Syllabus of CTET 2011 for Class VI – VIII Teacher

Child Development and Pedagogy

(a) Child Development (Elementary School Child)

Concept of development and its relationship with learning.  Principles of the development of children.  Influence of Heredity & Environment.  Socialization processes: Social world & children (Teacher, Parents, Peers).  Piaget, Kohlberg and Vygotsky: constructs and critical perspectives.  Concepts of child-centered and progressive education.  Critical perspective of the construct of Intelligence.  Multi Dimensional Intelligence.  Language & Though.  Gender as a social construct; gender roles, gender-bias and educational practice.  Individual differences among learners, understanding differences based on diversity of language, caste, gender, community, religion etc.  Distinction between Assessment for learning and assessment of learning; School-Based Assessment, Continuous & Comprehensive Evaluation: perspective and practice.  Formulating appropriate questions for assessing readiness levels of learners; for enhancing learning and critical thinking in the classroom and for assessing learner achievement.

(b) Concept of Inclusive Education and Understanding Children with Special Needs

Addressing learners from diverse backgrounds including disadvantaged and deprived.  Addressing the needs of children with learning difficulties, ‘impairment’ etc.  Addressing the Talented, Creative, Specially abled Learners

(c) Learning and Pedagogy

How children think and learn; how and why children ‘fail’ to achieve success in school performance.  Basic processes of teaching and learning; children’s strategies of learning; learning as a social activity; social context of learning.  Child as a problem solver and a ‘scientific investigator’.  Alternative conceptions of learning in children; understanding children’s ‘errors’ as significant steps in the learning process.  Cognition & Emotions.  Motivation and learning.  Factors contributing to learning-personal & environmental

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Syllabus of CTET 2011 for Class I-V Teacher

Child Development and Pedagogy

(a) Child Development (Primary Child)

Concept of development and its relationship with learning, Principles of the development of children, Influence of Heredity & Environment, Socialization processes: Social world & children (Teacher, Parents, Peers), Piaget, Kohlberg and Vygotsky: constructs and critical perspectives, concepts of child-centered and progressive education, Critical perspective of the construct of Intelligence, Multi Dimensional Intelligence, Language & thought, Gender as a social construct; gender roles, gender-bias and educational practice, Individual differences among learners, understanding differences based on diversity of language, caste, gender, community, religion, etc, Distinction between Assessment for learning and assessment of learning; School-Based Assessment, Continuous & Comprehensive Evaluation: perspective and practice, Formulating appropriate questions for assessing readiness levels of learners; for enhancing learning and critical thinking in the classroom and for assessing leaner achievement.

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Syllabus for JNU M.Tech Biotechnology

Section I: Technology/Engineering Stream

Part A: (Basic Engineering and Technology Pharmacology)

Basic Engineering and Technology: Basic concepts/principles in mechanical engineering, electrical and electronics engineering

Chemical Engineering: Computer applications in chemical engineering- chemical process industries instrumentation methods of chemical analysis- thermodynamics- stoichiometry- fluid dynamics, mechanical operations- heat and mass transfer operations- chemical kinetics/reaction engineering- process instrumentation dynamics and control- process equipment design

Principles of Biochemical Engineering: Enzyme catalysis (Michalis Menton Kinetics) and reactor design. Material and energy balances of fermentation processes. Kinetics of microbial growth and product formation (Monad model-Leudekins-Piert model). Nature of fermentation processes. Transport phenomena in biochemical reactors- Mass transfer in immobilized enzyme systems and oxygen transfer in submerged fermentation process, examples of primary metabolites, secondary metabolites and enzymes

Bioreactor operation and design, reactor sterilization. Batch, fed-batch and continuous culture process and cell recycle processes. Modeling of non-ideal behavior in bioreactors. Novel bioreactors, air-lift reactors, membrane bioreactors and fluidized bed reactors. Filtration and membrane based separations, centrifugation, extraction, absorption and chromatography

Pharmacology (Physiology, Pharmacology and Biochemistry): Basic physiology and biochemistry pertaining to all the systems in the body. Classification, mode of action, pharmacological effects, side effects, toxicity and posology of drugs acting on the CNS, ANS, CVS, gastrointerstinal system, endocrine system. Principles of chemotherapy, chemotherapeutic agents, anticancer drugs, vitamins and minerals

Industrial Pharmacy: Pharmaceutical processing – mixing, milling, drying, powder compression, clarification, filtration, Rheology, sterilization, sterility testing, disinfection, Pharmaceutical dosage forms: Formulation, manufacture and evaluation of solid, semisolid, liquid, aerosols and parentrals. Chemistry of natural products, SAR and Chemistry of analogesics, anticancer, CVS drugs, drugs acting on the CNS, GIT, chemotherapeutic agents, vitamins, hormones classification, identification, extraction and isolation of active principles of commonly used medicinal plants. Immunological preparations, genetic engineering, fermentation. Biopharmaceutics, Pharmacokinetics-drug absorption, distribution, metabolism and elimination- general principles. Basic concepts of analysis of drugs

Section I

Technology/Engineering stream

Part-B (Physics, Chemistry and Mathematics)

Mathematics

Calculus – Differential Equation- Complex numbers- Complex integration- Power series- Three Dimensional Geometry-Algebra

Physics

Mechanics: Kinematics- Newton’s laws – work and mechanical energy- dynamics of rotary motion- fundamentals of special theory of relativity- gravitation- motion in non-inertial frames

Thermodynamics: Ideal gases- Ist law of thermodynamics- Kinetic theory of gases- 2nd law of thermodynamics -real gases

Electricity and Magnetism: Electrostatics- Coulomb’s law- electric field potential- capacitance- dielectrics in an electric field- energy of an electric field- direct current- magnetic field of direct current- electromagnetic induction

Waves and optics: Free hormonic oscillators- elastic waves- electromagnetic waves- interference, diffraction, scattering and polarisation of light- thermal radiation

Modern Physics: Structure of matter and basic solid state physics – elementary nuclear physics- elementary quantum mechanics- structure of atom

Chemistry

Inorganic chemistry: Electronic structure of atoms, periodic table and periodic properties. General characteristics, structure and reactions of non-transition elements and transition elements. Coordination compounds, structure, crystal field and ligand field theories, spectral and magnetic properties

Organic chemistry: Synthesis, reactions and mechanisms of alkenes, alkynes, arenes, alcohols, phenols, aldehydes, ketones, carboxylic acids and their derivatives, halides, nitro compounds and amines. Structure and properties of biomolecules, carbohydrates, amino acids and proteins

Physical chemistry: Chemical equilibrium, first law, thermochemistry, second law and entropy, free energy, properties of dilute solutions, chemical kinetics, rates of reactions and factors affecting rates of reactions. Spectroscopy, principles of UV- visible and IR spectroscopy

Section I: Technology/Engineering Stream

Part C: (Fundamentals of Life Sciences and Informatics)

Life sciences: Organization of unicellular organisms, invertebrates and vertebrates. Ultra structure of plant and animal cells. Nucleic acids, protein synthesis, Mendalian genetics. Morphology of angiosperms. Biotechnology, Physiology

Information Technology: Introduction to www.Networking: Basics-modem-hub-switch-commands to transfer files- remote login. Elements of languages used on the Internet JAVA- Perl. Elements of databases- Relational databases

Section II: Science stream

Part A: Life sciences

Biochemistry: Cell structure and function; protein synthesis; genetic code; DNA and RNA; carbohydrate, protein and lipid metabolism, clinical biochemistry; in born erros of metabolism; hormones and their function

Molecular biology and recombinant DNA Technology: Properties of nucleic acids, chromosomes, DNA replication, damage and repair, gene manipulation, cloning vectors, gene libraries, screening of libraries, gene cloning, applications of recombinant DNA technology, PCR, RFLP, Western, Northern and Southern blotting

Immunology: Cells of the immune system, lymphoid tissues, complement, antibodies, hybridoma technology, applications of monoclonal antibodies, antigen recognition, processing and presentation, cell mediated immunity, cytokines, hypersensitivity, vaccine technology, auto-immunity, transplantation, immune responses to various infections, Immunotechnology

Section II

Science Stream

Part B: (Physics and Chemistry)

Physics

Mechanics: Kinematics- Newton’s laws- work and mechanical energy- dynamics of rotary motion- fundamentals of special theory of relativity- gravitation- motion in non-inertial frames

Thermodynamics: Ideal gases – 1st law of thermodynamics- Kinetic theory of gases- 2nd law of thermodynamics- real gases

Electricity and Magnetism: Electrostatics- Coulomb’s law- electric field potential- capacitance- dielectrics in an electric field- energy of an electric field- direct current- magnetic field of direct current- electromagnetic induction

Waves and optics: Free hormonic oscillators- elastic waves- Electromagnetic waves- interference, diffraction, scattering and polarization of light- thermal radiation

Modern Physics: Structure of matter and basic solid state physics- elementary nuclear physics- elementary quantum mechanics- structure of atom

Chemistry

Inorganic chemistry: Electronic structure of atoms, periodic table and periodic properties. General characteristics, structure and reactions of non- transition elements and transition elements. Coordination compounds, structure, crystal field and ligand field theories, spectral and magnetic properties

Organic chemistry: Synthesis, reactions and mechanisms of alkenes, alkynes, arenes, alcohols, phenols, aldehydes, ketones, carboxylic acids and their derivatives, halides, nitro compounds and amines. Structure and properties of boimolecules, carbohydrates, amino acids an proteins

Physical chemistry: Chemical equilibrium, first law, thermochemistry, second law and entropy, free energy, properties of dilute solutions. Chemical kinetics, rates of reactions and factors affecting rates of reactions. Spectroscopy, principles of UV-visible and IR spectroscopy

Section II

Science stream

Part C: (Mathematics, computer and information sciences)

Mathematics: Vectors- Trignometry- Differentiation and Integration- Matrices

Information sciences: Introduction to www.Networking: Basics-modem-hub-switch-commands to transfer files- remote login. Elements of languages used on the Internet JAVA- Perl. Elements of databases- Relational database

Computer application: Basics of computers-hardware-components of a computer. Operating systems- windows-linux- simple commands. Elementary Boolean arithmetic- substraction- addition- multiplication. Applications- word processing- spread sheets. Elementary basic programming commands and syntax

admin M.Tech Biotechnology Entrance Exam Syllabus for JNU M.Tech Biotechnology

Syllabus for JNU MSc Agri Biotechnology

Agricultural Biochemistry: Isomerism, hydrogen bond and hydrophobic interaction in biomolecules; chemistry of biomolecules-carbohydrates, amino acids, proteins, lipids and nucleic

Metabolism of carbohydrats, fatty acids and protein. Genetic code, replication, transcription and translation. Enzymes and their kinetics, factors affecting enzyme activity. Competitive- and non-competitive inhibitions. Coenzymes and cofactors. Plant pigments.

