SYLLABUS OF NEET EXAM

NEET SYLLABUS FOR PHYSICS

 

Detailed Syllabus of Physics is described below:

PHYSICS AND MEASUREMENT

1. Physics Technology and society

2. SI Units

3. Fundamental and Derived Units

4. Least count

5. Accuracy and precision of Measuring instruments

6. Errors in measurements

7. Dimensions of Physical Quantities

8. Dimensional Analysis and its Applications

KINEMATICS

1. Frame of Reference

2. Motion in straight line

3. Position time Graph

4. Speed and Velocity

5. Uniform and Non-Uniform motion

6. Vector and Types of Vectors

7. Relative Velocity

8. Motion in Plane

9. Projectile Motion

10.  Uniform Circular Motion

LAWS OF MOTION

1. Force and Inertia; Newton’s First law of Motion

2. Momentum; Newton’s Second law of Motion

3. Impulse; Newton’s Third law of Motion

4. Law of Conservation of Linear Momentum and its Applications

5. Equilibrium in Concurrent forces

6. Static and Kinetic Friction

7. Laws of Friction

8. Rolling of Friction

9. Dynamics and Uniform Circular Motion

10.  Centripetal force and its applications

WORK, POWER AND ENERGY

1. Work done by constant and Variable Forces

2. Kinetic Energy and Potential Energy

3. Work Energy Theorem

4. Potential Energy of a Spring

5. Conservation of Mechanical Energy

6. Conservative and Non-conservative forces

7. Elastic and Inelastic Collision in one and two Dimensions

ROTATIONAL MOTION

1. Centre of Mass of two Particle System

2. Centre of Mass of Rigid Body

3. Basic concept of Rotational Motion

4. Moment of Force

5. Torque

6. Angular Momentum

7. Conservation of Angular Momentum and its Applications

8. Moment of Inertia

9. Radius of Gyration

10.  Rigid Body Rotation

11.  Equation of Rotational Motion

GRAVITATION

1. The Universal Law of Gravitation

2. Acceleration due to Gravity and variation with Altitude and Depth

3. Kepler’s Law of Planetary Motion

4. Gravitational Potential Energy

5. Orbital Velocity Satellite

6. Geo-Stationary Satellite

PROPERTIES OF SOLID AND LIQUID

1. Elastic Behaviour

2. Stress-Strain Relationship

3. Hooke’s Law

4. Young Modulus

5. Bulk Modulus

6. Modulus of Rigidity

7.  Pressure due to Fluid Column

8. Pascal’s Law and its Applications

9. Bernoulli’s Principle and its Applications

10.  Surface Energy and Surface Tension

11.  Application of Surface Tension

12.  Heat

13.  Temperature

14.  Thermal Expansion

15.  Specific Heat capacity

16.  Calorimetry

17.  Change of Heat

18.  Latent Heat

19.  Transfer of Heat

20.  Radiation

21.  Newton’s Law of Cooling

THERMODYNAMICS

1. Thermal Equilibrium

2. Zeroth Law of Thermodynamics

3. Concept of Temperature

4. First Law of Thermodynamics

5. Second Law of Thermodynamics

6. Reversible and Irreversible Processes

7. Carnot Engine and its Efficiency

KINETIC THEORY OF GASES

1. Equation of State of Perfect Gas

2. Work done on Compressing a Gas

3. Kinetic Theory of Gases Assumptions

4. RMS Speed of Gas Molecules

5. Degrees of Freedom

6. Law of Equipartition of Energy

7. Applications of Specific Heat Capacity

8. Mean Free path

9. Avogadro’s Number

OSCILATIONS AND WAVES

1. Periodic Motion

2. Simple Pendulum

ELECTROSTATICS

1. Electric Charges

2. Coulomb’s Law

3. Electric Field Lines

4. Electric Dipole

5. Electric Flux

6. Gauss’s Law

7. Equipotential Services

8. Conductors and Insulators

9. Dielectric and Electric Polarization

10.  Parallel Plate Capacitor

11.  Energy Stored in Capacitor

CURRENT ELECTRICITY

1. Electric Current

2. Drift Velocity

3. OHM’S Law

4. Ohmic and Non-Ohmic Conductors

5. Electrical Resistance

6. Electrical Energy, Power

7. Electrical Resistivity

8. Kirchhoff’s Law and its Applications

9. Wheatstone’s Bridge

10.  Meter Bridge

11.  Potentio-meter and its applications

MAGNETIC EFFECT OF CURRENT AND MAGNETISM

1. Biot-Savart Law

2. Ampere’s Law

3. Magnetic Susceptibility and Permeability

4. Hysteresis

5. Electromagnets and Permanent Magnets

ELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENT

1. Electromagnetic Induction

2. Faraday’s Law

3. Lenz’s Law

4. Eddy Current

5. Self and Mutual Inductance

6. Alternating Current

7. Peak and RMS Value of Alternating Current

8. Voltage Resistance and Independence

9. LCR-Series Circuit

10.  Resonance

11.  Quality Factors

12.  Power in AC Circuit

13.  Wattles Current

14.  AC Generator and Transformers

ELECTROMAGNETIC WAVES

1. Electromagnetic waves and its Characteristics

2. Transverse Nature of Electromagnetic Waves

3. Electromagnetic Spectrum

4. Microwaves

5. Infra-Red Rays

6. Application of Electromagnetic Waves

OPTICS

1. Reflection and Refraction of Light at Plane and Spherical Surface

2. Mirror Formula

3. Derivation and Depression of Light by Prism and Lens Formula

4. Magnification Power of Lens

5. Combination of Thin Lens in Contract

6. Huygens’s Principle

7. Young’s Double slit Experiment

8. Coherent Sources

9. Diffraction due to a Single Slit

10.  Resolving Power of Microscope and Astronomical Telescope

11.  Brewster’s Law

12.  Uses of Plane Polarized Lights and Polaroids

DUAL NATURE OF MATTER AND RADIATION

1. Dual Nature of Radiation

2. Photo-Electric Effect

3. Hertz and Lenard’s observations

4. Einstein’s Photo Electric Equation

5. Matter Waves-Wave nature of Particles

6. De-Broglie Relation

7. Davis-son Germer Experiment

ATOMS AND NUCLEI

1. Alpha Particle and Scattering Experiment

2. Rutherford Model of Atom

3. Bohr Model

4. Energy Level

5. Hydrogen Spectrum

6. Composition and size of Nucleus

7. Atomic Masses

8. Isotope, Isobars, Isotones

9. Radioactivity

10.  Radioactive Decay Law

11.  Mass Energy Relation

12.  Mass Defect

13.  Nuclear Fission and Fusion

 

NEET SYLLABUS FOR CHEMISTRY

 

Detailed Syllabus of Chemistry is described below:

SOME BASIC CONCEPTS OF CHEMISTRY

1. General Introduction

2. Laws of Chemical Combination

3. Dalton’s Atomic Theory

4. Concepts of Elements

5. Atoms and Molecules

6. Atomic and Molecular Masses

7. Mole Concept and Molar Mass

8. Empirical and Molecular Formula

9. Chemical Reactions

10.  Stoichiometry and Calculations based on Stoichiometry

STRUCTURE OF ATOM AND DETAILS

1. Atomic Numbers

2. Isotopes and Isobars

3. Concept of Shells and Sub-Shells

4. Dual Nature of Matter and Light

5. De-Broglie’s Relationship

6. Heisenberg Uncertainty Principle

7. Concept of Orbital

8. Quantum Numbers

9. Shape of S, P and D Orbital

10.  Afbau Principle

11.  Pauli Exclusion Principle and Hund’s Rule

12.  Electronic Configuration

13.  Stability of Half-Filled and Completely Filled Orbitals

CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES

1. Modern Periodic Table and Long Form of Periodic Table

2. Periodic Trends in Properties of Elements

CHEMICAL BONDING AND MOLECULAR STRUCTURE

1. Valence Electron

2. Ionic Bond

3. Covalent Bond

4. Bond Parameters

5. Lewis Structure

6. Polar Character of Covalent Bond

7. Valence Bond Theory

8. Resonance

9. Geometry of Molecule

10.  Concept of Hybridization

11.  Molecular Orbital Theory

12.  Diatomic Molecules

STATES OF MATTER: GASES AND LIQUIDS

1. Three States of Matter

2. Intermolecular Interactions

3. Types of Bonding

4. Melting and Boiling Point

5. Boyle’s Law

6. Gay Loussac’s Law

7. Avogadro’s Number

8. Ideal Behavior of Gases

9. Empirical Derivation of Gas Equation

10.  Kinetic Energy of Molecular Speeds

11.  Liquefaction of Gases

12.  Critical Temperature

13.  Liquid State; Vapour Pressure, Viscosity and Surface Tension

THERMODYNAMICS

1. First Law of Thermodynamics-Internal Energy and Enthalpy

2. Heat Capacity and Specific Heat

3. Hess’s Law of Constant Heat Summation

4. Enthalpy of Bond Dissociation

5. Introduction of Entropy as State Function

6. Second Law of Thermodynamics

7. Gibbs Energy; Changes for Spontaneous and Non-Spontaneous Processes

8. Third Law of Thermodynamics

EQUILIBIRIUM

1. Equilibrium in Physical and Chemical Processes

2. Lively Nature of Equilibrium

3. Law of Chemical Equilibrium

4. Equilibrium Constant

5. Factors Affecting Equilibrium

6. Le-Chatleir’s Principle; Ionic Equilibrium

REDOX REACTION

1. Concept of Oxidation and Reduction

2. Redox Reaction Oxidation Number

3. Balancing Redox Reaction in Terms of Loss and Gain of Electrons and Change in Oxidation Number

HYDROGEN

1. Occurrence

2. Isotopes

3. Properties and Uses of Hydrogen

4. Physical and Chemical Properties of Water

5. Hydrogen per-oxide Preparations

6. Reaction

7. Uses and Structure

S-BLOCK ELEMENTS

1. General Introduction

2. Preparations and Properties of some important Compounds

3. Biological Importance of Sodium and Potassium

