction Rates – Arrhenius equation – fast reactions and methods of study. Reactions in solution: Factors affecting reaction rates in solutions, the effect of dielectric constant and ionic strength, cage effect, Bronsted-Bjerrum equation – Kinetic effects: Primary and secondary kinetic salt effect, the influence of solvent on reaction rates, the significance of volume of activation, linear free energy relationship. Hammet equation and Taft equation.
  • Catalysis: Mechanism and theories of homogeneous and heterogeneous catalysis.
    Bimolecular surface reactions. Langmuir–Hinshelwood mechanism. Enzyme catalysis.

Module 9 Physical Chemistry-3 (5 Marks)

  • Classical mechanics and its limitations –need of quantum mechanics, de Broglie relation
    and its experimental proof, the uncertainty principle and its consequences- Formulation of Quantum Mechanics – Postulates of quantum mechanics- Application of Quantum mechanics to Exactly Solvable Model Problems- Translational motion- Quantum mechanical tunnelling- Vibrational motion- and Rotational motion –SHO, Rigid Rotor- Legendre polynomials and associated Legendre functions Approximation Methods and Chemical Bonding – Hydrogens like Atoms -Multi Electron Systems – Angular Momentum – SCF and variation method – MO diagram of homonuclear diatomic molecules Li2, Be2, B2, C2, O2 and F2 and heteronuclear diatomic molecules LiH CO, NO and HF
  • Wave functions for multi-electron systems, wave equation for multi-electron systems, symmetric and anti-symmetric wave functions, Pauli’s anti-symmetry principle, and the postulate of spin- Spin orbitals. Spin-orbit coupling. Vector atom model-Term symbols, selection rules and exp anation of spectral lines of a hydrogen atom- Applications- Chemical Bonding in Diatomic and Polyatomic Molecules
  • Computational Chemistry – Computational methods: ab initio, Semi-Empirical methods – Molecular Mechanics
  • Quantum statistics- Bose-Einstein statistics, Thermodynamic probability- Maxwell Boltzmann, Bose-Einstein and Fermi-Dirac statistics- Quantum theory of heat capacity – calculation of heat capacity of gases- Dulong and Petit’s law, Kopp’s law; limitations.- Einstein’s theory and Debye’s theory of heat capacity
  • Symmetry elements and symmetry operation. Basic principles of Group Theory – Character Tables -. Point groups and their systematic identification.- Multiplication of operations – Setting up of character table of C2v, C3v and C2h groups –Applications to MO Theory, Chemical Bonding and Spectroscopy
  • Electronic Spectroscopy of Atoms – Basic principles of Molecular spectroscopy: Microwave, Infrared, Raman, Electronic, NMR, ESR, Raman and Mossbaur

Module 10 Analytical, Environmental, Material and Supramolecular Chemistry (7 Marks)

  • Evaluation of analytical data: Accuracy and precision. Standard deviation, variance and coefficient of variation. Student’s t-test, ‘Q’ test, and ‘F’ test. Confidence limits- Errors and their minimisation- Significant figures- Correlation analysis- Calculation of R by a method of least squares
  • Theory and practice of Quantitative and Qualitative analysis- Inorganic analysis organic analysis and preparations – physical chemistry experiments (Postgraduate level)
  • Applications of TG, DTA and DSC in the study of metal complexes, ceramics and polymers.
  • Theory of chromatographic techniques -Column, TLC, Paper, GC, HPLC and ion exchange chromatographic techniques. Solvent extraction. Extraction using supercritical liquid CO2, Craig’s technique of liquid-liquid extraction
  • Twelve principles of green chemistry and issues in sustainable chemistry – Green synthesis – Application of Phase Transfer Catalysts -Green Reactions- Applications of Microwave and sonication in the synthesis of organic compounds.
  • Chemistry of Atmosphere, Hydrosphere and Lithosphere.
  • Nanostructures – ID, 2D and 3D structures – Synthesis and applications of nanomaterials. The chemistry behind Piezoelectric, magnetostrictive, halochromic, chromogenic, electrochromic, thermochromic, magnetocaloric and thermoelectric materials
  • Supramolecular chemistry – Molecular recognition: Synthetic Receptors, Cyclodextrin, Calixiranes, Cyclophanes, Crown Ethers- Drug Design and Drug Action.



  • Teaching: Nature, objectives, characteristics and basic requirements;
  • Learner’s characteristics;
  • Factors affecting teaching;
  • Methods of teaching;
  • Teaching aids;
  • Evaluation systems.