Animal Husbandry and Veterinary science: Importance of livestock in agriculture; relationship between plant and animal husbandry; mixed farming; animal breeding; breeds of indigenous and exotic cattle, buffaloes, goats, sheep, pigs and poultries and their potential for milk, egg, meat and wool production; classification of feed and fodder; major contagious diseases affecting cattle and drought animals, poultries and pigs; reproduction biology of cattle; artificial insemination, fertility and sterility; principles of immunization and vaccination; description, symptoms, diagnosis and treatment of major contagious diseases; drugs used for killing, tranquillizing and doping farm and wild animals; study of milk composition; physical properties and food value of milk; quality control of milk, tests and legal standards; dairy equipments and their cleaning; organization of dairy, milk processing and distribution; microorganism found in dairy and milk products; pregnancy and distochea

Cell Biology: Modern tools and techniques in the study of cytology; prokaryotic and eukaryotic cells-structural and ultra structural details; functions of organelles including membrane; cell cycle, mitosis and meiosis; numerical structural variation in chromosomes and their significance

Crop protection: Diseases of field, vegetable, orchard and plantation crops of India and their control; causes and classification of plant diseases; principles of plant disease control biological control of diseases; seed health testing, Integrated pest management-concepts and components; host plant resistance-biological control of insect pests; genetic manipulation of insects for their control; pesticides, their formulation, classification and safe use; behavioural methods; use of computer modeling in pest and disease out break; use of semiochemicals in IPM; insect growth regulators; biotechnological approaches in IPM; IPM in major crops, Principles of nematode management-integrated nematode management in major crops-silkworm types; mulberry silkworm, culturing methods; pests and diseases of mulberry and mulberry silkworm and their management

Cropping systems and crop management: Impact of the high yielding and short duration varieties on shifts in cropping patterns; concepts of multiple cropping, relay cropping and inter-cropping and their importance in relation to food production crop production practices for important cereals, pulses, oilseeds, fibre, sugar and cash crops; crop weed, their characteristics, cultural biological and chemical weed control; remote sensing and agriculture

Ecology and environment: Ecology and its relevance to man; natural resources their management and conservation- Climatic elements as factors of crop growth- impact of changing environment on cropping pattern- change in environment due to agriculture-environmental pollution and associated hazards to crops, animals and humans-liquid and solid waste disposal- Pollution prevention and remediation

Principles of food science and processing: Food production and consumption trends in India; food Science objective food composition; nutritive value of foods; importance and scope of food processing; Indian scenario; effect of processing on different food groups; food spoilage; principles and methods of preservation; quality standards, Ventra Centicals

Genetics and plant breeding: Earlier concepts of heredity; Mendel’s work and laws of heredity; Chromosomal theory of inheritance; Gene interactions; Multiple alleles; Multiple factor hypothesis; Linkage and crossing over; Linkage analysis; construction of genetic map; sex determination; sex linked; sex influenced and sex limited traits; spontaneous and induced mutations; centre of origin; domestication of crop plants; conservations and utilization of genetic resources; reproductive and pollination mechanisms in plants; methods and principles in plant breeding; methods of breeding self-pollinated crops; methods of breeding cross- pollinated crops; methods of breeding asexually propagated crops; self incompatibility and male sterility in crop breeding; mutation breeding in crop improvement; ploidy breeding in crop improvement; Innovative breeding methods in crop improvement

Horticulture and forestry: Climatic requirements and cultivation of major fruits, flowers and vegetable crops spice in plantation crops, the package of practices and the scientific basis for the same; handling and marketing of fruit and vegetables; preservation of fruits and vegetables; fruit and vegetable in human nutrition; landscaping and floriculture; ornamental plants and design and lay out of lawns and gardens; tissue culture and micropropagation of important fruit, vegetable and ornamental plants including major spices and plantation crops, important features, scope and propagation of various types of forestry plantations, such as, extension/social forestry, agroforestry and the management of natural forests

Agricultural microbiology: Spontaneous generation theory-Grem theory-Discovery of antibiotics-Types of Microscopes-Principles and equipment of different kinds of sterilization-staining Techniques-Nutritional types of bacteria-Growth curve-Factors influencing bacterial growth-Fermentation: Principle and application-classification of Bacteria-Gene transfer methods in microorganisms Antigen and antibody reaction. Contributions of Beijerinck and Winogradsky-Role of microbes in carbon and nitrogen cycles-Influence of Rhizosphere on soil microorganism-various types of nitrogen fixing microorgranism-Production of bacterial biofertilizers: Rhizobium, Azospirillum, Phosphobacteria etc.- Fungal biofertilizers; Ecto- and Endomychorizae- Azolla and BGA- Method of application for different biofertilizers

Plant Physiology: Plant physiology and its significance in agriculture; physical properties and chemical constitution of protoplasm; plant cell water relation – imbibition, surface tension, diffusion, osmosis; absorption and translocation of water and nutrients; transpiration, guttation, mineral deficiencies and their symptoms; physiological disorders, correction hydrophonics, foliar nutritions aerobic and anaerobic respiration; Photo respiration Factors affecting respiration and Photo- respiration. Photosynthesis- modern concept and the factors affecting photosynthesis, nitrogen fixation growth development and differentiation; growth hormones, growth retardants, growth inhibitors and their use in agriculture; tropism in plants photoperiodism and vernalization; seed dormancy and germination; fruit ripening process and its control

Seed technology: Seed technology and its importance; production processing and testing of seeds of crop plants; seed storage, seed certification; role of NSC in production; new seed policy and seed control order, terminator technology

Soil science and agricultural chemistry: Soil as a medium of plant growth and its composition; mineral and organic constituents of soil and their role in crop production; chemical physical and microbiological properties of soil; essential plant nutrients, their functions occurrence and recycling; micro-secondary and micro nutrient sources and their management; integrated nutrient management, soil water relationship, principles of soil fertility and its evaluation for judicious use of fertilizers; organic manure and bio-fertilizers; soil conservation planning on water shed basis; erosion and run-off management in hilly, foot hills and valley lands; processes and factors affecting soil erosion; dry land agriculture and its problems; rainfed agriculture

Biostatistics: Compilation, classification, tabulation and diagrammatic representation of data; measures of central tendency, correlation and regression involving two variables; concept of random sampling; tests of significance testing of hypothesis; statistical tests two kinds of error; chi-square test; principles of sampling; sampling and sampling errors; analysis of variance transformations to stabilize variance; principles of experimental design, randomized block design; latin square design; factorial experiments; missing plot techniques. Introduction to computer-Electronic data processing, operating system-common software available-Internet applications-Databases and bioinformatics

Agricultural Biotechnology: Concepts and scope of biotechnology. Tissue culture and its application, Micropropagation. Meristem culture and production of virus-free plants. Anther and microspore culture. Embryo and ovary culture. Protoplast isolation. Protoplast fusion-somatic hybrids, cybrids. Somaclones. Synthetic seeds. In vitro germplasm conservation. Cryopreservation. Organelle DNA, Satellite-and repetitive DNAs. DNA repair. Regulation of gene expression. Recombinant DNA technology-cloning vectors, restriction enzymes, gene cloning. Methods of gene transfer in plants. Achievements and recent developments of genetic engineering in agriculture. Development of transgenies for biotic and abiotic stress tolerance, Ribozfore Technology microarray, bioethics, terminator technology, nanotechnology, DNA finger printing, gene silencing

admin MSC Biotechnology Syllabus for JNU MSc Agri Biotechnology

Given Below is the Syllabus for KLE UGAIET (Under Graduate All India Entrance Test)

Physics Syllabus

Chemistry Syllabus

Biology Syllabus

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KLE UGAIET Biology Syllabus

The Living World

Nature and Scope of Biology. Methods of Biology. Our Place in the universe. Laws that governs the Universe and life. Level of organization. Cause and effect relationship.Being alive. What does it mean? Present approach to understand life processes: Molecular approach; life as an expression of energy; steady state and homeostasis; self duplication and survival, adaptation; death as a positive part of life. An attempt to define life in the above. Origin of Life and its maintenance. Origin and diversity of life. Physical and chemical principles that maintain life processes, the living crust and interdependence. The positive and negative aspects of progress in biological sciences. The future of the living world, identification of human responsibility in shaping our future.

Cell as a unit of life. Small bimolecules; water, minerals, mono and oligosaccharides, lipids, amino acids, nucleotides and their chemistry, cellular locations and function. Macromolecules in cells-their chemistry, Cellular location and functional significance  Polysaccharides, proteins and nucleic acids. Enzymes; chemical nature, classification, mechanism in action-enzyme complex, allosteric Modulation (brief), irreversible activation, Biomembrance. Fluid mosaic model of membrane in transport recognition of external information (brief).Structutl orgainsation of the cell; light and electron microscopic views of cell, its organelles and their functions; Nucleus mitochondria chloroplasts, endoplasmic reticulum. Golgi complex, Lysosomes, microtubules, cell wall, cilia, and flagella, vacuoles, cell inclusion. A general account of cellular respiration.

Fermentation, biological oxidation (a cycle outline), mitochondrial electron transport chain, high energy bonds and oxidative phosphorylation, cell reproduction; Process of mitosis and Meiosis.