4. Industrial use of Lime and Limestone

5. Biological Importance of Sodium and Potassium

6. Industrial use of Lime and Limestone

7. Biological Importance of Magnesium and Calcium

ORGANIC CHEMISTRY; SOME BASIC PRINCIPLE AND TECHNIQUES

1. General Introduction

2. Electronic Displacement

3. Homolytic and Heterolytic Fisson of Covalent Bond

HYDROCARBONS

1. Alkanes

2. Alkenes

3. Alkynes

4. Aromatic Compounds

ENVIROMENTAL CHEMISTRY

1. Environmental Pollution

SOLID STATE

1. Classification of Solids Depends on different Binding Forces

2. Unit Cell in Two Dimensional and Three Dimensional Latticles

3. Calculation of Density of Unit Cell

4. Band Theory of Conductors; Semiconductors, Insulators

SOLUTIONS

1. Types of Solutions

2. Expressions of Concentration of Solutions to Solids in Liquids

3. Solubility of Gases in Liquids

4. Solid Solution

5. Colligative Properties-Relative Lowering in Vapour Pressure

6. Raoult’s Law

7. Elevation of Boiling Point

8. Depression of Freezing Point

9. Osmotic Pressure

10.  Determination of Molecular Mass using Colligative Properties

11.  Van-Hoff Factor

ELECTROCHEMISTRY

1. Redox Reaction

2. Conductance in Electrolytic Solution

3. Law of Electrolysis

4. Dry cell

5. Lead Accumulator

6. EMF of a Cell

7. Corrosion

CHEMICAL KINETICS

1. Rate of Reaction

2. Factors Affecting Rate of Reaction

3. Concentration

4. Temperature

5. Catalyst; Order and Molecularity of Reaction

6. Concept of Collison Theory

7. Activation Energy

8. Arrhenius Equation

SURFACE CHEMISTRY

1. Adsorption

2. Factors Affecting Adsorption of Gases on Solids

3. Catalyst

4. Colloidal State

5. Colloids and Suspension

6. Iophobic Multimolecular and Macromolecular Colloids

7. Tyndall Effect

8. Brownian Movement

9. Electrophoresis

10.  Emulsion; Types of Emulsion

GENERAL PRINCIPLE AND PROCESSES OF ISOLATION OF ELEMENTS

1. Principles and Methods of Extraction

2. Occurrence

P-BLOCK ELEMENTS

1. Group-15 Elements

2. Group-16 Elements

3. Group-16 Elements

4. Group-18 Elements

D AND F BLOCK ELEMENTS

1. General Introduction

2. Lanthanoids

3. Actinoids

COORDINATION COMPOUNDS

1. Introduction

2. Ligands

3. Coordination Number

4. Magnetic Properties and Shape

5. IUPAC Nomenclature of mono-nuclear Coordination Compounds

6. Isomerism

7. Werner’s Theory

HALOALKANES AND HALOARENES

1. Haloalkanes

2. Haloarenes

3. Uses and Environmental Effects

ALCOHOL, PHENOL AND ETHERS

ALDEHYDES, KETONES AND CARBOXYLIC ACIDS

BIOMOLECULES

1. Carbohydrates

2. Proteins

3. Hormones

4. Vitamins

5. Nucleic Acids

POLYMERS

1. Classification

2. Bio-degradable and Non-Biodegradable Polymers

CHEMISTRY IN EVERYDAY LIFE

1. Chemicals in Medicines

2. Chemicals in Food

3. Cleansing Agents

 

NEET SYLLABUS FOR BIOLOGY

 

Detailed Syllabus of Chemistry is described below:

THE LIVING WORLD

1. What is Living?

2. Diversity in Living World

3. Taxonomic categories

4. Taxonomical Aids

BIOLOGICAL CLASSIFICATION

1. Five Kingdom Classification

2. Kingdom Monera

3. Kingdom Protista

4. Kingdom Fungi

5. Viruses and Viroids

6. Lichens

PLANT KINGDOM

1. Algae

2. Bryophytes

3. Pteridophytes

4. Gymnosperms

5. Angiosperms

ANIMAL KINGDOM

1. Basis of classification

2. Phylum Protozoa

3. Phylum Porifera

4. Phylum Coelenterate

5. Phylum Ctenophora

6. Phylum platyhelminths

7. Phylum Aschelminths

8. Phylum Annelida

9. Phylum Arthropoda

10.  Phylum Mollusca

11.  Phylum Echinodermata

12.  Phylum Hemichordate

13.  Phylum Chordata

MORPHOLOGY OF FLOWERING PLANTS

1. Root

2. Stem

3. Leaf

4. Inflorescence and flower

5. Fruit and seed

6. Angio spermic Families

ANATOMY OF FLOWERING PLANTS

1. Tissues and Tissue systems

2. Anatomy of Dicot and Monocot Plants

3. Secondary Growth

STRUCTURAL ORGANISATION IN ANIMALS

1. Animal Tissue

2. Earthworm

3. Cockroach

4. Frog

CELL: THE UNIT OF LIFE

1. Cell Theory and overview of cell

2. Prokaryotic Cells

3. Eukaryotic Cells

BIOMOLECULES

1. How to analyze Chemical Composition?

2. Proteins

3. Polysaccharides

4. Lipids

5. Nucleic Acids

6. Enzymes

CELL CYCLE AND CELL DIVISON

1. Cell Cycle

2. Mitosis

3. Meiosis

TRANSPORT IN PLANTS

1. Means of Transport

2. Plant water Relations

3. Long Distance Transport of Water

4. Transpiration

5. Uptake and Transport of Mineral Nutrients

6. Phloem Transport; Flow from source to sink

MINERAL NUTRITION

1. Methods to study the Mineral Requirements of Plants

2. Essential Mineral Elements; Mechanism of Absorption of Elements

3. Translocation of Solutes; Soil as Reservoir of essential elements

4. Metabolism of Nitrogen

PHOTOSYNTHESIS IN HIGHER PLANTS

1. Early Experiment of Photosynthesis

2. Site of Photosynthesis

3. Pigments involved in photosynthesis

4. Mechanism of Photosynthesis

5. Light reaction and Dark reaction

6. Factors affecting Photosynthesis

RESPIRATION IN PLANTS

1. Respiration

2. Glycolysis

3. Fermentation

4. Krebs cycle

5. Respiratory quotient

PLANT GROWTH AND DEVELOPMENT

1. Growth Differentiation and Development

2. Plant Growth Regulators

3. Photoperiodism

4. Seed Dormancy

5. Miscellaneous Section

DIGESTION AND ABSORPTION

1. Digestive System

2. Digestion and Absorption of Digested Products

3. Disorders of Digestive systems

BREATHING AND EXCHANGE OF GASES

1. Respiratory organs

2. Mechanism of Breathing

3. Exchange and Transport of Gases

4. Regulation of Respiration

5. Disorders of Respiration

BODY FLUIDS AND CIRCULATION

1. Blood/Lymph

2. Circulatory pathways

3. Double Circulation

4. Regulation of Cardiac Activity

5. Disorders of Circulatory systems

EXCRETORY PRODUCTS AND ELIMINATION

1. Excretory Products of Different Animals