  • Research: Meaning, Characteristics and types;
  • Steps of research;
  • Methods of research;
  • Research Ethics;
  • Paper, article, workshop, seminar, conference and symposium;
  • Thesis writing: its characteristics and format.

PART III: Salient Features of the Indian Constitution and Social Welfare Legislations and Programmes

Salient Features of the Indian Constitution (5 Marks)

  • Salient features of the Constitution – Preamble- Its significance and its place in the interpretation of the Constitution.
  • Fundamental Rights – Directive Principles of State Policy – Relation between Fundamental Rights and Directive Principles – Fundamental Duties.
  • Executive – Legislature – Judiciary – Both at Union and State Level. – Other Constitutional Authorities.
  • Centre-State Relations – Legislative – Administrative and Financial.
  • Services under the Union and the States.
  • Emergency Provisions.
  • Amendment Provisions of the Constitution.

Social Welfare Legislations and Programmes (5 Marks)

  • Social Service Legislations like the Right to Information Act, Prevention of Atrocities against Women & Children, Food Security Act, Environmental Acts etc. and Social Welfare Programmes like the Employment Guarantee Programme, Organ and Blood Donation etc.


Introduction to English education – various missionary organisations and their functioning- the founding of educational institutions, factories, printing press etc.
(A) Socio-Religious reform Movements
SNDP Yogam, Nair Service Society, Yogakshema Sabha, Sadhu Jana Paripalana Sangham, Vaala Samudaya Parishkarani Sabha, Samathwa Samajam, Islam Dharma Paripalana Sangham, Prathyaksha Raksha Daiva Sabha, Sahodara Prasthanam etc.
(B) Struggles and Social Revolts
Upper cloth revolts.Channar agitation, Vaikom Sathyagraha, Guruvayoor Sathyagraha, Paliyam Sathyagraha. Kuttamkulam Sathyagraha, Temple Entry Proclamation, Temple Entry Act.Malyalee Memorial, Ezhava Memorial etc. Malabar riots, Civil Disobedience Movement, Abstention movement etc.
Malayalee, Swadeshabhimani, Vivekodayam, Mithavadi, Swaraj, Malayala Manorama, Bhashaposhini, Mathnubhoomi, Kerala Kaumudi, Samadarsi, Kesari, AI-Ameen, Prabhatham, Yukthivadi, etc

Novel, Drama, Poetry, Purogamana Sahithya Prasthanam, Nataka Prashtanam, Library movement etc
Parvathi Nenmenimangalam, Arya Pallam, A V Kuttimalu Amma, Lalitha Prabhu.Akkamma Cheriyan, Anna Chandi, Lalithambika Antharjanam and others
Thycaud Ayya Vaikundar, Sree Narayana Guru, Ayyan Kali.Chattampi Swamikal, Brahmananda Sivayogi, Vagbhadananda, Poikayil Yohannan(Kumara Guru) Dr Palpu, Palakkunnath Abraham Malpan, Mampuram Thangal, Sahodaran Ayyappan, Pandit K P Karuppan, Pampadi John Joseph, Mannathu Padmanabhan, V T Bhattathirippad, Vakkom Abdul Khadar Maulavi, Makthi Thangal, Blessed Elias Kuriakose Chaavra, Barrister G P Pillai, TK Madhavan, Moorkoth Kumaran, C. Krishnan, K P Kesava Menon, Dr.Ayyathan Gopalan, C V Kunjuraman, Kuroor Neelakantan Namboothiripad, Velukkutty Arayan, K P Vellon, P K Chathan Master, K Kelappan, P. Krishna Pillai, A K Gopalan, T R Krishnaswami Iyer, C Kesavan. Swami Ananda Theerthan, M C Joseph, Kuttippuzha Krishnapillai and others
Kodungallur Kunhikkuttan Thampuran, Kerala Varma Valiyakoyi Thampuran, Kandathil Varghese Mappila. Kumaran Asan, Vallathol Narayana Menon, Ulloor S Parameswara Iyer, G Sankara Kurup, Changampuzha Krishna Pillai, Chandu Menon, Vaikom Muhammad Basheer. Kesav Dev, Thakazhi Sivasankara Pillai, Ponkunnam Varky, S K Pottakkad and others

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Is the syllabus available in pdf format?

Yes, you can download Kerala PSC Chemistry Teacher Syllabus in pdf format.

Is there any negative marking in Non Vocational Teacher Chemistry Exam?

Yes, there is a negative marking of 0.33 marks.