Diversity of life:

Introduction: The enormous variety of living things, the need for classification to cope with this variety, taxonomy and phylogeny; shortcomings of a two kingdom classification as plants and animals; a five kingdom classification. Monera, Protista, Plantae, Fungi and Animalia.

The basic features of five kingdom classification, modes of obtaining nutrition-autorophs and heterotrophs. Life styles; producers. consumers and decomposers, Unicellularity and multicellularity phylogentic relationships. Concepts of species, taxon and categories hierarchical levels of classification; binomial nomenclature; principles of classification and nomenclature; identification and nature of viruses and bacteriophages and organisms kingdom Moera-archeabacteris-life in extreme environments, Bacteria, actinomycetes, Cyanobacteris. Examples to illustrate autotrophic and heterotrophic life style; mineralizer – nitrogen fixers; Monera in cycling matter, symbiotic forms; disease producers.

Kingdom Protisa-Eucaryon, Unicellular organisms; development of flagella and cilia; beginning of mitosis; syngamy and sex. Various lifestyles shown in the major phyla. Evolutionary precursors of complex life forms. Diatoms, dinoflagellates, slime moulds, protozons; symbiotic forms.

Plants kingdom-complex autotrophs,red brown and green algae; conquest of land,bryophytes,ferms.gymnosperms and angiospherms.Vasculrization;development of flower, fruit and seed, Kingdom fungi-lower fungi (Zygomycetes)higher fungi; (Ascomycetes and Basidiomycetes, the importance of fungi Decomposers;parasitics forms; lichens and mycorrhizae,animal kingdom-animal body pattern and symmetry, the development of body cavity in invertebrate,vertebrate physia.Salient feature with reference to habitat and examples of phylumporifera, coelenterata, helminthas, annelids, mollusca, arthropoda, ethindoerms, chordata – (classes fishes amphibians, reptiles, birds and mammal) highlighting major characters.

Organism and Environment:

Species: Origin and concepts of species population: interaction between environment and population community, interaction between different species, biotic stability, changes in the community-succession, Ecosystem; Interaction between biotic and abiotic components; major ecosystems

Man made ecosystem- Agroecosytem. Biosphere; flow of energy, trapping of solar energy, energy pathway, food chain, food web, biogeochemical cycles, calcium and sulphur, ecological imbalance and its consequences. Conservation of natural resources; renewable and non-renewable (in Brief).Water and land management, wasteland development. Wild life and forest conservation; causes for the extinction of some wild life, steps taken to conserve the remaining species, concepts of endangered species-Indian examples, conservation of forest; Indian forests, importance of forest, hazards of deforestation, aforestation. Environment pollution; air and water pollution, sources, major pollutants of big cities of our country, their effects and methods of control, pollution due to nuclear fallout and waste disposal, effect and control ,noise pollution; sources and effects.

Multicellularity: Structure and Function- Plant Life

Form and function. Tissue system in flowing plants; meristematic and permanent. Minerals nutrition – essential elements, major functions of different elements, passive and active uptake of minerals. Modes of nutrition, transport of solutes and water in plants, Photosynthesis; photochemical and biosynthetic phases, diversity in  hotosynthetic pathways, photosynthetic electron transport and photophosphorylation, photorespiration.Transpiration and exchange of gases.Stomatal mechanism. Osmoregulation in plants, water relations in plants cells, water potential. Reproduction and development in Angiosperms plants; asexual and sexual. Structure and functions of flower: development of male and female gametophytes in angiosperms, pollination, Fertilization and development of endosperms, embryo seed and fruit. Differentiation and organ formation. Plant hormones and growth regulation; Action of plant hormones in relation to seed dormancy and germination, apical dominance, senescence and abscission. Applications of synthetic growth regulators. A brief account of growth and movements in plants, rhotomorphogenesis in plants including a brief account of phytochrome.

Fllulticelluriarity: Structure and Function –Animal Life

Animal tissues, epithelial, connective, musculear, nerve. Animal nutrition; organs of digestion and digestive process, nutritional requirements for carbohydrates, proteins, fats, minerals and vitamins: nutritional imbalances and deficiency diseases. Gas exchange and transport: Pulmonary gas exchange and organs involved, transport of gases in blood gas exchange in aqueous media.

Circulation: closed and open vascular systems, structure and pumping action of hearts, arterial blood pressure,lymph.Excreation and osomoregulation. Ammonotelism, Ureotelism, uricotelism, execration of water and urea with special reference to man. Role of kidney in regulation of plasma, osmolarity on the basis of nephron structure, skin and lung in excretion. Hormonal coordination; hormones of mammals, role of hormones as messengers and regulators. Nervous coordination, central autonomic and peripheral nervous systems,receptors,effectors reflex,action,basic physiology of special senses, integrative control by neuroendocrinal systems. Locomotion; joints, muscle movements, types of skeletal muscles according to types of movement, basic aspects of human skeleton. Reproduction; human reproducation, female reproductive cycles. Embryonic development in mammals (up to three germs layers), growth, repair and ageing.

Continuity of Life:

Heredity and variation: Introducation, Mendel’s experiments with peas and idea of factors. Mendel’s law of inheritance. Genes: Packing of heredity material in prokaryestes-bacterial chromosome; plasmid and eukaryote chromosome, Extrnuclear genes, viral genes. Linkage (genetic) maps.Sex determination and sexlinkage.Genetic material and its replication, gene manipulation. Gene expression; gentic code, transcription, translation, gene regulation. Molecular basis of differentiation.

Origin and Evolution of Life

Origin of life: Living and non-living, chemical evolution, organic evolution: Oparin ideas, Miller-Urey experiments. Interrelationship among living organisms and evidence of evolution fossil records including geological time scale.

Morphological evidence – hemolgy, vestigial organs, embryological similarities and biogeographically evidence. Darwin’s two major contributions. Common origin of living organisms and recombination as a sources of variability, selection acts upon variation, adaption (Lederberg’s replica plating experiment for indirect selection of bacterial mutants), reproductive isolation, speciation. Role of selection change and drift in determining composition of population. Selected examples : industrial melanism; drug resisitence,mimicry,malaria in relation to g-6-PD deficiency and sickle cell diseases. Human evolution: Paleontological evidence, man; s place among mammals. B idea of Dryopithecus,Australopithecus,home erectus,H.neadnderthlensis,Cromagnon man and homo sapiens, Human chromosomes, similarity in different racial groups.Comparision with chromosome of non- human prime to indicate common origin; cultural vs. biological evolution. Mutation- Their role is speciation. Their origin in speciation, their origin in organisms.

Application of Biology:

Introduction, Role of Biology in the amelioration of human problems. Domestication of plant-a historical account, improvement of crop plants; Principles of plant breeding and plant introduction. Use of fertilizers economic and ecological aspects. Use of pesticides: advantages and hazards. Biological methods of pest control. Crops today. Current concerns, Gene pools and genetic conservation. Underutilized crops with potential uses for oilseeds, medicines, beverages, spices, fodder.

New crops- Leucaena (Subabul), jojoba, Guayyle, winged bean, etc. Biofertilisers – green manure, crop residues and nitrogen fixation (symbiotic, non symbiotic). Application of tissue culture and genetic engineering in crops. Domestication and introduction of animals, Livestock, poultry, fisheries (fresh water, marl aquaculture). Improvement of animals; principles of animal breeding. Major animals diseases and their conti Insects and their products (silk, honey, wax and lac).

Bioenergy biomass, wood (combustion, gasification, enthanol Cow dung cakes, gobar gas, plants as sources of hydrocarbons for producing petroleum, ethanol from starch and lignocellulose. Biotechnology, a brief historical account-manufacture of cheese, yogurt, alcohol, yeast, vitamins, organic acids, anti-biotics, steroids, dextrins. Scaling up laboratory findings to industrial production. Production of insulin, human growth hormones, interferon. Communicable disease including STD and diseases spread through blood transfusion (hepatitis, AIDS, etc) immune response, vaccines and antisera. Allergies and inflammations, Inherited diseases and sex-linked diseases, genetic Incompatibilities, and genetic counseling, Cancer-major types, causes, diagnosis and treatment. Tissue and organ transplantation. Community health services and measures. Blood banks. Mental health, smoking, alcoholism and drug addiction-physiological symptoms and control measures. Industrial wastes, toxicology, pollution-related diseases. Biomedical engineering spare parts for man, instruments for diagnosis of diseases and care. Human population related diseases. Human population growth problems and control, inequality between sexes-control measures; test –tube babies amniocentesis. Future of Biology.

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KLE UGAIET Chemistry Syllabus

Atoms Molecules and Chemical Arithmetic:

Measurement in Chemistry (significant figures, SI unit, Dimensional analysis).Chemical classification of matter (mixtures, compounds and elements, and purification).Law of chemical combination and Dalton’s Atomic theory. Atomic Mass (mole concept, determination of chemical formulas). Chemical equation (balancing of chemical equation and calculations using chemical equations).

Elements, their Occurrence and extraction:

Earth as a source of elements, elements in biology, Elements in sea, extraction of metals (metallurgical process, production of concentrated ore, production of metals and their purification).Mineral wealth of India, Qualitative’ test of metals.

States of Matter:

Gaseous state (measurable properties of gases,Boyle’s Law, Charles ‘Law and absolute scale of temperature, Avogadro’s hypothesis, ideal gas equation, Dalton’s law of partial pressure). Kinetic molecular theory of gases (the microscopic model of a gas, deviation form ideal behavior). The solid state (classification of solids X-Ray studies of crystal lattices and unit cells, packing of constituent particles in crystals).Liquid state (Properties of liquids, Vapour pressure, Surface Tension, Viscosity).

Atomic Structures:

Constituents of the atom (Discovery of electron, nuclear model of the atom).Electronic structure of atoms (nature of light and electromagnetic waves, atomic spectra, Bhor’s model of Hydrogen atom, Quantum mechanical model of the atom, electronic configurations of atoms, Aufbau principle).

Chemical Families-Period Properties:

Mendeleev’s Periodic Table, Modern Periodic Law, Types of elements (Representative elements-s and p block elements, inner transition elements-d inner transition element-f-block elements).Periodic trends in properties (Ionization energy, electron, affinity, atomic radii, valence, periodicity in properties of compounds).