2. Human Excretory System

LOCOMOTION AND MOVEMENT

1. Muscles

2. Skeletal Systems

3. Joints

4. Disorders of Musculo-skeletal skeletal systems

CHEMICAL COORDINATION AND INTEGERATION

1. Endocrine glands

2. Human Endocrine system

3. Mechanism of Hormone Action

REPRODUCTION IN ORGANISMS

1. Asexual Reproduction

2. Sexual Reproduction

SEXUAL REPRODUCTION IN FLOWERING PLANTS

1. Pre-Fertilization Structures

2. Pre fertilization Events

3. Double Fertilization

4. Special Mechanism of Reproduction

HUMAN REPRODUCTION

1. The Male Reproductive system

2. The Female Reproductive system

3. Gametogenesis

4. Menstrual cycle

5. Fertilization and Implantation

6. Pregnancy and Embryonic Development

7. Parturition and Lactation

REPRODUCTIVE HEALTH

1. Problems and Strategies

2. Population Explosion and Birth control

3. Medical Termination of Pregnancy

4. Sexually Transmitted Disease

5. Infertility

PRINCIPLES OF INHERITANCE AND VARIATION

1. Mendel’s Law of Inheritance

2. Inheritance of one Genes

3. Inheritance of Two Genes

4. Sex Determination

5. Mutation

6. Genetic Disorders

MOLECULAR BASIS OF INHERITANCE

1. The DNA

2. The search of Genetic material

3. The RNA

4. Replication

5. Transcription

6. Genetic code

7. Translation

8. Regulation of Gene Expression

9. Human Genome project

10.  DNA Fingerprinting

EVOLUTION

1. Origin of Life

2. Evolution of Life

3. Hardy-Weinberg Principle and Evolution of man

HUMAN HEALTH AND DISEASES

1. Common Diseases in Human

2. Immunity

3. Drugs and Alcohol abuse

STRATEGIES OF ENHANCEMENT IN FOOD PRODUCTION

1. Animal Husbandry

2. Plant Breeding

3. Single cell Protein

4. Tissue Culture

MICROBES IN HUMAN WELFARE

1. Microbes in Household Products/Industrial products/sewage treatment

2. Microbes in production of Biogas/ As Biocontrol Agents/ As Biofertilizers

BIOTECHNOLOGY PRINCIPLES AND PROCESSES

1. Principles of Bio-technology/Tools of Recombinant

2. DNA Technology

3. Principles of Recombinant DNA Technology

BIOTECHNOLOGY AND ITS APPLICATIONS

1. Biotechnology Applications in Agriculture

2. Biotechnology Applications in Medicines

3. Transgenic Animals Ethical Issues

ORGANISMS AND POPULATION

1. Organism and Environment

2. Adaptation

3. Population Attributes

4. Population Interaction

ECOSYSTEM

1. Ecosystem and its Functions

2. Energy Flow

3. Ecological Pyramids

4. Succession in Ecosystem

5. Nutrient Cycles

BIODIVERSITY AND CONSERVATION

1. Biodiversity

2. Pattern of Biodiversity

3. Loss of Biodiversity

4. Biodiversity conservation

ENVIRONMENTAL ISSUES

1. Air Pollution and its control

2. Water Pollution and its control

3. Solid Waste

4. Argo chemicals and their effects

5. Radioactive waste

6. Greenhouse effect and Global warming

7. Ozone Depletion

8. Deforestation

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