Kerala PSC High School Assistant (Physical Science) Malayalam Medium Syllabus 2018

High School Assistant Syllabus 2018 - (Physical Science) Malayalam Medium: Kerala Public Service Commission has published exam calendar for the month of June July and August 2018. High School Assistant (Physical Science) Malayalam Medium exam Category No.227/2016 will be held on 2nd August 2018.

High School Assistant Syllabus 2018

High School Assistant (Physical Science) Malayalam Medium main syllabus for the examination details are given below:

PART A

• Module I : Renaissance and freedom movement
• Module II: General Knowledge and current affairs
• Module III: Methodology of teaching the subject

History/conceptual development. Need and Significance, Meaning Nature and Scope of the Subject.

Correlation with other subjects and life situations.

Aims, Objectives, and Values of Teaching - Taxonomy of Educational Objectives - Old and revised

Pedagogic analysis- Need, Significance and Principles.

Planning of instruction at Secondary level- Need and importance. Psychological bases of Teaching the subject - Implications of Piaget, Bruner, Gagne, Vygotsky, Ausubel and Gardener - Individual difference, Motivation, Maxims of teaching.

Methods and Strategies of teaching the subject- Models of Teaching, Techniques of individualizing instruction.

Curriculum - Definition, Principles, Modern trends and organizational approaches, Curriculum reforms - NCF/KCF.

Instructional resources- Laboratory, Library, Club, Museum- Visual and Audio-Visual aids - Community based resources - e-resources - Text book, Work book and Hand book.

Assessment; Evaluation- Concepts, Purpose, Types, Principles, Modern techniques - CCE and Grading- Tools and techniques - Qualities of a good test - Types of test items- Evaluation of projects, Seminars and Assignments - Achievement test, Diagnostic test – Construction, Characteristics, interpretation and remediation.

Teacher - Qualities and Competencies - different roles - Personal Qualities - Essential teaching skills - Micro-teaching - Action research.