Bonding and Molecular Structure:

Chemical bonds and Lewis structure shapes of molecules (VSEPR Theory).Quantum theory of the covalent rbond (Hydrogen and some other simple molecules, carbon compounds, hybridization, Boron and Beryllium compounds). Coordinate covalent bond (Ionic bond as an extreme case of polar covalent bond, ionic character of molecules and polar molecules. Bonding in solid state (Ionic, molecular and covalent solids, metals).Hydrogen bond, Resonance.

Carbons and its compounds:

Elemental carbon, carbon compounds, Inorganic compounds of carbon (Oxides of carbon, halides, carbides). Organic compounds, Nomenclature of organic compounds (Hydrocarbons, functional groups).Some common organic compounds (Alkanes, Alkenes, Alkyles, Alcohols, Aldehydes, Ketones, Halides, Acids, Nitro compounds and amines).

Energetics:

Energy changes during a chemical reaction. Internal energy and Enthalpy (Internal Energy, Enthalpy, Enthalpy changes,Orgin of Enthalpy change in reaction, Hess’s low of constant heat summation, numerical based on these concepts).Heats of reactions (heat of neutralization, heat of combustion, heat effusion and vaporization).Sources if energy (Conservation of energy sources, pollution associated with consumption of fuels. The sun as the primary source). What decides the direction of a spontaneous change in a chemical reaction? (An elementary idea of free energy change). Why energy crisis if energy is conserved in nature.

Chemical Equilibrium:

Equilibria involving physical changes (solid-liquid-gas equilibria, equilibrium involving dissolution of solid in liquids, gases in liquids, general characteristics of equilibrium involving physical processes). Equilibria Involving chemical systems (the law of chemical equilibrium, the magnitude of the equilibrium constant, numerical problems).Effect of chaining conditions of systems at equilibrium (change of temperature, change of concentration, effect of catalyst-Le Chat liar’s principle). Equilibria involving ions (ionization of electrolytes, weak and strong electrolytes, acid-base equilibrium, various concepts of acids and bases, ionization of water, pH, solubility product, numerical based on these concepts).

Redox reactions:

Oxidation and reduction as an electron transfer process. Redox reactions in aqueous solution-electro chemical cells. EMF of a galvanic cell. Dependence of EMF on concentration and temperature (nearest equation & numerical problems based on it). Electrolysis, Oxidation numbers (Rules for assigning oxidation number, redox reactions in terms of oxidation number and nomenclature). Balancing of oxidation-reduction equations.

Rates of Chemical Reactions:

Rate of reaction: Instantaneous rate of a reaction and order of reaction. Factors affecting rates of reaction (factors effecting rate of collisions encountered between the reactant molecules, effect of temperature on the reaction rate, concepts of activation energy, catalysis ).Effect of light on rates of reactions. Elementary reactions as steps to more complex reactions. How fast are chemical reactions.

Chemistry of Heavier Metals:

Iron (occurrence and extraction, compounds of iron, oxides, halides, sulphides, sulphate, alloy and steel. Copper, silver, and gold (occurrence and extraction’s properties and uses, compound – sulphides, halides, and sulphates, photography). Zinc and Mercury (occurrence and extraction, properties and uses, compound-oxides, halides, sulphides and sulphates). Tin and Lead (occurrence and extraction, properties, uses, compounds-oxides, sulphides, halides).

Structure and Shape(s) of Hydrocarbons:

Alkanes (structure, isomerism, conformation) Stereo Isomerism and chairality (origin of chairality, optical relation, recemic mixture). Alkenes (isomerism including cis-trans). Alkyles. Arenes (structure of benzene, resonance structure, isomerism in arenes).

Preparation and Properties of Hydrocarbons:

Sources of Hydrocarbons (origin and composition of coal and petroleum; Hydrocarbons from coal and petroleum, cracking and reforming, quality of gasoline- octane number, gasoline additives). Laboratory preparation of alkanes (preparation from unsaturated hydrocarbons, alkyl halides and carboxylic acids). Laboratory preparation of alkenes (preparation from alcohls, alkyl halides). Laboratory preparation of alkyles (preparation from calcium carbide and acetylene).x Physical properties of alkanes (boiling and melting points, solubility and density). Reactions of hydrocarbons 9 (oxidation, addition, substitution and miscellaneous reactions).

Purification and Characterization of Organic Compounds:

Purification (crystallization, sublimation, distillation, differential extraction, chromatography) Qualitative analysis (analysis of nitrogen sulphur, phosphorus and halogens). Quantitative analysis (estimation of carbon, hydrogen, nitrogen, halogens, sulphur, phosphorus and oxygen). Determination of molecular mass (victor Mayer’s method, volumetric method). Calculation of empirical formula and molecular formula. Numerical problems in organic quantitative analysis, modern methods of structure elucidation.

The Molecules of Life

The cell. Carbohydrates (monosaccharides, disacharides and polysacharides). Proteins (amino acids, peptide bond, structure of proteins, tertiary structure of proteins and denaturation, enzymes). Nucleic acids (structure, the double helix, biological function of nucleic acid, viruses).

Atomic Structure and Chemical Bonding

Atoms-dual nature of matter and radiation. The uncertainty principle. Orbitals and Quantum numbers Shapes of orbitals, Electronic configuration of atoms. Molecules: Molecular orbital method. Hybridization, Dipole moment and structure of molecules.

The Solid State:

Structure of simple ionic compounds. Close – packed structures. Ionic – radii, Silicates (elementary ideas). Imperfection in solids (point defects only). Properties of solids. Amorphous solids.

The Gaseous state:

Ideal gas equation-kinetic theory (fundamentals only).

Solutions:

Types of solution, Vapor-pressure of solutions and Raoult’s law. Colligative properties. Non-ideal solutions and abnormal molecular masses. Mole concept-stoichemistry, volumetric analysis, concentration unit.

Chemical thermodynamics

First law of thermodynamics: Internal energy, Enthalpy, application of first law of thermodynamics Second law of thermodynamics: Entropy, Free energy, Spontaneity of a chemical reaction, free energy change chemical equilibrium, free energy as energy available for useful work. Third law of thermodynamics

Electrochemistry:

Electrolytic conduction. Voltage cell, Electrode potential and Electromotive force, Gibb’s free energy and cell potential. Electrode potential and Electrolysis. Primary cells including fuel cells. Corrosion.

Chemical Kinetics:

Rate expression. Order of reaction (with suitable examples). Units of rate and specific rate constants. Order of reaction and concentration, (study will be confined to first order only). Temperature dependence of rate constant – Fast reactions (only elementary idea). Mechanism of reaction (only elementary idea). Photo chemical reactions.

Organic Chemistry Based on Functional Group -1

(Halides and Hydroxy compounds)

Nomenclature of compounds containing halogen atoms and hydroxylgroups:haloalkanes, haloareness; alcohols and phenols. Correlation of physical properties and uses. Preparation, properties and uses of following: Polyhalogen compounds:Chloroform, idoform Polyhydric compounds. Ethane 1,2 –diol; Propane – 1,2,3 triol. Structure and reactivity – (a) induction effect, (b) Mesomeric effect, (c) Electrohiles and Meneophiles.

Organic Chemistry Based on Functional Group –II:

(Ethers, aldehydes, ketones, carboxylic acids and their derivatives). Nomenclature of ethers, aldehydes, ketones, carboxylic acids and their derivatives, (acylhalides, acid anhydrides, amides and esters). General methods of preparation , correlation of physical properties with their structure, chemical uses.

(Note: Specific compounds should not be stressed for the purpose of evaluation)

Organic Chemistry Based on Functional Groups III:

(Cyanides, isocyanides, nitrocompounds and amines)

Nomenclature of cyanides and isocyanides; nitro compounds and amines and their methods of preparation, correlation of physical properties with structure, chemical reactions uses.

Chemistry of Representative Elements:

Periodic properties – Trends in groups and periods (a) Oxides-nature (b) Halides-melting points c) Carbonates and Sulphates – sikyvukutt, The chemistry of s and p block elements, electronic configuration, general characteristic properties and oxidation states of the following:

Group 1 elements –Alkali metals

Group 2 elements – Alkaline earth metals

Group 13 elements – Boron family group

14 elements – Carbon family Group

15 elements –Nitrogen family Group

16 elements – Oxygen family group

17 elements – Halogen family Group

18 elements – Noble gases and Hydrogen.

Transition Metals including Lanthanides:

Electronic configuration: General characteristic properties, oxidation states of transition metals. First row transition metals and general properties of their compounds-oxides, halide and sulphides. General properties of second and third row transition elements (Group wise discussion). Preparation of Potassium dichromate, Potassium permanganate. Inner transition elements: General discussion with special reference to oxidation states and Lanthanide contraction.

Coordination Chemistry and Organo Metallics:

Coordination compounds; Nomenclature : isomerism in coordination compounds; Bonding in coordination compounds; Stability of coordination compounds; application of coordination compounds; Compounds containing metal-carbon bond; Application of organometallics.

Nuclear Chemistry:

Nature of radiation from radioactive substances. Nuclear structure and nuclear properties. Nuclear reactions; Radioactive disintegration series; Artificial transmutation of elements; Nuclear fission and Nuclear fusion: Isotopes and their uses; Radio carbon-dating; Synthetic elements.

Synthetic and Natural Polymers:

Classification of Polymers, natural and synthetic polymers (with stress on their general methods of preparation) and important uses of the Teflon, PVC, Polystyrene, Nylon – 66, terylene. Environmental pollution – pollutants –services-check and alternatives.

Surface Chemistry

Surfaces: Adsorption

Colloids-(preparation and general properties) Emulsions, Micelles.

Catalysis: Homogenous and heterogeneous, structure of catalyst.

Bio Molecules:

Carbohydrates: Monosaccharides, Disaccharides, Polysaccharides.

Amino Acids and Peptides – Structure and classification.

Proteins and Enzymes – structure of Proteins, Role of enzymes.

Nucleic Acids – DNA and RNA

Biological functions of Nucleic acids- Proteins synthesis and replication.

