NEET Exam Preparation Program

PHYSICAL CHEMISTRY

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UNIT 1: SOME BASIC CONCEPTS IN CHEMISTRY

• Matter and its nature
• Dalton’s atomic theory
• Concept of an atom
• Concept of molecule
• Concept of an element
• Concept of compound
• Laws of chemical combination
• Atomic mass
• Molecular mass
• Mole concept
• Molar mass
• Percentage composition
• Empirical formula
• Molecular formula
• Chemical equations
• Stoichiometry

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UNIT 2: ATOMIC STRUCTURE

• Nature of electromagnetic radiation
• Photoelectric effect
• Spectrum of the hydrogen atom
• The Bohr model of the hydrogen atom
• Postulates of Bohr’s model
• Derivation of the energy of an electron in different orbits
• Derivation of radii of different orbits
• Limitations of Bohr’s model
• Dual nature of matter
• de Broglie relationship
• Heisenberg uncertainty principle
• Elementary ideas of quantum mechanics
• Quantum mechanical model of an atom
• Important features of the quantum mechanical model
• Concept of atomic orbitals as one-electron wave functions
• Variation of Ψ and Ψ² with r for 1s orbital
• Variation of Ψ and Ψ² with r for 2s orbital
• Principal quantum number
• Angular momentum quantum number
• Magnetic quantum number
• Significance of quantum numbers
• Shapes of s orbitals
• Shapes of p orbitals
• Shapes of d orbitals
• Electron spin
• Spin quantum number
• Aufbau principle
• Pauli’s exclusion principle
• Hund’s rule
• Electronic configuration of elements
• Extra stability of half-filled orbitals
• Extra stability of completely filled orbitals

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UNIT 3: CHEMICAL BONDING AND MOLECULAR STRUCTURE

Basic Concepts

• Kossel–Lewis approach to chemical bond formation
• Concept of ionic bond
• Concept of covalent bond

Ionic Bonding

• Formation of ionic bonds
• Factors affecting the formation of ionic bonds
• Calculation of lattice enthalpy

Covalent Bonding

• Concept of electronegativity
• Fajan’s rule
• Dipole moment
• VSEPR theory
• Shapes of simple molecules

Valence Bond Theory

• Quantum mechanical approach to covalent bonding
• Important features of valence bond theory
• Concept of hybridization (s, p, d orbitals)
• Resonance

Molecular Orbital Theory

• Important features of molecular orbital theory
• LCAO (Linear Combination of Atomic Orbitals)
• Bonding molecular orbitals
• Antibonding molecular orbitals
• Sigma (σ) bonds
• Pi (π) bonds
• Molecular orbital electronic configuration of homonuclear diatomic molecules
• Bond order
• Bond length
• Bond energy

Additional Concepts

• An elementary idea of metallic bonding
• Hydrogen bonding
• Applications of hydrogen bonding

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UNIT 4: CHEMICAL THERMODYNAMICS

Basic Concepts

• System and surroundings
• Extensive properties
• Intensive properties
• State functions
• Types of processes

First Law of Thermodynamics

• Concept of work
• Heat
• Internal energy
• Enthalpy
• Heat capacity
• Molar heat capacity
• Hess’s law of constant heat summation
• Enthalpy of bond dissociation
• Enthalpy of combustion
• Enthalpy of formation
• Enthalpy of atomization
• Enthalpy of sublimation
• Enthalpy of phase transition
• Enthalpy of hydration
• Enthalpy of ionization
• Enthalpy of solution

Second Law of Thermodynamics

• Spontaneity of processes
• ΔS of the universe as criteria for spontaneity
• ΔG of the system as criteria for spontaneity
• Standard Gibbs energy change (ΔG°)
• Relationship between ΔG° and equilibrium constant

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UNIT 5: SOLUTIONS

Concentration Terms

• Molality
• Molarity
• Mole fraction
• Percentage by mass
• Percentage by volume

Vapour Pressure and Raoult’s Law

• Vapour pressure of solutions
• Raoult’s Law
• Ideal solutions
• Non-ideal solutions
• Vapour pressure–composition plots for ideal solutions
• Vapour pressure–composition plots for non-ideal solutions

Colligative Properties

• Relative lowering of vapour pressure
• Depression of freezing point
• Elevation of boiling point
• Osmotic pressure
• Determination of molecular mass using colligative properties
• Abnormal molar mass
• van’t Hoff factor
• Significance of van’t Hoff factor

