Table of Contents
The National Testing Agency (NTA) organizes NEET annually, which is India’s biggest medical entrance test. Aspirants aiming for a strong performance often look for topics within NEET 2024 that are both easy to understand and score well on. Identifying these chapters can help candidates focus their preparation effectively and avoid wasting time on unnecessary ones.
Although every topic in the NEET syllabus is important, knowing which chapters cover simpler concepts can be advantageous. In this blog, we have compiled a list of such chapters for Physics, Chemistry, and Biology.
By reading the complete article, you can gain valuable insights to enhance your NEET preparation strategy, ensuring a thorough and efficient approach to tackling the exam.
NEET 2024 Easy and Scoring Chapters
In the newest NEET 2024 syllabus from the National Medical Commission, some topics have been removed from the subjects. To excel in the NEET 2024 exam, students should focus on chapters that are clear and offer good scoring potential. Check the tables below for guidance on these topics.
Also Check: NEET Class 11 Online Course
Do-or-Die Topics of Biology To Get 360 /360
NEET 2024 Easy and Scoring Chapters in Physics
Preparing for the NEET 2024 exam requires strategic focus, especially on mastering physics topics. Recognizing the simpler chapters in physics can greatly enhance a candidate’s readiness.
Also Check: NEET Class 12 Online Course
Although all topics are crucial, concentrating on specific chapters can offer a competitive advantage. Refer to the table below for a list of physics chapters that are both manageable and high-scoring for NEET aspirants.
NEET 2024 Easy and Scoring Chapters in Physics | ||
Unit name | Topics | Sub-topics |
Physics and Measurement | Physical quantities and units | Practical units |
System of unit | ||
Physical quantity | ||
Errors and Significant figures | Significant figures | |
Errors of measurements | ||
Error in quantity raised to some power | ||
Dimension analysis and its application | Application of Dimensional analysis (II)- To convert a physical quantity from one system to other | |
Momentum, Impulse , Angular momentum, Angular impulse | ||
Application of Dimensional analysis (V)- As a research tool to derive new relations | ||
Dimension | ||
Dimensionless Quantities | ||
Frequency, angular frequency, angular velocity, velocity gradient | ||
Heat, Latent heat , Specific heat capacity and Temperature | ||
Work, Potential Energy, Kinetic Energy, Torque | ||
Kinematics | 2D motion | Uniform circular motion |
Relative Velocity | ||
Physical quantities in kinematics | Speed and velocity | |
Kinematics graphs | ||
Laws of motion | Applications of Newton’s 2nd and 3rd Laws of motion | Spring Force |
Rocket Propulsion | ||
Motion of blocks when connected with string | ||
Friction | Acceleration of block against friction | |
Kinetic Friction | ||
Static Friction | ||
Newton’s First Law | Newton’s First law of motion | |
Common forces in mechanics | ||
Equilibrium of concurrent forces | ||
Dynamics of uniform circular motion | Skidding of Vehicle on a Level Road | |
Work, energy and power | Collision | Head on inelastic collision |
Perfectly inelastic collision | ||
Types of collision | ||
Perfectly Elastic Head on Collision | ||
Energy and Power | Power | |
Potential energy curve | ||
Work | Nature of Work Done | |
Motion of System Of Particles and Rigid Body | Rigid body and its centre of Mass | Position of centre of mass for solid cone |
Moment of Inertia | Moment of inertia of a RING | |
Moment of inertia of a DISC | ||
Moment of inertia of a Rod | ||
Basic concepts of rotational motion | Equations of Linear Motion and Rotational Motion | |
Torque | ||
Conservation of angular momentum and its applications | Angular Momentum | |
Work, Energy and Power for Rotating Body | ||
Gravitation | Planets and satellites | Kepler’s Laws of Planetary Motion |