Lipids – Structure, membranes and their functions.

Chemistry of Biological Process. Carbohydrate and their Metabolism, Hemoglobin blood and respiration; Immune system; Vitamins and hormones. Simple idea of chemical evolution.

Chemistry in Action

Dyes, chemicals in medicines, Rocket propellents. (Structural formulae non-evaluative).

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KLE UGAIET Physics Syllabus

Introduction and Measurement:

What is physics, scope and excitement; Physics in relation to science, society and technology, Need for measurement, system of units –SI, fundamental and derived units. Dimensions and their applications. Orders of magnitude, Accuracy and errors in measurements – random and instrumental errors, Significant figures and rounding off, Graphs, Trigonometric functions, simple ideas of differentiation and integration.

Description of Motion in one dimension:

Objects in motion in one dimension. Motion is a straight line, unit and direction for time and position measurement. Uniform motion, its graphical representation and formulae, speed and velocity, relative velocity, Instantaneous velocity, uniformly accelerated motion, its velocity-time graph, position time graph and formulae. General relation between position and velocity, application to uniformly accelerated motion. Acceleration in general one dimensional motion.

Description of Motion in Two and Three Dimension:

Vectors and scalars, vectors in two dimensions, general-vector addition and multiplication by a real number, zero-vector and its properties. Resolution of vector in a plane, rectangular components. Scalar and Vector products. Motion in two dimensions, cases of uniform velocity and uniform acceleration-projectile motion, general relation among position velocity-acceleration for motion in a plane-uniform circular motion. Motion of objects in three dimensional space.

Laws of Motion:

Force and inertia, first law of motion. Momentum, second law of motion, impulse, some kinds of forces in nature, Third law of motion, conservation of momentum, rocket propulsion. Equilibrium of concurrent forces. Static and kinetic friction, laws of friction, rolling friction, lubrication, inertial and non-inertial frames.

Work, Energy and Power:

Work done by a constant force and by a variable force, unit of work, kinetic energy, power, Elastic collision in one and two dimensions, Potential energy, gravitational potential energy, and its conversion to kinetic energy, potential energy of a spring. Different forms of energy equivalence, conservation of energy.

Rotational Motion:

Center of mass of a two particle system, momentum conservation and center of mass motion. Center of mass of rigid body, general motion of a rigid body, nature of rotational motion, rotational motion of a single particle in two dimensions only, torque, angular momentum and its geometrical and physical meaning, conservation of angular moment of inertia, its physical significance, parallel axis and perpendicular axis theorem (statements only).

Gravitation:

Acceleration due to gravity, one dimensional motion under gravity, two dimensional motions under gravity. Inversal law of gravitation, inertia and gravitational mass, variations in the acceleration due to gravity of the earth, orbital velocity, geostationary satellites, gravitational potential energy near the surface of earth, gravitational potential, escape velocity.

Heat and Thermodynamics:

Specific heat, specific heat at constant, volume and pressure of ideal gas, relation between them, first law of thermodynamics. Thermodynamic state, equation of state and isothermal, pressure-temperature phase diagram. Thermodynamic processes (reversible, irreversible, isothermal, adiabatic). Carnot cycle, second law of Thermodynamics, efficiency of heat engines: Conduction, convection and radiation. Thermal conductivity, black body radiation, Wien’s law, Stefan’s law. Newton’s law of cooling.

Oscillations:

Periodic motion, simple harmonic motion (S.H.M.) and its equation of motion. Oscillations due to a spring, Kinetic energy and potential energy in S.H.M., simple pendulum, physical concepts of forced oscillations, resonance and damped oscillations.

Waves:

Wave motion, speed of wave motion, principle of super-positions, reflection of waves, harmonic waves (qualitative treatment only) standing waves and normal modes and its graphical representation. Beats, Doppler effect. Musical scale, acoustics of building.

Electrostatics:

Frictional electricity, charges and their conservation, elementary unit, Coulomb’s law, dielectric constant, electric field, electric field due to a point charge, dipole field and dipoles 1 behavior in an uniform (2- dimensional) electric field, flux, Gauss’s law in simple geometric, Conductors and insulator, presence of free charges and bound charges inside a conductor, Dielectric(concept only), Capacitance (parallel plate) series and parallel, energy and capacitor, high voltage generators, atmospheric electricity.

Current Electricity:

Introduction (flow of current), sources of e.m.f.(cells: simple, secondary, chargeable), electric current resistance of different materials, temperature dependence, thermistor, specific resistivity, color code of carbon resistance, Ohm’s law, Kisrchoff’s law, resistance in series and parallel, series and parallel circuits, Wehetston’s bridge, measurement of voltages and currents potentiometer.

Thermal and Chemical Effects of Currents:

Electric power, heating effects of current, chemical effects and law of electrolysis, simple concepts of  thermoelectricity, thermocouple.

Magnetic Effect of Currents:

Oersted’s observation, Biot-Savart’s law (magnetic field due to a current element), magnetic field due a straight wire, circular loop and solenoid. Force on a moving charge in a uniform magnetic field(Lorentz force), cyclotron (simple idea), forces and torque on currents in a magnetic field, forces between two currents, definition of ampere, moving coil galvanometer, ammeter and voltmeter.

Magnetism:

Bar magnet (comparison with a solenoids), lines of force, torque on a bar magnetic field, earth’s magnetic field, tangent galvanometer, vibration magnetometer, para, di and ferromagnetism (simple idea).

Electromagnetic Induction and Alternating Currents:

Induction e.m.f., Faraday’s Law, Lenz’s law, induction, self and mutual inductance, alternating currents, impedance and reactance, power in a.c., electrical machines and devices (transformer, induction coil, generators, simple motors, choke and starter).

Electromagnetic Waves (Qualitative Treatment):

Electromagnetic oscillations, some history of electromagnetic waves (Maxwell, Hertz, Bose, Marconi) Electromagnetic spectrum (radio, micro-waves, infra-red, optical, ultraviolet, x-rays, alpha, beta and gama rays) including elementary facts about their uses and propagation, properties of atmosphere with respect to various parts of electromagnetic spectrum.

Ray Optics and Optical Instruments:

Ray optics as a limiting case of wave optics, reflection, refraction, total internal reflection, optical fiber, curved mirrors, lenses, mirror and lens formulae, Dispersion by a prism, spectrometer and spectra-absorption and emission, scattering, rainbow, Magnification and resolving power, telescope (astronomical), microscope.

Electrons and Photons:

Discovery of electron,e/m for an electron, electrical conduction in gases, particle nature of light, Eienstein’s photocelectric equation, photo cells.

Atoms, Molecules and Nuclei:

Rutherford model of the atom, Bhor model, energy quantization, hydrogen spectrum, composition of nucleus, atomic masses, isotopes, size of nucleus, radioactivity, Mass energy relation, nuclear fission and fusion, nuclear holocaust.

Solids and Semiconductor Devices:

Crystal structure – Unit cell, single, poly and liquid crystal (concepts only) Energy bands in solids, conductors, insulators and semi-conductors, PN junction, diodes, junction transistor, diode as rectifier, transistor as a amplifier, and oscillator, logic gate and combination of gates.

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Syllabus for KIITEE MSC Biotechnology Exam

BIOLOGY (10+2+3 Standard)

Unit 1:- General Biology

Taxonomy; Heredity; Genetic variation; Conservation; Principles of ecology; Evolution; Techniques in modern biology.

Unit 2 :-Biochemistry and Physiology

Carbohydrates; Proteins; Lipids; Nucleic acids; Enzymes; Vitamins; Hormones; Metabolism; Photosynthesis. Nitrogen Fixation, Fertilization and Osmoregulation; Nervous system; Endocrine system; Vascular system; Immune system; Digestive system, Reproductive System.

Unit 3 :-Basic Biotechnology

Tissue culture; Application of enzymes; Antigen-antibody interaction; Antibody production; Diagnostic aids.

Unit 4 :-Molecular Biology

DNA; RNA; Replication; Transcription; Translation; Proteins; Lipids; Membranes; Gene transfer.

Unit 5:-Cell Biology

Cell cycle; Cytoskeletal elements; Mitochondria; Endoplasmic reticulum; chloroplast; Golgi apparatus; Signaling.

Unit 6:-Microbiology

Isolation; Cultivation; Characterization and enumeration of virus; Bacteria; Fungi; Protozoa; Pathogenic micro-organisms.

CHEMISTRY (10+2+3 Standard)

Unit 1 :-Atomic Structure

Bohr’s theory and Schrodinger wave equation; Periodicity in properties;Chemical bonding; Properties of s, p, d and f block elements; Complex formation; Coordination compounds; Chemical equilibria; Chemical thermodynamics (first and second law);Chemical kinetics (zero, first, second and third order reactions); Photochemistry; Electrochemistry; Acid-base concepts; Stereochemistry of carbon compounds; Inductive, Electromeric, conjugative effects and resonance.

Unit 2 :-Chemistry of Functional Groups

Hydrocarbons, alkyl halides, alcohols, aldehydes, ketones, carboxylic acids, amines and their derivatives; Aromatic hydrocarbons, halides, nitro and amino compounds, phenols, diazonium salts,carboxylic and sulphonic acids; Mechanism of organic reaction; Soaps and detergents; Synthetic polymers; Biomoleculesaminoacids, proteins, nucleic acids, lipids and carbohydrates (polysaccharides); Instrumental techniques – chromatography (TLC, HPLC), electrophoresis, UV-Vis-IR and NMR spectroscopy, mass spectrometry, etc.

MATHEMATICS (10+2 Standard)

Sets, Relations and Functions, Mathematical Induction, Logarithms, Complex numbers, Linear and Quadratic equations, Sequences and Series, Trignometry, Cartesian System of Rectangular Coordinates, Straight lines and Family, Circles, Conic Sections, Permutations and Combinations, Binomial Theorem, Exponential and Logarithmic Series, Mathematical Logic, Statistics, Three Dimensional Geometry, Vectors, Stocks, Shares and Debentures, Average and Partition Values, Index numbers, Matrices and Determinants, Boolean Algebra, Probability, Functions, limits and Continuity, Differentiation, Application of Derivatives, Definite and Indefinite Integrals, Differential Equations, Elementary Statics and Dynamics, Partnership, Bill of Exchange, Linear Programming, Annuities, Application of Calculus in Commerce and Economics.