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UNIT 6: EQUILIBRIUM

Basic Concepts

• Meaning of equilibrium
• Dynamic equilibrium

Equilibria Involving Physical Processes

• Solid–liquid equilibrium
• Liquid–gas equilibrium
• Solid–gas equilibrium
• Henry’s law
• General characteristics of physical equilibrium

Chemical Equilibrium

• Law of chemical equilibrium
• Equilibrium constant (Kc)
• Equilibrium constant (Kp)
• Significance of Kc and Kp
• Significance of ΔG in chemical equilibrium
• Significance of ΔG° in chemical equilibrium
• Factors affecting equilibrium concentration
• Effect of pressure on equilibrium
• Effect of temperature on equilibrium
• Effect of the catalyst on the equilibrium
• Le Chatelier’s principle

Ionic Equilibrium

• Weak electrolytes
• Strong electrolytes
• Ionization of electrolytes
• Arrhenius concept of acids and bases
• Bronsted–Lowry concept of acids and bases
• Lewis concept of acids and bases
• Acid–base equilibria
• Multistage ionization
• Ionization constants
• Ionization of water
• pH scale
• Common ion effect
• Hydrolysis of salts
• pH of salt solutions
• Solubility of sparingly soluble salts
• Solubility product (Ksp)
• Buffer solutions

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UNIT 7: REDOX REACTIONS AND ELECTROCHEMISTRY

Redox Reactions

• Electronic concept of oxidation
• Electronic concept of reduction
• Redox reactions
• Oxidation number
• Rules for assigning oxidation number
• Balancing of redox reactions

Electrochemistry

• Electrolytic conduction
• Metallic conduction
• Conductance in electrolytic solutions
• Molar conductivity
• Variation of molar conductivity with concentration
• Kohlrausch’s law
• Applications of Kohlrausch’s law

Electrochemical Cells

• Electrolytic cells
• Galvanic cells
• Types of electrodes
• Electrode potential
• Standard electrode potential
• Half-cell reactions
• Cell reactions
• EMF of a galvanic cell
• Measurement of EMF
• Nernst equation
• Applications of Nernst equation
• Relationship between cell potential and Gibbs energy change
• Dry cell
• Lead accumulator
• Fuel cells

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UNIT 8: CHEMICAL KINETICS

• Rate of a chemical reaction
• Factors affecting the rate of reaction:
  
  • Concentration
  • Temperature
  • Pressure
  • Catalyst
    
• Elementary reactions
• Complex reactions
• Order of reaction
• Molecularity of reaction
• Rate law
• Rate constant
• Units of rate constant
• Differential form of zero-order reaction
• Integral form of zero-order reaction
• Characteristics of a zero-order reaction
• Half-life of a zero-order reaction
• Differential form of a first-order reaction
• Integral form of a first-order reaction
• Characteristics of a first-order reaction
• Half-life of fia rst-order reaction
• Effect of temperature on reaction rate
• Arrhenius theory
• Activation energy
• Calculation of activation energy
• Collision theory of bimolecular gaseous reactions (no derivation)]

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INORGANIC CHEMISTRY

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UNIT 9: CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES

• Modern periodic law
• Present form of the periodic table
• s-block elements
• p-block elements
• d-block elements
• f-block elements
• Periodic trends in properties of elements:
  • Atomic radii
  • Ionic radii
  • Ionization enthalpy
  • Electron gain enthalpy
  • Valence
  • Oxidation states
  • Chemical reactivity

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UNIT 10: P-BLOCK ELEMENTS (Group 13 to Group 18)

General Introduction

• Electronic configuration of Group 13–18 elements
• General trends in physical properties across periods
• General trends in chemical properties across periods
• Trends in properties down the groups
• Unique behaviour of the first element in each group

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ORGANIC CHEMISTRY

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UNIT 13: PURIFICATION AND CHARACTERISATION OF ORGANIC COMPOUNDS

Purification Methods

• Crystallization
• Sublimation
• Distillation
• Differential extraction
• Chromatography
• Principles of purification techniques
• Applications of purification techniques

Qualitative Analysis

• Detection of nitrogen
• Detection of sulphur
• Detection of phosphorus
• Detection of halogens

Quantitative Analysis (Basic Principles Only)

• Estimation of carbon
• Estimation of hydrogen
• Estimation of nitrogen
• Estimation of halogens
• Estimation of sulphur
• Estimation of phosphorus

Formula Calculations

• Calculation of empirical formula
• Calculation of molecular formula
• Numerical problems in organic quantitative analysis