Universal law of gravitation | Newton’s law of Gravitation | |
Acceleration due to gravity and it’s variation | Acceleration due to gravity (g) | |
Gravitational field Intensity | Gravitational field due to Point mass | |
Properties of bulk matter | Fluid dynamics | Viscosity |
Flow of Fluids | ||
Equation of Continuity | ||
Applications of Bernoulli’s Theorem | ||
Heat transfer | Basics of conduction | |
Law of Thermal Conductivity | ||
Stefan Boltzmann law | ||
Properties of Solids | Stress and its types | |
Hooke’s law | ||
Fluid statics | Variation of pressure | |
Thermodynamics | Second law of Thermodynamics | Carnot Engine |
Second Law of Thermodynamics | ||
Entropy | ||
Thermodynamics Processes | Cyclic and Non cyclic process | |
Introduction to Thermodynamics | Introduction to Thermodynamics | |
Thermodynamic variables and equation of state | ||
First law of thermodynamics | First law of Thermodynamics | |
Behaviour of Perfect Gas and Kinetic theory | Law of equipartition of energy | Kinetic energy of ideal gas |
States of matter | States of matter | |
Ideal gas, its equation and laws of ideal gas | Gas laws | |
Gas Law | Ideal Gas Equation | |
Oscillations and Waves | Waves on a string | Standing waves |
General equation of travelling | ||
Speed of transverse wave on a string | ||
Sound Wave | Beats | |
Propagation of sound wave | ||
Standing longitudinal wave | ||
End correction | ||
Oscillation in a spring | Spring System | |
Simple harmonic motion (SHM) | Simple harmonic motion | |
Terms associated with SHM | ||
Simple harmonic as projection of circular motion | ||
Electrostatics | Electric potential | Relation between electric field and potential |
Equipotential surface | ||
Capacitors | Combination of capacitors | |
Electric field | Electric field | |
Electric field lines | ||
Electrostatic Potential energy | Electrostatic Potential energy | |
Capacitors | Capacitor | |
Current Electricity | Ohm’s Law | Ohm’s Law |
Wheatstone’s Bridge and Meter Bridge | Meter Bridge | |
Cell and Combination of Cell | Series and Parallel Grouping of cell | |
Emf of a cell when the cell is charging and discharging and Open circuit and Short circuit | ||
Kirchhoff Law | KCL, KVL, Conservation of charge and Energy and introduction to Galvanometer | |
Voltmeter | ||
Resistance and Resistivity | Colour coding of Resistance | |
Potentiometer | Potentiometer | |
Electric Current | Current Density | |
Magnetic Effects of Current and Magnetism | Motion of a charged particle in uniform magnetic and electric fields | Lorentz force |
Force on a moving charge in magnetic field | ||
Moving coil galvanometer | Moving coil galvanometer | |
Biot-Savart Law and its applications | Magnetic field on the axis of circular current loop | |
Magnetic force on a current carrying conductor | Magnetic force on a current carrying conductor | |
Magnetism and matter | Magnetisation and magnetic intensity | |
Ampere’s law and its applications | Solenoid | |
Torque on a current loop, Magnetic Dipole | Torque on a rectangular current loop in a uniform magnetic field | |
Circular current loop as magnetic dipole | ||
Biot-Savart Law and its applications | Magnetic Field due to current in straight wire | |
Electromagnetic Induction and alternating Currents | AC circuits | AC voltage applied to a resistor |
Power in an AC circuit | ||
AC voltage applied to a capacitor | ||
Motional Electromotive force | Motional Electromotive force(I) | |
Motional Electromotive force(II) | ||
Motional Electromotive force(III) | ||
Energy consideration in Motional Emf | ||
Inductance | Mutual Inductance | |
Mutual Inductance for two coaxial long solenoids | ||
Mutual Inductance for a pair of concentric coils | ||
Introduction to electromagnetic induction | Magnetic flux | |
Electromagnetic Waves | Maxwell’s Displacement Current | Displacement current |