PHYSICS (10+2 Standard)

Physical World and Measurement, Kinematics, Laws of Motion, Work, Energy and Power Electrostatics, Current electricity, Magnetic Effects of Current and Magnetism, Electromagnetic Induction and Alternating Current, Electromagnetics waves, Optics, Dual Nature of Matter and Radiations, Atomic Nucleus, Solids and Semiconductor Devices, Principles of Communication,Motion of System of Particles and Rigid Body, Gravitation, Mechanics of Solids and Fluids, Heat and Thermodynamics, Oscillations, Waves.

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Syllabus for KIITEE MCA Programme

MATHEMATICS

Unit :-1 Algebra of Sets : Set operations, Union, Intersection, Difference, SymmetricDifference, Complement, Venn Diagram, Cartesian products of sets, Relation and Function, Composite Function, Inverse of a Function, Equivalence Relation, Kinds of Function.

Unit :-2 Number Systems : Real numbers (algebraic and other properties), rational and irrational numbers, Complex numbers, Algebra of complex numbers, Conjugate and square root of a complex number, cube roots of unity, De-moivre’s Theorem with simple applications. Permutation and combinations and their simple applications, Mathematical induction, Binomial Theorem. Determinants up to third order, Minors and Cofactors, Properties of determinants. Matrices up to third order, Types of Matrices. Algebra of matrices, Adjoint and inverse of a matrix. Application of determinants and matrices to the solution of linear equation ( in three unknows)

Unit 3:-Trigonometry : Compound angles, Multiple and Sub-multiple angles, solution of trigonometric equations, Properties of triangles, Inverse circular function.

Unit 4:-Co-ordinate Geometry of Two Dimensions : Straight lines, pairs of straight lines, Circles, Equations of tangents and normals to a circle. Equations of Parabola, Ellipse and Hyperbola, Ellipse and hyperbola in simple forms and their tangents ( Focus, directix, eccentricity and latus rectum in all cases)

Unit 5:-Co-ordinate Geometry of Three Dimensions: Distance and division formulae, Direction cosines and direction ratios. Projections, Angles between two planes, Angle between a line and plane.Equations of a sphere-general equation.

Unit 6:-Vector Fundamentals, Dot and Cross product of two vectors, Scalar triple product, Simple Applications (to geometry, work and moment).

Unit 7:-Differential Calculus : Concept of limit, continuity, Derivation of standard functions, successive differentiation, simple cases, Leibnitz Theorem, Partial differentiation, Simple cases, derivatives as rate measure, Maxima and minima, indeterminate forms, Geometrical applications such as tangents and normals to plane curves.

Unit 8:-Integral Calculus:- Standard methods of integration ( substitution, by pars, by partial fractions etc.) Definite integrals and properties of Definite Integrals, Areas under plane curves, Differential Equations only simple cases such as

(i) dy/dx = f(x)

(ii) dy/dx=f(x) g (y)

(iii) d2y/dx2 = f(x) and application to motions in a straight line.

Unit 9:-Probability and Statistics :

Averages (Mean, Median and Mode), Dispersion (standard deviation and variance). Definition of probability, Mutually exclusive events, Independent events, Addition theorem.

COMPUTER AWARENESS

Computer Basics: Organization of a Computer, Central Processing Unit (CPU), Structure of instructions in CPU, input/output devices, computer memory, back-up devices.

DATA REPRESENTATION

Representation of characters, integers and fractions, binary and hexadecimal representations, Binary Arithmetic : Addition, subtraction, multiplication, division, simple arithmetic and two’s complement arithmetic, floating point representation of numbers, Boolean algebra, truth tables, venn diagram.

ANALYTICAL ABILITY AND LOGICAL REASONING

Questions in this section will test logical reasoning and quantitative reasoning.

admin MCA Entrance Exam Syllabus for KIITEE MCA Programme

KIITEE B.Tech Entrance Exam Syllabus

Physics Syllabus

Chemistry Syllabus

Mathematics Syllabus

admin Engineering Entrance KIITEE B.Tech Entrance Exam Syllabus.

KIITEE B.Tech Mathematics Syllabus

Unit 1:- Sets, Relations and Functions

Sets and their Representations, Union, intersection and complements of sets, and their algebraic properties, Relations, equivalence relations, mappings, one-one, into and onto mappings,composition of mappings.

Unit 2 : Complex Numbers

Complex numbers in the form a+ib and their representation in a plane. Argand diagram. Algebra of complex numbers, Modulus and Argument (or amplitude) of a complex number, square root of a complex number. Cube roots of unity, triangle inequality.

Unit 3 : Matrices and Determinants

Determinants and matrices of order two and three, properties of determinants, Evaluation of determinants. Area of triangles using determinants; Addition and multiplication of matrices, adjoint and inverse of matrix. Test of consistency and solution of simultaneous linear equations using determinants and matrices.

Unit 4: Quadratic Equations

Quadratic equations in real and complex number system and their solutions. Relation between roots and co-efficients, nature of roots, formation of quadratic equations with given roots; Symmetric functions of roots, equations reducible to quadratic equations-application to practical problems.

Unit 5 : Permutations and Combinations

Fundamental principle of counting; Permutation as an arrangement and combination as selection, Meaning of P (n,r) and C (n,r). Simple applications.

Unit 6 : Mathematical Induction and Its Application

Unit 7 : Binomial Theorem and Its Applications

Binomial Theorem for a positive integral index; general term and middle term; Binomial Theorem for any index. Properties of Binomial Co-efficients. Simple applications for approximations.

Unit : 8 Sequences and Series

Arithmetic, Geometric and Harmonic progressions. Insertion of Arithmetic Geometric and Harmonic means between two given numbers. Relation Between A.M., G.M. and H.M. Special series: Sn,Sn2,Sn3. Arithmetico-Geometric Series, Exponential and Logarithmic series.

Unit : 9 Differential Calculus

Polynomials, rational, trigonometric, logarithmic and exponential functions, Inverse functions. Graphs of simple functions. Limits, Continuity; differentiation of the sum, difference, product and quotient of two functions: differentiation of trigonometric, inverse trigonometric, logarithmic, exponential, composite and implicit functions; derivatives of order upto two. Applications of derivatives: Rate of change of quantities, monotonic-increasing and decreasing functions, Maxima and minima of functions of one variable, tangents and normals, Rolle’s and Lagrange’s Mean Value Theorems.

Unit 10 :- Integral Calculus

Integral as an anti-derivative. Fundamental integrals involving algebraic, trigonometric, exponential and logarithmic functions. Integration by substitution, by parts and partial fractions. Integration using trigonometric identities. Integral as limit of a sum. Properties of definite integrals. Evaluation of definite integrals; Determining areas of the regions bounded by simple curves.

Unit 11:- Differential Equations

Ordinary differential equations, their order and degree. Formation of differential equations. Solution of differential equations by the method of separation of variables. Solution of homogeneous and linear differential equations, and those of the typed2y = f(x) dx2

Unit 12:- Two Dimensional Geometry

Recall of Cartesian system of rectangular coordinates in a plane, distance formula, area of a triangle, condition of the collinearity of three points and section formula, centroid and in-centre of a triangle, locus and its equation, translation of axes, slope of a line, parallel and perpendicular lines, intercepts of a line on the coordinate axes.

The straight line and pair of straight lines

Various forms of equations of a line, intersection of line, angles between two lines, conditions for concurrence of three lines, distance of a point from a line Equations of internal and external bisectors of angles between two lines, coordinates of centroid, orthocenter and circumcentre of a triangle, equation of family of lines passing through the point of intersection of two lines, homogeneous equation of second degree in x and y, angle between pair of lines through the origin, combined equation of the bisectors of the angles between a pair of lines, condition for the general second degree equation to a represent a pair of lines, point of intersection and angle between two lines.

Circles and Family of Circles

Standard form of equation of a circle, general form of the equation of a circle, its radius and centre, equation of a circle in the parametric form, equation of a circle when the end points of a diameter are given, points of intersection of a line and a circle with the centre at the origin and conditions for a line to be tangent to the circle, length of the tangent, equation of the tangent, equation of a family of circles through the intersection of two circles, condition for twointersecting circles to be orthogonal.

Conic Sections

Sections of cones, equations of conic sections (parabola, ellipse and hyperbola) in standard forms, condition for y = mx+c to be a tangent and point (s) of tangency.

Unit 13 : Three Dimentsional Geometry

Coordinates of a point in space, distance between two points; Section formula, direction ratios and direction cosines, angle between two intersecting lines. Skew lines, the shortest distance between them and its equation. Equations of a line and a plane in different forms; intersection of a line and a plane, coplanar lines, equation of a sphere, its centre and radius. Diameter form of the equation of a sphere.

Unit 14 : Vector Algebra

Vectors and Scalars, addition of vectors, components of a vector in two dimensions and three dimensional space, scalar and vector products,  scalar and vector triple product. Application of vectors to plane geometry.

Unit 15 : Measures of Central Tendency and Dispersion

Calculation of Mean, median and mode of grouped and ungrouped data. Calculation of standard deviation, variance and mean deviation for grouped and ungrouped data.

Unit 16 :- Probability

Probability of an event, addition and multiplication theorems of probability and their application; Conditional probability; Bayes’ Theorem, probability distribution of a random variate; Binomial and Poisson distributions and their properties.

Unit 17 : Trigonometry

Trigonometrical identities and equations. Inverse trigonometric functions and their properties. Properties of triangles, including centroid, incentre, circum-centre and orthocenter, solution of triangles. Heights and Distances.

Unit 18: Statics

Introduction, basis concepts and basic laws of mechanics, force, resultant of forces acting at a point, parallelogram law of forces, resolved parts of a force, Equilibrium of a particle under three concurrent forces, triangle law of forces and its converse, Lami’s theorem and its converse, Two parallel forces, like and unlike parallel forces, couple and its moment.