High School Assistant Syllabus 2018 - Core Subjects

Chemistry

• Eigen functions and Eigen values
• Postulates of quantum mechanics Time Schrodinger wave equation
• Application to particle in a one dimensional box
• Normalization of wave functions
• Application of Schrodinger wave equation to hydrogen atom
• Conversion of Cartesian coordinates to polar coordinates
• Radial and angular functions (mention only)
• Orbitals and concept of Quantum numbers
• Energy levels in molecules
• Born-Oppenheimer approximation.
• Rotational, vibrational,Raman, Electronic and NMR spectroscopy: Basic Principles and applications.
  Elements of symmetry of molecules Amorphous and crystalline solids , Defects in crystals - Stoichiometric and non stoichiometric defects .
• Ideal and non ideal solutions -Henry's law , Raoult's law
• Dilute solutions, Colligative properties, Abnormal molecular mass, Van’t Hoff factor.
• Solubility product and common ion effect, precipitation of cations , Principles of volumetric analysis, Theories of indicators.
• Principles and applications of Column chromatography, Paper chromatography, Thin layer chromatography, Ion exchange chromatography, - Rf values.
• Structure and applications of silicones, silicates and zeolites. Cement , Glass , Inorganic fertilizers , Rocket propellants (Brief study) Types of pollution: Air and water. Pollutants , Control of air and water pollution Atom Models.
• Planck’s quantum Theory, Photoelectric effect, de Broglie's relation, Dual nature of matter and radiation, Heisenberg's uncertainty principle.
• Atomic orbitals and Quantum numbers
• Pauling’s Exclusion principle
• Hund’s rule of maximum multiplicity
• Aufbau’s principle – Electronic configuration of atoms.
• Ionic bond – Properties, Born-Lande equation (derivation not expected), Born-Haber cycle – Fajan's rules and its applications.
• Covalent bond - Valence bond theory–VSEPR Theory - Concept of Hybridisation –-Types: sp, sp2, sp3, dsp2
  , sp3 d, d2 sp3, sp3 d2 - Explanation with simple examples.
• Molecular Orbital Theory – LCAO - Bonding and anti bonding molecular orbitals - Bond order. Theories of Metallic bonding: Free electron theory, valence bond theory and band theory (Basics concepts only).Hydrogen bond – Intra and inter molecular hydrogen bond.
• Periodic laws, – Periodic properties – Electronegativity scales (Pauling and Mullikan scales) – Effective nuclear charge – Slater rule – Diagonal relationship Representative and Transition Elements – General Characteristics, preparation and properties of simple compounds.
• Lanthanides and actinides Metals: Occurrence, Concentration of ores, Refining of metals, Extractive metallurgy of Al, Fe, Ni, Cu and Ti – Classification of steel, hardening of steel.
• Isomerism in coordination compounds - Werner’s theory -EAN rule - Valence bond theory - Crystal filed theory - Splitting of d-orbitals in octahedral, tetrahedral and square planar complexes –Applications Organometallic Compounds: Definition, Classification and Applications Radioactivity –Natural and artificial, Nuclear stability – N/P ratio –Nuclear forces –Half life period – Gieger Nuttal rule –Disintegration series – Transmutation , Nuclear fission and Nuclear fusion –Application of radioactive isotopes Postulates of kinetic theory of gases - Collision number.
• First law of thermodynamics – Joule-Thomson effect - Liquefaction of gases – Inversion temperature. Second law of thermodynamics - Concept of entropy - Entropy as criteria of spontaneity. Free energy functions - Hess’s law, Bond energies. Third law of thermodynamics.
• Law of mass action - Law of chemical equilibrium - Equilibrium constant in terms of concentration, partial pressure and mole fractions Van't Hoff’s equation - Homogeneous and heterogeneous equilibria - Le Chatelier’s Principle and its applications.
• Rate of a reaction - Factors influencing the rate of a reaction - Rate law - Order and molecularity - Rate constants for first, second, third and zero order reactions - half life period for first order reaction- Arrhenius equation - Collision theory - Transition state theory - Homogeneous and heterogenous catalysis - Enzyme catalysis Photosynthesis - Simple Photochemical reactions – Fluorescence – Phosphorescence Chemisorption and physisorption - Factors affecting adsorption - Adsorption isotherms Classification , Preparation, purification and properties of colloids, Protective colloids - Gold number - Applications of colloids.
• Phase Equilibria: Components and degrees of freedom - One component and two component systems (Simple cases only) Faraday's laws, Kohlrausch’s law - Arrhenius theory, Ostwald’s dilution law – Debye -Huckel - Onsager's equations for strong electrolytes, Galvanic cells, electrochemical series - Nernst equation Uniqueness of Carbon , Classification of organic compounds - Hybridization of carbon in organic compounds.
• Structural and Stereoisomerism, Baeyer strain theory, Conformation and configuration - Specific rotation – Chirality, Enantiomers, Diastereomers– Racemic mixture - Resolution methods Inductive effect, Mesomeric effect, Hyperconjugation and Electromeric effect - Steric effect.
• organic reactions: Substitution, Addition, Elimination and Rearrangement . Mechanisms of SN1, SN2, E1 & E2 Nomenclature of organic compounds– Preparation and properties of alkanes, alkenes, alkynes, alkyl halides, alcohols, aldehydes and ketones, carboxylic acids & their derivatives.
• Aromaticity, Huckel's rule - Structure and stability of benzene, Electrophilic substitution reactions in benzene with mechanisms Grignard reagent-Preparation and synthetic applications Classification of polymers, preparation and applications of important polymers, biodegradable polymers Biomolecules: Carbohydrates, proteins, nucleic acids, vitamins (Classifications with examples, applications/functions)

Physics

• Particle dynamics-Newton’s laws of motion, rotational dynamics, conservation laws- Linear momentum, angular momentum, energy. Simple harmonic motion, damped and forced oscillations, wave motion-progressive waves, super position of waves, Doppler effect.
• Frames of reference, special theory of relativity Elasticity-Young’s modulus, rigidity modulus, bulk modulus, surface tension, viscosity.
• Electrostatics, transient current, current electricity, electromagnetic induction, alternating current, magnetic properties of materials.

• Semiconductor physics- diodes, transistors, amplifiers, oscillators, logic gates.
• Reflection, refraction, dispersion, interference, diffraction, scattering, polarization, fibre
  optics, lasers, basic idea of spectroscopy.
• Heat and thermodynamics-conduction, convection, radiation,laws of thermodynamics, Carnot engine, entropy.
• Statistical distribution-ensemble, phase space, Maxwell-Boltzmann statistics.
• Bohr atom model, vector atom model, hydrogen spectra, nuclear structure and properties, radio activity, nuclear fission and fusion, elementary particles.
• Crystal structure, crystal symmetry, miller indices, brevais lattice, Bragg’s law, packing
  fraction, super conductivity.
• Wave nature of matter, uncertainty principle, postulates of wave mechanics, Schrodinger equation.

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