Optics | Interference and Diffraction of light wave | YDSE with thin slab |
Lenses | Power of lens and mirror | |
Magnification in Lenses | ||
Combination of thin lens in contact | ||
Lenses at a distance | ||
Reflection of light | Spherical mirrors | |
Mirror formula | ||
Refraction | Refraction | |
Total Internal Reflection | ||
Optical Instruments | Compound Microscope | |
Refraction through a Prism | Refraction Through A Prism 1 | |
Refraction Through A Prism 2 | ||
Dispersion Of Light 1 | ||
Polarization of light | Polarization of light | |
Malus’s Law | ||
Interference and Diffraction of light wave | Interference of light waves- 1 | |
Interference of light waves- 2 | ||
Dual Nature of Matter and Radiation | Photoelectric Effect | Einstein’s Photoelectric equation |
Graphs in Photoelectric effect | ||
Photon counts,Flux and Intensity of radiation | Force exerted on a surface due to radiation | |
Wave nature of matter | Davisson-Germer Experiment | |
Atoms And Nuclei | X-rays | Characteristic X-Rays |
Continuous X-ray | ||
Bohr’s model | Bohr’s Model of hydrogen atom | |
Energy of electron in nth orbit | ||
Nuclei | Binding Energy Per Nucleon | |
Nuclear Force and Stability | ||
Atomic Collision | ||
Electronic devices | Semiconductors and its types | Zener diode |
Band Theory of solids | ||
Optoelectronic junction devices | ||
Classification of solids on the basis of Band theory | ||
Semiconductor Diode(I) | ||
Extrinsic Semiconductor | ||
Semiconductor Diode(II) | ||
Transistor and its applications | Transistor as a device |
NEET 2024 Easy and Scoring Chapters in Chemistry
When getting ready for NEET 2024 chemistry, prioritizing simple but crucial chapters can make a significant difference. Mastering these basic topics thoroughly establishes a strong base, empowering students to approach more challenging subjects with assurance. Here’s a handy list of easy NEET chemistry chapters for students to check out.
Also Check: NEET Repeater Course
NEET 2024 Easy and Scoring Chapters in Chemistry | ||
Unit name | Topics | Sub-topics |
Basic concepts of Chemistry | Stoichiometry, Stoichiometric Calculations | Reactions in Solutions |
Stoichiometry, Stoichiometric Calculations And Limiting Reagent | ||
Percentage Composition | Empirical Formula And Molecular Formula | |
Structure of Atom | Heisenberg’s uncertainty principle | Heisenberg’s uncertainty principle |
Quantum mechanical model of atom | Quantum Numbers | |
Aufbau Principle, Pauli Exclusion Principle and Hund’s Rule of Maximum Multiplicity | ||
Classification of elements and periodicity in properties | Modern periodic law and the present form of the periodic table | Long form of Modern periodic table |
Electronic configurations and types of elements:s-, p-, d-, f-, blocks | Classification of Elements: s-block | |
Periodic trends in properties of elements | Physical Properties of Elements | |
Chemical Properties of Elements | ||
Chemical Bonding and molecular structure | Hydrogen Bonding | Hydrogen Bonding |
Bond Parameter | Bond Parameters: Order, Resonance, Resonance Hybrid | |
Bond Parameters: length, angle, energy, strength | ||
Hybridisation | Hybridisation | |
Electronic Theory of Chemical Bonding | Lewis Representation of Simple Molecules (Lewis Structure) | |
Limitations of The Octet Rule | ||
Valence Bond Theory | Fazan’s Rule and Covalent Character in Ionic Bond | |
p pi-p pi and p pi -d pi bonding | ||
The Valence Shell electron Pair Repulsion Theory | VSPER (Valence Shell Electron Pair Repulsion) Theory | |
Bonding in Coordination Compounds | Valence Bond Theory | |
Polarity of Bonds | Dipole Moment | |
States of Matter : Gases and liquids | Intermolecular Forces | Intermolecular Forces |
Gas Law | The Gas Laws- Boyle’s Law (Pressure – Volume Relationship) | |
Behaviour of Real Gases: Deviation from Ideal Gas Behaviour | Behaviour of Real Gases: Deviation from Ideal Gas Behaviour | |