Unit 19 :- Dynamics

Speed and velocity, average speed, instantaneous speed, acceleration and retardation, resultant of two velocities. Motion of a particle along a line, moving with constant acceleration. Motion under gravity. Laws of motion, Projectile motion

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KIITEE B.Tech Chemistry Syllabus

Unit 1: Some Basic Concepts:

Measurement in chemistry (Precision, significant figures, S.I. units, Dimensional analysis). Laws of chemical combination. Atomic Mass, Molecular Mass, mole concept, Molar Mass, determination of Molecular formula. Chemical equation, stoichiometry of Chemical reactions.

Unit 2 : States of Matter

Gaseous state, measurable properties of gases, Boyle’s Law, Charle’s Law and absolute scale of temperature, Avogadro’s hypothesis, ideal gas equation, Dalton’s law of partial pressures.Kinetic molecular theory of gases (the microscopic model of gas), deviation form ideal behaviour. The solid state ( classification of solids, X-ray studies of crystal lattices and unit cells, packing of constituent particles in crystals). Imperfection in solids, electrical, magnetic and dielectic properties of solids. Liquid state (Properties of liquids, Vapour pressure, Surface tension, Viscosity).

Unit 3 : Atomic Structure

Constituents of the atom (discovery of electron, rutherford model of the atom). Electronics structure of atoms-nature of light and electromagnetic waves, atomic spectra, bohr’s model of hydrogen,  hortcomings of the bohr model. Dual nature of matter and radiation. de-Broglie relation. The uncertainty principle, Quantum Mechanical Model of the atom, Orbitals and Quantum numbers. Shapes of orbitals. Aufbau principle, Pauli Exclusion principle, Hund’s Rule, Electronics Configuration of atoms.

Unit 4 : Solutions

Types of solutions, Units of concentration, Vapourpressure of solutions and Raoult’s law. Colligative properties. Determination of molecular mass. Nonideal solutions and abnormal molecular masses. Volumetric analysis-concentration unit.

Unit 5 : Chemical Energetics and Thermodynamics

Energy changes during a chemical reaction, Internal energy and Enthalpy, Internal energy and Enthalpy changes, Origin of Enthalpy change in a reaction, Hess’s Law of constant heat summation, numericals based on these concepts. Enthalpies of reactions (Enthalpy of neutralization, Enthalpy of combustion, Enthalpy of fusion and vaporization). Sources of energy(conservation of energy sources and identification of alternative sources, pollution associated with consumption of fuels. The sun as the primary source) First law of thermodynamics; Relation between Internal energy and Enthalpy, application of first law of thermodynamics. Second law of thermodynamics: Entropy, Gibbs energy, Spontaneity of a chemical reaction, Gibbs energy change and chemical equilibrium, Gibbs energy available for useful work.

Unit 6 : Chemical Equilibrium

Equilibria involving physical changes ( solid-liquid, liquid-gas equilibrium involving dissolution of solids in liquids, gases in liquids, general characteristics of equilibrium involving physical processes) Equilibria involving chemical systems (the law of chemical equilibrium, the magnitude of the equilibrium constant, numerical problems). Effect of changing conditions of systems at equilibrium (change of concentration, change of temperature, effect of catalyst-Le Chateliar’s principle). Equilibria involving ions- ionization of electrolytes, weak and strong electrolytes, acid-base equilibrium, various concepts of acids and bases, ionization of water, pH scale, solubility product, numericals based on these concepts.

Unit 7 : Redox Reactions and Electrochemistry

Oxidation and reduction as an electron transfer concept. Redox reactions in aqueous solutionselectrochemical cells. e.m.f. of a galvanic cell. Dependence of e.m.f. on concentration and temperature ( NERNST equation and numerical problems based on it ).Electrolysis, Oxidation number (rules for assigning oxidation number, redox reactions in terms of oxidation number, nomenclature). Balancing of oxidation-reduction equations. Electrolytic conduction. Molar conductivity, Kohlrausch’s Law and its applications, Voltaic cell, Electrode potential and Electromotive force, Gibb’s energy change and cell potential. Electrode potential and products of electrolysis, Fuel cells, corrosion and its prevention.

Unit 8 : Rates of Chemical Reactions and Chemical Kinetics

Rate of reaction, Instantaneous rate of reaction and order of reaction. Factors affecting rates of reactions- factors affecting rate of collisions encountered between the reactant molecules, effect of temperature on the reaction rate, concept of activation energy catalyst. Effect of light of rates of reactions. Elementary reactions as steps to more complex reactions. How fast are chemical reactions? Rate law expression. Order of a reaction (with suitable examples).Units of rates and specific rate constant. Order of reaction and effect of concentration ( study will be confined to first order only). Temperature dependence of rate constant – Fast reactions (only elementary idea). Mechanism of reaction ( only elementary idea). Photochemical reactions.

Unit 9 : Surface Chemistry

Surface : Adsorption – physical and chemical adsorption, adsorption isotherms. Colloids-Preparation and general properties, Emulsions, Micelles. Catalysis : Homogeneous and heterogeneous, structure of catalyst, Enzymes, Zeolites.

Unit 10 : Chemical Families Periodic properties

Modern periodic law, Types of elements – Representatives elements ( s & p block, Transition elements – d-block elements, inner transition elements-f-block elements. Periodic trends in properties-ionization enthalpy, electron gain enthalpy, atomic radii, valence, periodicity in properties of compounds).

Unit 11: Chemical Bonding and Molecular Structure

Chemical bonds and Lewis structure, shapes of molecules ( VSEPR theory), Quantum theory of the covalent bond, hydrogen and some other simple molecules, carbon compounds, hybridization, Boron and Beryllium compounds. Coordinate covalent bond, ionic bond as an extreme  case of polar covalent bond, ionic character of molecules and polar molecules. Bonding in solid state ionic, molecular and covalent solids, metals. Hydrogen bond, Resonance. Molecules : Molecular orbital. Theory-bond order and magnetic properties of H2,O2,N2,F2 on the basis of MOT. Hybridisation involving s, p and d orbitals (including shapes of simple organic molecules), Dipole moment and structure of molecules.

Unit 12 : Chemistry of Non-Metals – 1

Hydrogen (unique position in periodic table, occurrence, isotopes, properties, reactions and uses), Hydrides-molecular, soline and interstitial Oxygen (occurrence, preparation, properties and reactions, uses),simple oxides; ozone Water and hydrogen peroxide, structure of water molecule and its aggregates, physical and chemical properties of water, hard and soft water, water softening, hydrogen peroxide-preparation, properties, structure and uses. Nitrogen- Preparation, properties, uses, compounds of Nitrogen-Ammonia, Oxides of Nitrogen, Nitric  Acid-preparation, properties and uses.

Unit 13: Chemistry of Non-metals-II

Boron-occurrence, isolation, physical and chemical properties, borax and boric acid, uses of boron and its compounds.  Carbon, inorganic compounds of carbon-oxides,halides, carbides, elemental carbon.Silicon- occurrence, preparation and properties, oxides and oxyacids of phosphorus, chemical fertilizers. Sulphur – occurrence and extraction, properties and reactions, oxides, Sulphuric acid –preparation, properties and uses, sodium thiosulphate. Halogens- occurrence, preparation, properties, hydrogen halides, uses of halogens. Noble gases- discovery, occurrence and isolation, physical properties, chemistry of noble gases and their uses.

Unit 14 : Chemistry of Lighter Metals

Sodium and Potassium- occurrence and extraction, properties and uses. Important compounds-NaCl, Na2CO3,NaHCO3, NaOH, KCI,KOH. Magnesium and calcium-occurrence and extraction,properties and uses. Important compounds Mgcl2, MgSO4, CaO, Ca(OH)2,CaCO3, CaSO4, Plaster of paris, Bleaching Powder. Aluminium –occurrence, extraction properties and uses, compounds-AlCI3, alums. Cement. Biological role of Sodium, Potassium, Magnesium and Calcium.

Unit 15 :- Heavy Metals

Iron – Occurrence and extraction, compounds of iron, oxides, halides, sulphides, sulphate, alloy and steel. Copper and Silver- occurrence and extraction, properties and uses, compounds-sulphides, halides and sulphates, photography.Zinc and Mercury- occurrence and extraction, properties and uses, compounds-oxides, halides; sulphides and sulphates. Tin and Lead- occurrence and extraction, properties and uses, compounds-oxides, sulphides, halides.

Unit 16: Chemistry of Representative Elements

Periodic properties- Trends in groups and periods a) Oxides-nature (b) Halides-melting points (c) Carbonates and sulphates-solubility. The chemistry of s and p block elements, electronics configuration, general characteristic properties and oxidation states of the following:-

Group 1 elements – Alkali metals

Group 2 elements – Alkaline earth metals

Group 13 elements – Boron family

Group 14 elements – Carbon family

Group 15 elements – Nitrogen family

Group 16 elements – Oxygen family

Group 17 elements – Halogen family

Group 18 elements – Noble gases & Hydrogen

Unit 17 : Transition Metals Including Lanthanides

Electronic configuration : General characteristic properties, oxidation states of transition metals. First row transition metals and general properties of their compounds-oxides, halides and sulphides. General properties of a second and third row transition elements ( Groupwise discussion). Preparation and reactions, properties and uses of Potassium dichromate Potassium permanganate. Inner Transition Elements: General discussion with special reference to oxidation states and lanthanide contraction.

Unit 18 : Coordination Chemistry and Organo Metallics

Coordination compounds, Nomenclature: Isomerism in coordination compounds; Bonding in coordination compounds, Werner’s coordination theory. Applications of coordination compounds.

Unit 19 : Nuclear Chemistry

Nature of radiation from radioactive substances. Nuclear reactions; Radio-active disintegration series; Artificial transmutation of elements; Nuclear fission and Nuclear fusion: Isotopes and their applications: Radio carbon-dating.