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UNIT 14: SOME BASIC PRINCIPLES OF ORGANIC CHEMISTRY

Basic Concept

• Tetravalency of carbon
• Shapes of simple molecules
• Hybridization (s and p orbitals)

Classification and Isomerism

• Classification of organic compounds based on functional groups
• Organic compounds containing halogens
• Organic compounds containing oxygen
• Organic compounds containing nitrogen
• Organic compounds containing sulphur
• Homologous series
• Structural isomerism
• Stereoisomerism

Nomenclature

• Trivial nomenclature
• IUPAC nomenclature

Reaction Mechanism Basics

• Covalent bond fission
• Homolytic cleavage
• Heterolytic cleavage
• Free radicals
• Carbocations
• Carbanions
• Stability of carbocations
• Stability of free radicals
• Electrophiles
• Nucleophiles

Electronic Effects

• Inductive effect
• Electromeric effect
• Resonance
• Hyperconjugation

Types of Organic Reactions

• Substitution reactions
• Addition reactions
• Elimination reactions
• Rearrangement reactions

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UNIT 15: HYDROCARBONS

General Concepts

• Classification of hydrocarbons
• Isomerism in hydrocarbons
• IUPAC nomenclature of hydrocarbons
• General methods of preparation
• Properties of hydrocarbons
• Reactions of hydrocarbons

Alkanes

• Conformations of ethane
• Sawhorse projection (ethane)
• Newman projection (ethane)
• Mechanism of halogenation of alkanes

Alkenes

• Geometrical isomerism
• Mechanism of electrophilic addition
• Addition of hydrogen
• Addition of halogens
• Addition of water
• Addition of hydrogen halides
• Markovnikov’s rule
• Peroxide effect
• Ozonolysis
• Polymerization

Alkynes

• Acidic character of alkynes
• Addition of hydrogen
• Addition of halogens
• Addition of water
• Addition of hydrogen halides
• Polymerization

Aromatic Hydrocarbons

• Nomenclature
• Structure of benzene
• Aromaticity
• Mechanism of electrophilic substitution
• Halogenation of benzene
• Nitration of benzene
• Friedel–Crafts alkylation
• Friedel–Crafts acylation
• Directive influence of functional groups in monosubstituted benzene

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UNIT 16: ORGANIC COMPOUNDS CONTAINING HALOGENS

• General methods of preparation
• Properties
• Reactions
• Nature of C–X bond
• Mechanisms of substitution reactions
• Uses of haloalkanes and haloarenes
• Environmental effects of:
  
  • Chloroform
  • Iodoform
  • Freons
  • DDT

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UNIT 17: ORGANIC COMPOUNDS CONTAINING OXYGEN

General Concepts

• General methods of preparation
• Properties
• Reactions
• Uses

Alcohols

• Identification of primary alcohols
• Identification of secondary alcohols
• Identification of tertiary alcohols
• Mechanism of dehydration of alcohols

Phenols

• Acidic nature of phenols
• Electrophilic substitution reactions of phenols
• Halogenation of phenols
• Nitration of phenols
• Sulphonation of phenols
• Reimer–Tiemann reaction

Ethers

• Structure of ethers

Aldehydes and Ketones

• Nature of carbonyl group (>C=O)
• Nucleophilic addition to carbonyl group
• Relative reactivity of aldehydes and ketones
• Nucleophilic addition of HCN
• Nucleophilic addition of NH₃ and its derivatives
• Reaction with Grignard reagent
• Oxidation reactions
• Reduction reactions
  
  • Wolff–Kishner reduction
  • Clemmensen reduction
    
• Acidity of α-hydrogen
• Aldol condensation
• Cannizzaro reaction
• Haloform reaction
• Chemical tests to distinguish between aldehydes and ketones

Carboxylic Acids

• Acidic strength
• Factors affecting acidic strength

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UNIT 18: ORGANIC COMPOUNDS CONTAINING NITROGEN

• General methods of preparation
• Properties
• Reactions
• Uses

Amines

• Nomenclature
• Classification
• Structure
• Basic character
• Identification of primary amines
• Identification of secondary amines
• Identification of tertiary amines

Diazonium Salts

• Preparation
• Properties
• Importance in synthetic organic chemistry

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UNIT 19: BIOMOLECULES

• General introduction to biomolecules
• Importance of biomolecules

Carbohydrates

• Classification of carbohydrates
• Aldoses
• Ketoses
• Monosaccharides:
  