Terms used for Heat of reaction | Enthalpy Of Dissociation, Atomisation And Phase Change | |
Laws of Thermodynamics | Adiabatic Reversible And Irreversible Expansion | |
Thermodynamics | Terms used for Heat of Reaction | Lattice Enthalpy, Hydration Enthalpy And Enthalpy Of Solution |
Thermochemistry And Enthalpy For Chemical Reaction | ||
Hess’s Law | ||
Enthalpy Of Combustion | ||
Spontaneity | Gibbs Energy And Change In Gibbs Energy | |
Thermodynamic Process | Reversible, Irreversible, Polytropic Process | |
Equilibrium | Ionization of Acids and Bases | pH of Solutions: Strong Bases |
Law of Chemical Equilibrium and Equilibrium Constant | Types of Equilibrium Constant | |
Buffer Solutions | Calculating pH of a Buffer Solution (acidic) | |
Working of Acidic Buffer | ||
Basic Buffers | ||
Factors affecting Equilibria | Le Chatelier’s principle(P, C) | |
Le Chatelier’s principle(T, Innert Gas) | ||
Redox Reactions | Oxidation Number and Oxidation State | Oxidation Number and Oxidation State |
Types of Redox Reactions | Types of Redox Reactions | |
Balancing of Redox Reaction | Balancing of Redox Reaction: Oxidation Number Method | |
Hydrogen | Water | Hard and Soft Water |
Position of Hydrogen in the Periodic Table | Occurrence of Hydrogen – Isotopes of Hydrogen | |
Properties of Dihydrogen | Uses of Hydrogen | |
s- Block Elements ( Alkali and Alkaline earth metals ) | General Characteristics of the Compounds of the Alkali Metals | Halides of Alkali Metals |
Some Important Compounds of Sodium | Sodium Chloride and Sodium Hydroxide | |
Properties of Alkali Metals | Chemical Properties of Alkali Metals – 1 | |
Chemical Properties of Alkali Metals – 2 | ||
Group 2 Elements: Alkaline EarthMetals | Alkaline Earth Metals (Physical Properties) | |
Some Important Compounds of Calcium | Calcium Carbonate – CaCO3 and Calcium Sulphate (Plaster of Paris) – CaSO4·1⁄2H2O | |
Some p-Block elements | Group-18: Occurrence and uses of noble gases; Structures of fluorides and oxides of xenon. | Physical Properties |
Some Important Compounds of Halogens | Interhalogen Compounds | |
Hydrides | ||
Some Important Compounds of Carbon and Silicon | Silicones | |
SiO2 | ||
Group 13 Elements: The Boron Family | Physical Properties of Group 13 | |
Physical Properties of Group 13 – 2 | ||
Group 16 Elements | Chemical Properties – 1 | |
Group 16: Oxygen Family – Physical Properties | ||
Group 14 Elements: The Carbon Family | Allotropic Form of Carbon (Diamond) | |
Allotropic Form of Carbon (Graphite) | ||
Group 15 Elements | Group 15 – Physical and Chemical Properties | |
Chemical Properties – 2 | ||
Important Compounds of Phosphorus | Phosphine and Phosphorus Chloride | |
Important Trends and Anomalous Properties of Boron | Chemical Properties of Group 13 | |
Important Compounds of Oxygen | Oxides | |
Organic Chemistry – some Basic principles and techniques | Classification of Organic Compounds | Functional Group |
Methods of Purification of Compounds | Chromatography | |
Sublimation and Crystallisation | ||
Distillation under reduced pressure and Steam distillation | ||
Fundamental Concepts in Organic Reaction Mechanism | Nucleophiles and Electrophiles | |
Qualitative Analysis of Organic Compounds | Test for Halogens | |
Applications | Applications of Hyperconjugation | |
Quantitative Analysis | Carius Method (Halogen and Sulfur) | |
Hydrocarbons | Alkenes | Reduction of Alkynes to Alkenes |
Dehalogenation of Vicinal Halides | ||
Alkanes | Preparation of Alkanes (Corey House Reaction, Reduction of Alkyl Halides by LiAlH4, Wurtz Reaction) | |
Chemical Properties (Free Radical Reaction, Chlorination, Nitration and Sulphonation) | ||
Chemical Properties (Combustion, Catalytic Oxidation, Isomerisation, Aromatisation and Pyrolysis) | ||
Preparation of Alkanes (Reduction of Alkenes/Alkynes) | ||
Alkynes | Hydrohalogenation and Halogenation of Alkynes | |
Environmental Chemistry | Chemical reactions in atmosphere, smogs , major atmospheric pollutants | Global Warming and Acid Rain |