Unit 20: Purification and Characterisation of Organic Compounds

Purification (crystallization, sublimation, distillation, differential extraction, chromatography).  Qualitative analysis, detection of nitrogen, sulphur, phosphorus and halogens. Quantitative analysis- estimation of carbon, hydrogen, nitrogen, halogens, sulphur, phosphorus ( basic principles only) Determination of molecular mass-Silver salt method, cholroplatinate salt method Calculation of empirical formula and molecular formula. Numerical problems in organic quantitative analysis, modern methods of structure elucidation.

Unit 21 : Some Basic Principles

Classification of Organic Compounds. Tetravalency of Carbon, Homologous series. Functional groups- – C=C-,-C C-,and groups containing halogen, oxygen, nitrogen and sulphur. General introduction to naming organic compounds-Common names and IUPAC nomenclature of alphatic, aromatic and Cyclic Compounds. Illustration with examples of Compounds having not more than three same of different functional groups/ atoms. Isomerism- Structural and stereoisomerism (geometrical and optical). Chirality-Isomerism in Compounds having one and two chiral Centres. Enantiomers, diastereoisomers, recemic forms, recemisation & resolution. Covalent bond fission-Homolytic and Heterolytic: free radicals carbocations and carbanions. Stability of Carbocations and free-radicals. Electrophiles and Nucleophiles. Electron displacement in a covalent bond-inductive effect, electromeric effect, resonance Common types of organic reactions- Substitution, addition, elimination and rearrangement reactions. Illustration with examples.

Unit:- 22 Hydrocarbons

Classification. Sources of hydrocarbons: Alkanes- General methods of preparation (from unsaturated hydrocarbons, alkylhalides, aldehydes, ketones and carburoxylic acids). Physical properties and reactions (Substitution), Oxidation and miscellaneous). Conformations of alkanes(ethane, popane butane) and cyclohexane, sawhorse and Newman projections)-mechanism of halogaration of alkanes. Alkanes and Alkynes- General methods of preparation physical peorperties, Chemical reactions-Mechanism of electrophilic addition reactions in alkenes-Markowni Koff’s Rule, peroxide effect. Acidic character of alkynes.

Polymerisation of alkenes. Aromatic hydrocarbons- Benzene and its homologues, Isomerism, Chemical reactions of benzene. Structure of benzene, resonance. Directive influence of substituents. Petroleum – Hydro Carbons from Petroleum, Cracking and  forming, quality of gasoline-Octane number, gasoline additives.

Unit 23:- Organic Compounds Containing Halogens

( Haloakanes and Haloarenes) Methods of preparation, physical properties and reactions. Preparation, properties and uses of Chloroform and lodoform.

Unit 24:- Organic Compounds Containing Oxygen

General methods of preparation, correlation of physical properties with their structures, chemical properties and uses of Alchols, polyhydric alcohols, Ethers, aldehydes, ketones, carboxylic acids and their derivatives, Phenol, Benzaldehyde and Benzoic acid -their important methods of preparation and reactions. Acidity of carboxylic acids and phenol effect of substituents on the acidity of carboxylic acids.

Unit 25 :- Organic Compounds Containing Nitrogen

(Cyanides, isocyanides, nitrocompounds and amines)Nomenclature and classification of amines, cyanides, isocyanides, nitrocompounds and their  methods of preparation; correlation of their physical properties with structure, chemical reactions and uses- Basicity of amines.

Unit 26:- Synthetic and Natural Polymers

Classification on Polymers, natural and synthetic polymers ( with stress on their general methods of preparation) and important uses of the following. Teflon, PVC, Polystyrene, Nylon-66, terylene, Bakelite)

Unit 27 :- Bio Molecules and Biological Processes

The Cell and Energy Cycle Carbohydrates : Monosaccharides, Disaccharides, PolysaccharidesAmino acids and Peptides- Structure and classification. Proteins and Enzymes-Structure of Proteins, Role of enzymes. Nucleic Acids-DNA and RNA Biological functions of Nucleic acids-Protein synthesis and replication. Lipids – Structure, membranes and their functions.

Unit 28:- Chemistry In Action

Dyes, Chemicals in medicines ( antipyretic, analgesic, antibiotics & tranquilisers), Rocket propellants. ( Structural formulae non-evaluative)

Unit 29 :- Environmental Chemistry

Environmental pollutants; soil, water and air pollution; major atmospheric pollutants; acid rain, Ozone and its reactions causing ozone layer depletion, effects of the depletion of ozone layer, industrial air pollution.

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KIITEE B.Tech Physics Syllabus

Unit 1 : Units and Measurement

Units for measurement, system of units-S.I., fundamental and derived units. Dimensions and their applications.

Unit 2: Description of Motion in One Dimension

Motion in a straight line, uniform and non-uniform motion, their graphical representation. Uniformly accelerated motion, and its application.

Unit 3 : Description of Motion in Two and Three Dimensions

Scalars and vectors, vector addition, a real number, zero vector and its properties. Resolution of vectors. Scalar and vector products, uniform circular motion and its applications projectile motion.

Unit 4 : Laws of Motion

Force and inertia-Newton’s Laws of Motion. Conservation of linear momentum and its applications, rocket propulsion, friction-laws of friction.

Unit 5 : Work, Energy and Power

Concept of work, energy and power. Energy- Kinetic and potential. Conservation of energy and its applications, Elastic collisions in one and two dimensions. Different forms of energy.

Unit 6 : Rotational Motion and Moment of Inertia

Centre of mass of a two-particle system. Centre of mass of a rigid body, general motion of a rigid body, nature of rotational motion, torque, angular momentum, its conservation and applications. Moment of inertia, parallel and perpendicular axes theorem, expression of moment of inertia for ring, disc and sphere.

Unit 7 :- Gravitation

Acceleration due to gravity, one and twodimensional motion under gravity. Universal law of gravitation, variation in the acceleration due to gravity of the earth. Planetary motion, Kepler’s laws, artificial satellite-geostationary satellite, gravitational potential energy near the surface of earth, gravitational potential and escape velocity.

Unit 8 : Solids and Fluids

Inter-atomic and Inter-molecular forces, states of matter. (A) Solids: Elastic properties, Hook’s law, Young’s modulus, bulk modulus, modulus of rigidity. (B) Liquids : Cohesion and adhesion. Surface energy and surface tension. Flow of fluids, Bernoulli’s theorem and its applications. Viscosity, Stoke’s Law, terminal velocity.

Unit 9 : Oscillations

Periodic motion, simple harmonic motion and its equation of motion, energy in S.H.M., Oscillations of a spring and simple pendulum.

Unit 10 : Waves

Wave motion, speed of a wave, longitudinal and transverse waves, superposition of waves, progressive and standing waves, free and forced Oscillations, resonance, vibration of strings and aircolumns, beats, Doppler effects.

Unit 11 : Heat and Thermodynamics

Thermal expansion of solids, liquids and gases and their specific heats, Relationship between Cp and Cv for gases, first law of thermodynamics, thermodynamic processes. Second law of thermodynamics, Carnot cycle efficiency of heat engines.

Unit 12 : Transference of Heat

Modes of transference of heat. Thermal conductivity. Black body radiations, Kirchoff’s Law, Wien’s law, Stefan’s law of radiation and Newton’s law of cooling.

Unit 13 : Electrostatics

Electric charge-its unit and conservation, Coulomb’s law, dielectric constant, electric field, lines of force, field due to dipole and its behaviour in a uniform electric field, electric flux, Gauss’s theorem and its applications. Electric potential, potential due to a point charge. Conductors and insulators, distribution of charge on conductors. Capacitance, parallel plate capacitor, combination of capacitors, energy of capacitor.

Unit 14 : Current Electricity

Electric current and its unit, sources of energy, cells-primary and secondary, grouping of cells resistance of different materials, temperature dependence, specific resistivity, Ohm’s law,Kirchoff’s law, series and parallel circuits. Wheatstone Bridge with their applications and potentiometer with their applications.

Unit 15 : Thermal and Chemical Effects of Currents

Heating effects of current, electric power, simple concept of thermo-electricity-Seeback effect and thermocouple, Chemical effect of current-Faraday’s laws of electrolysis.

Unit 16 : Magnetic Effects of Currents

Oersted’s experiment, Bio-Savert’s law, magnetic filed due to straight wire, circular loop and solenoid, force on a moving charge in a uniform magnetic field ( Lorentz force), force and torques on currents in a magnetic field, force between two current carrying wires, moving coil galvanometer and conversion to ammeter and voltmeter.

Unit 17 : Magnetostatics

Bar magnet, magnetic field, lines of force, torque on a bar magnet in a magnetic field, earth’s magnetic field, para, dia and ferro magnetism, magnetic induction, magnetic susceptibility.

Unit 18 : Electromagnetic Induction and Alternating Currents

Induced e.m.f., Faraday’s Law,Lenz’s Law, Self and Mutual Inductance, alternating currents, impedance and reactance, power in a.c. Circuits with L.C. And R Series Combination, resonant circuits. Transformer and A.C. generator.

Unit 19 : Ray Optics

Reflection and refraction of light at plane and curved surfaces, total internal reflection, optical fibre; deviation and dispersion of light by a prism; Lens formula, magnification and resolving power, microscope and telescope.

Unit 20: Wave Optics

Wave nature of light; Interference- Young’s double slit experiment. Diffraction-diffraction due to a single slit. Elementary idea of polarization.

Unit 21: Electromagnetic Waves

Electromagnetic waves and their characteristics, Electromagnetic wave spectrum from gamma to radio waves-propagation of EM waves in atmosphere.

Unit 22: Electron and Photons

Charge on an electron, e/m for an electron, photoelectric effect and Einstein’s equation of photoelectric effect.

Unit 23 : Atoms, Molecules and Nuclei

Alpha particles scattering experiment, Atomic masses, size of the nucleus; radioactivity; Alpha, beta and gamma particles/rays and their properties, radioactive decay law, half life and mean life of radio-active nuclei, binding energy, mass energy relationship, nuclear fission and nuclear fusion.

Unit 24: Solids and Semi-Conductors Devices

Energy bands in solids, conductors, insulators and semi-conductors, pn junction, diodes, diode as rectifier, transistor action, transistor as an amplifier.

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