  • Glucose
  • Fructose
    
• Constituent monosaccharides of oligosaccharides:
  
  • Sucrose
  • Lactose
  • Maltose

Proteins

• Elementary idea of α-amino acids
• Peptide bond
• Polypeptides
• Primary structure of proteins
• Secondary structure of proteins
• Tertiary structure of proteins
• Quaternary structure of proteins (qualitative idea only)
• Denaturation of proteins
• Enzymes

Vitamins

• Classification of vitamins
• Functions of vitamins

Nucleic Acids

• Chemical constitution of DNA
• Chemical constitution of RNA
• Biological functions of nucleic acids

Hormones

• General introduction to hormones

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UNIT 20: PRINCIPLES RELATED TO PRACTICAL CHEMISTRY

Detection of Elements in Organic Compounds

• Detection of nitrogen
• Detection of sulphur
• Detection of halogens

Detection of Functional Groups

• Hydroxyl group (alcoholic)
• Hydroxyl group (phenolic)
• Carbonyl group (aldehydes)
• Carbonyl group (ketones)
• Carboxyl group
• Amino group

Preparation of Compounds

Inorganic Compounds

• Mohr’s salt
• Potash alum

Organic Compounds

• Acetanilide
• p-Nitroacetanilide
• Aniline yellow
• Iodoform

Titrimetric Exercises

• Acid–base titrations
• Use of indicators
• Oxalic acid vs KMnO₄ titration
• Mohr’s salt vs KMnO₄ titration

Qualitative Salt Analysis

Cations

• Pb²⁺
• Cu²⁺
• Al³⁺
• Fe³⁺
• Zn²⁺
• Ni²⁺
• Ca²⁺
• Ba²⁺
• Mg²⁺
• NH₄⁺

Anions

• CO₃²⁻
• S²⁻
• SO₄²⁻
• NO₃⁻
• NO₂⁻
• Cl⁻
• Br⁻
• I⁻
• (Insoluble salts excluded)

Experiments and Chemical Principles

• Enthalpy of solution of CuSO₄
• Enthalpy of neutralization of strong acid and strong base
• Preparation of lyophilic sols
• Preparation of lyophobic sols
• Kinetic study f reaction between iodide ions and hydrogen peroxide at room temperature

UNIT 1: Diversity in Living World

Basic Concepts

• What is living?
• Biodiversity
• Need for classification
• Taxonomy
• Systematics
• Concept of species
• Taxonomical hierarchy
• Binomial nomenclature

Five Kingdom Classification

• Five Kingdom Classification System
• Salient features of Monera
• Classification of Monera into major groups
• Salient features of Protista
• Classification of Protista into major groups
• Salient features of Fungi
• Classification of Fungi into Major Groups
• Lichens
• Viruses
• Viroids

Plant Kingdom

• Salient features of Algae (3–5 distinguishing features)
• Examples of Algae (at least two)
• Salient features of Bryophytes (3–5 distinguishing features)
• Examples of Bryophytes (at least two)
• Salient features of Pteridophytes (3–5 distinguishing features)
• Examples of Pteridophytes (at least two)
• Salient features of Gymnosperms (3–5 distinguishing features)
• Examples of Gymnosperms (at least two)

Animal Kingdom

• Salient features of non-chordates (up to phylum level)
• Examples of non-chordates (at least two per phylum)
• Salient features of chordates (up to class level)
• Examples of chordates (at least two per class)

UNIT 2: Structural Organisation in Animals and Plants

Plant Morphology and Anatomy

• Morphology and modifications
• Plant tissues
• Anatomy of flowering plants
• Structure and functions of the root
• Structure and functions of the stem
• Structure and functions of the leaf
• Inflorescence:
  
  • Cymose
  • Racemose
    
• Structure and functions of the flower
• Structure and functions of fruit
• Structure and functions of the seed

Plant Families (with practical relevance)

• Family Malvaceae
• Family Cruciferae
• Family Leguminosae
• Family Compositae
• Family Gramineae

Animal Structure

• Animal tissues
• Morphology of fa rog (brief account)
• Anatomy of a frog (brief account)
• Digestive system of a frog
• Circulatory system of a frog
• Respiratory system of a frog
• Nervous system of a frog
• The reproductive system of a frog

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UNIT 3: Cell Structure and Function

Cell Basics

• Cell theory
• Cell as the basic unit of life
• Structure of a prokaryotic cell
• Structure of the eukaryotic cell
• Plant cell
• Animal cell