Smog | ||
Atmospheric Pollution | ||
Water Pollution | Dissolved Oxygen and BOD | |
Solid state | Classification of Crystalline Solids | Classification of Crystalline Solids |
Number of Atoms in a Unit Cell | Number of Atoms in a Unit Cell | |
Close Packed Structures | Interstitial Voids | |
Solutions | Colligative Properties | Osmosis and Osmotic Pressure |
Isotonic, Hypertonic, Hypotonic Solution | ||
Depression in Freezing Point | ||
Ideal and non ideal solutions | Ideal Solution | |
Van’t Hoff Factor | Calculation of Extent of Dissociation in an Electrolytic Solution | |
Electrochemistry | Electrochemical Cell | Electrochemical Series |
Faraday’s Second Law | ||
Kohlrausch’s Law | Kohlrausch’s Law | |
Galvanic Cells | Galvanic Cells | |
Conductance of Electrolytic Solutions | Molar Conductance at Infinite Dilution | |
Chemical kinetics | Temperature dependence of the rate of reaction | Exception (Arrhenius Theory) |
Effective Activation Energy | ||
Factors influencing rate of reaction | Factors Affecting Rate of Reaction (2) | |
Rate Law | ||
Factors Affecting Rate of Reaction | ||
Integrated rate equations | Half Life and Life Time of Reaction | |
Graphs for Zero-Order Reaction | ||
Zero Order Kinetics – Zero Order Reaction | ||
nth Order Kinetics | ||
Integrated Rate Law – Zero Order Reaction | ||
Surface Chemistry | Colloids | Coagulation/Flocculation |
Charge on Colloids | ||
Colloids | ||
Adsorption and Absorption | Physical Adsorption | |
General Principles and processes of Isolation Elements | Concentration | Leaching: Chemical Method |
Froth Floatation Process | ||
Refining | Vapour Phase Refining | |
d and f Block Elements | General Properties of Transition Elements | Formation of Coloured Ions |
Ionisation Energy | ||
Oxidation State | ||
The Inner Transition Elements | Properties of Actinoids | |
Coordination compounds | Definitions of some important terms pertaining to coordination compounds | Oxidation Number |
Coordination Number | ||
Addition Compounds or Molecular Compounds | ||
Isomerism in Coordination Compounds | Stereoisomerism | |
Structural Isomerism – 1 | ||
Structural Isomerism – 2 | ||
Bonding in Coordination Compounds | Bonding in Coordination Compounds (Werner’s Theory) | |
Crystal Field Splitting in Octahedral Field | ||
Haloalkanes and Haloarenes | Haloalkanes and Haloarenes | Nature of C-X Bond and Physical Properties |
Alcohols, Phenols and Ethers | Properties of Phenols | Properties of Phenols |
Reaction of Phenols with Dil. HNO3 | ||
Preparation of Phenol | ||
Properties of Alcohols | Reduction by LiAlH4 and NaBH4 | |
Acylation and Oxidation of Alcohols | ||
Grignard Reagent | ||
Aldehydes, Ketones and Carboxylic Acids | Chemical reactions of Aldehydes and Ketones | Intermolecular Cannizaro Reaction |
Nucleophilic Addition Reaction | ||
Intramolecular Aldol Condensation | ||
Chemical properties of Carboxylic Acids | Acidity in Carboxylic Acids | |
Benzoin Condensation, Benzil-Benzilic Acid Rearrangement | ||
Organic Compounds Containing Nitrogen | Preparation of Amines | Gabriel Phthalimide Synthesis |
Properties of Amines | Azo-Coupling Reaction | |
Test for Amines | ||
Carbylamine Test | ||
Reaction with NaNO2 + HCl | ||
Biomolecules | Proteins | Enzymes |
Amino Acids | ||
Carbohydrates | Chemical Properties of Glucose | |
Polymers | Polymers | |
Synthetic Rubbers | ||
Chemistry in Everyday Life | Drugs | Antibiotics |
Chemicals in Food | Preservatives |
NEET 2024 Easy and Scoring Chapters in Biology
In the field of biology, there are certain chapters that are simpler to grasp, which are crucial for NEET exam readiness. Getting a good handle on these easy biology chapters not only builds confidence but also helps greatly in scoring high marks in the biology section of the exam. Below is a list of these easy chapters for NEET candidates to refer to.
NEET 2024 Easy and Scoring Chapters in Biology | ||
Unit name | Topics | Sub-topics |
Diversity in Living World | Animal Kingdom | Physiology of Porifera |
Class Chondrichthyes – Characteristics Features | ||
Phylum Aschelminthes and Body Plan of Aschelminthes | ||
Phylum Mollusca and Body Plan of Mollusca | ||
Reproduction and Development in Porifera | ||
Class Osteichthyes – Characteristics Features | ||
Reproduction and Development in Aschelminthes | ||
Phylum Porifera and Morphological Features of Porifera | ||
Subphylum Cephalochordata – Characteristics Features | ||
Reproduction, Development and Metagenesis in Cnidaria | ||
Class Reptilia – Characteristics Features | ||
Physiology and Reproduction in Annelids | ||
Body Wall of Porifera | ||
Class Cyclostomata – Characteristics Features | ||
Class Mammalia – Characteristics Features | ||
Phylum Arthropoda and Body Plan of Arthropoda | ||
Plant Kingdom | Classification of Pteridophytes | |
Characteristics of Angiosperms | ||
Rhodophyceae | ||
Gymnosperms | ||
Types of Life Cycles | ||
Bryophyta | ||
Reproduction in gymnosperms | ||
Classification of Bryophytes | ||
Chlorophyceae/ Green Algae | ||
Phylum Platyhelminthes | ||
Classification of Gymnosperms | ||
Phaeophyceae | ||
Biological Classification | Viruses, Viroids and Prions | |
Phycomycetes (Algal fungi) | ||
Basidiomycetes (Club fungi) | ||
Eubacteria | ||
Lichen and Mycorrhiza | ||
Protozoa | ||
The Living World | Taxon and Taxonomic Hierarchy (Taxonomic categories) | |
Taxonomical Aids | ||
What is Living | ||
Steps of Taxonomy | ||
Structural Organisation in Animals and Plants | Anatomy of Flowering Plants | Secondary Growth |
Ground Tissue System | ||
Secondary Growth in Intrastelar Region of Dicot Stem | ||
SUMMARY – Internal Structure of Dicot Stem Showing Primary Growth | ||
Secondary Growth in Intrastelar Region of Dicot Stem – Heartwood and Sapwood | ||
Elements of Xylem – Tracheids and Vessels | ||
SUMMARY – Internal Structure of Monocot Root Showing Primary Growth | ||
Components of Phloem – Sieve tubes and Companion Cells | ||
Morphology of Flowering Plants | The Fruit | |
Modification of the Underground Stem | ||
Description of Some Important Families: Solanaceae | ||
Cymose Inflorescence and Its Types | ||
Placentation | ||
Animal Tissues | Glandular Epithelium | |
Unstriped or Non-striated or Visceral or Smooth or Involuntary Muscle | ||
Specialised Junctions between Epithelial Cells | ||
Morphology, Anatomy and Functions of Different Systems of Cockroach | Respiratory System and Excretory System of Cockroach | |
Cell Structure and Function | Cell: The Unit of Life | Semi-autonomous Organelles: Mitochondria (Sing. Mitochondrion) |
Flagella and Cilia | ||
Semi-autonomous Organelles: Chloroplast | ||
Components of the Endomembrane System: Endoplasmic Reticulum (ER) | ||
Centrosome and Centrioles | ||
The Cytoskeleton | ||
Cell Cycle and Cell Division | Cell Cycle: Interphase | |