Cell Envelope

• Cell envelope
• Cell membrane
• Cell wall

Cell Organelles

• Structure and function of cell organelles
• Endoplasmic reticulum
• Golgi bodies
• Lysosomes
• Vacuoles
• Mitochondria
• Ribosomes
• Plastids
• Microbodies
• Cytoskeleton
• Cilia (ultrastructure and function)
• Flagella (ultrastructure and function)
• Centrioles (ultrastructure and function)
• Nucleus
• Nuclear membrane

Biomolecules

• Chemical constituents of living cells
• Biomolecules
• Structure and function of proteins
• Structure and function of carbohydrates
• Structure and function of lipids
• Structure and function of nucleic acids

Enzymes

• Types of enzymes
• Properties of enzymes
• Mechanism of enzyme action
• Classification of enzymes
• Nomenclature of enzymes

Cell Division

• Cell cycle
• Mitosis
• Meiosis
• Significance of mitosis
• Significance of meiosis

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UNIT 4: Plant Physiology

Photosynthesis

• Photosynthesis as a means of autotrophic nutrition
• Site of photosynthesis
• Pigments involved in photosynthesis (elementary idea)
• Photochemical and biosynthetic phases
• Cyclic and non-cyclic photophosphorylation
• Chemiosmotic hypothesis
• Photorespiration
• C3 and C4 pathways
• Factors affecting photosynthesis

Respiration

• Exchange of gases
• Cellular respiration:
  
  • Glycolysis
  • Fermentation (anaerobic)
  • TCA cycle
  • Electron transport system (aerobic)
    
• Energy relations – number of ATP molecules generated
• Amphibolic pathways
• Respiratory quotient

Plant Growth and Development

• Seed germination
• Phases of plant growth and plant growth rate
• Conditions of growth
• Differentiation, dedifferentiation, and redifferentiation
• Sequence of developmental processes in a plant cell
• Growth regulators: Auxin, Gibberellin, Cytokinin, Ethylene, ABA

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UNIT 5: Human Physiology

Breathing and Respiration

• Respiratory organs in animals (recall only)
• Human respiratory system
• Mechanism of breathing and its regulation
• Exchange and transport of gases
• Respiratory volumes
• Regulation of respiration
• Disorders: Asthma, Emphysema, Occupational respiratory disorders

Body Fluids and Circulation

• Composition of blood
• Blood groups
• Coagulation of blood
• Composition and function of lymph
• Structure of the human heart and blood vessels
• Cardiac cycle, cardiac output, ECG
• Double circulation
• Regulation of cardiac activity
• Disorders: Hypertension, Coronary artery disease, Angina pectoris, Heart failure

Excretory Products and Their Elimination

• Modes of excretion: Ammonotelism, Ureotelism, Uricotelism
• Human excretory system – structure and function
• Urine formation and osmoregulation
• Regulation of kidney function:
  
  • Renin-angiotensin mechanism
  • Atrial Natriuretic Factor (ANF)
  • ADH
  • Diabetes insipidus
    
• Role of other organs in excretion
• Disorders: Uraemia, Renal failure, Renal calculi, Nephritis
• Dialysis and artificial kidney

Locomotion and Movement

• Types of movement: Ciliary, Flagellar, Muscular
• Skeletal muscle – contractile proteins and muscle contraction
• Skeletal system and its functions (as per practical syllabus)
• Joints
• Disorders: Myasthenia gravis, Tetany, Muscular dystrophy, Arthritis, Osteoporosis, Gout

Neural Control and Coordination

• Neuron and nerves
• Human nervous system:
  
  • Central nervous system
  • Peripheral nervous system
  • Visceral nervous system
    
• Generation and conduction of nerve impulse

Chemical Coordination and Regulation

• Endocrine glands and hormones
• Human endocrine system:
  
  • Hypothalamus
  • Pituitary
  • Pineal
  • Thyroid
  • Parathyroid
  • Adrenal
  • Pancreas
  • Gonads
    
• Mechanism of hormone action (elementary idea)
• Hormones as messengers and regulators
• Hypo- and hyperactivity disorders:
  
  • Dwarfism
  • Acromegaly
  • Cretinism
  • Goiter
  • Exophthalmic goiter
  • Diabetes
  • Addison’s disease

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UNIT 6: Reproduction

Sexual Reproduction in Flowering Plants

• Structure of a flower
• Development of male and female gametophytes
• Pollination – types, agencies, and examples
• Outbreeding devices
• Pollen–pistil interaction
• Double fertilization
• Post-fertilization events:
  
  • Development of endosperm and embryo
  • Development of seed
  • Formation of fruit
    
• Special modes:
  
  • Apomixis
  • Parthenocarpy
  • Polyembryony
    
• Significance of seed and fruit formation

Human Reproduction

• Male and female reproductive systems
• Microscopic anatomy of testis and ovary
• Gametogenesis:
  
  • Spermatogenesis
  • Oogenesis
    
• Menstrual cycle
• Fertilization
• Embryo development up to blastocyst formation
• Implantation
• Pregnancy and placenta formation (elementary idea)
• Parturition (elementary idea)
• Lactation (elementary idea)

Reproductive Health

• Need for reproductive health
• Prevention of sexually transmitted diseases (STDs)
• Birth control – need and methods
• Contraception
• Medical Termination of Pregnancy (MTP)
• Amniocentesis
• Infertility and assisted reproductive technologies:
  
  • IVF
  • ZIFT
  • GIFT
    (Elementary idea for general awareness)
    

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UNIT 7: Genetics and Evolution

Heredity and Variation

• Mendelian inheritance
• Deviations from Mendelism:
  
  • Incomplete dominance
  • Co-dominance
  • Multiple alleles
  • Inheritance of blood groups
  • Pleiotropy
    
• Polygenic inheritance (elementary idea)
• Chromosome theory of inheritance
• Chromosomes and genes
• Sex determination in:
  
  • Humans
  • Birds
  • Honey bee
    
• Linkage and crossing over
• Sex-linked inheritance:
  
  • Haemophilia
  • Colour blindness
    
• Mendelian disorders in humans:
  
  • Thalassemia
    
• Chromosomal disorders in humans:
  
  • Down’s syndrome
  • Turner’s syndrome
  • Klinefelter’s syndrome
    

Molecular Basis of Inheritance

• Search for genetic material
• DNA as genetic material
• Structure of DNA and RNA
• DNA packaging
• DNA replication
• Central dogma
• Transcription
• Genetic code
• Translation
• Gene expression and regulation – Lac Operon
• Genome and Human Genome Project
• DNA fingerprinting
• Protein biosynthesis

Evolution

• Origin of life
• Biological evolution and evidence from:
  
  • Paleontology
  • Comparative anatomy
  • Embryology
  • Molecular biology
    
• Darwin’s contribution
• Modern Synthetic Theory of Evolution
• Mechanism of evolution:
  
  • Variation (Mutation and Recombination)
  • Natural selection (with examples)
  • Types of natural selection
    
• Gene flow and genetic drift
• Hardy–Weinberg principle
• Adaptive radiation
• Human evolution

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UNIT 8: Biology and Human Welfare

Health and Disease

• Health and disease
• Pathogens
• Parasites causing human diseases:
  
  • Malaria
  • Filariasis
  • Ascariasis
  • Typhoid
  • Pneumonia
  • Common cold
  • Amoebiasis
  • Ringworm
  • Dengue
  • Chikungunya
    
• Basic concepts of immunology – Vaccines
• Cancer
• HIV and AIDS
• Adolescence
• Drug and alcohol abuse
• Tobacco abuse

Microbes in Human Welfare

• Household food processing
• Industrial production
• Sewage treatment
• Energy generation
• Biocontrol agents
• Biofertilizers

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UNIT 9: Biotechnology and Its Applications

Principles and Processes of Biotechnology

• Genetic engineering
• Recombinant DNA technology

Applications of Biotechnology

• Applications in health and agriculture
• Human insulin production
• Vaccine production
• Gene therapy
• Genetically Modified Organisms (GMOs) – Bt crops
• Transgenic animals
• Biosafety issues – Biopiracy and patents

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UNIT 10: Ecology and Environment

Organisms and Environment

• Population interactions:
  
  • Mutualism
  • Competition
  • Predation
  • Parasitism
    
• Population attributes:
  
  • Growth
  • Birth rate
  • Death rate
  • Age distribution

Ecosystem

• Patterns and components
• Productivity and decomposition
• Energy flow
• Ecological pyramids:
  
  • Pyramid of numbers
  • Pyramid of biomass
  • Pyramid of energy

Biodiversity and Its Conservation

• Concept of biodiversity
• Patterns of biodiversity
• Importance of biodiversity
• Loss of biodiversity
• Biodiversity conservation
• Hotspots
• Endangered organisms
• Extinction
• Red Data Book
• Biosphere reserves
• National parks and wildlife sanctuaries
• Sacred groves