Introduction to Meiosis | ||
Stages of Meiosis Ⅰ – Prophase I | ||
Stages of Meiosis Ⅰ – Metaphase I and Anaphase I | ||
Biomolecules | Enzymes and Their Classification | |
Enzyme Inhibition | ||
Lipids and Fatty Acids | ||
Factors Affecting Enzyme Activity | ||
Nucleic Acids – DNA and RNA | ||
Plant Physiology | Respiration in Plants | Introduction to Cellular Respiration |
Steps of Krebs Cycle | ||
Glycolysis | ||
Lactic Acid Fermentation | ||
Tricarboxylic Acid Cycle or Krebs Cycle or Citric Acid Cycle | ||
Photosynthesis | Photosynthetic Pigments: Carotenoids and Phycobilins | |
The C4 Pathway | ||
Red Drop Phenomenon and Emerson Enhancement Effect | ||
Introduction to Photorespiration | ||
Chemiosmotic Hypothesis: Proton Gradient | ||
Process of Photorespiration | ||
Dark Reaction of Photosynthesis and RuBP | ||
Mineral Nutrition | Role of Micronutrients | |
Deficiency Symptoms of Essential Elements | ||
Nitrogen Fixation – Natural or Atmospheric | ||
Plant Growth and Development | Photoperiodism | |
Functions of Auxins | ||
Functions of Ethylene | ||
Abscisic Acid and Its Discovery | ||
Transport in Plants | Water Potential and Its Components | |
Root Pressure Theories | ||
Human Physiology | Chemical Control & Integration | Kidneys |
The Hypothalamus | ||
Gonads: Testes | ||
The Pituitary Gland and Its Anterior Lobe | ||
Disorders of Pancreas | ||
Neural Control & Coordination | Structure of Human Eye: Coats of Eyeball | |
Forebrain: Olfactory Lobes & Diencephalon | ||
Structure of Retina | ||
Forebrain: Cerebrum | ||
Structure of Human Ear: Vestibular Apparatus | ||
Hindbrain or Rhombencephalon | ||
Structure of Human Ear: External Ear | ||
Body Fluids & Circulation | Abnormal conditions related to circulatory system | |
Conducting System of Heart | ||
ECG | ||
Blood | ||
Digestion & Absorption | Disorder of the Digestive System | |
Teeth and Their Types | ||
Physiology of Stomach | ||
Large Intestine and Its Parts | ||
Excretory Products & Their Elimination | Types of Animals Based on Excretory Wastes | |
Proximal Convoluted Tubule (PCT), Loop of Henle, Distal Convoluted Tubule (DCT) and Collecting Duct | ||
Breathing & Exchange of Gases | Exchange of Gases | |
Disorders of the Respiratory System | ||
Locomotion & Movement | Sarcomere | |
Reproduction | Human Reproduction | Events of Fertilization |
Accessory Sex Glands of Males | ||
Embryonic Development: Cleavage & Formation of Blastocyst | ||
Structure of Sperm | ||
Implantation | ||
Hormonal Control of Male Reproductive System | ||
The Male Reproductive System: Scrotum & Testes | ||
Male Sex Accessory Ducts | ||
Sexual Reproduction in Flowering Plants | Embryogeny and Structure of Embryo in Monocots | |
Development of Male Gametophyte | ||
Fertilization & Mode of Entry of Pollen Tube in Ovule | ||
Apomixis & Polyembryony | ||
Pollination and Its Types | ||
Double Fertilization | ||
Agents of Pollination: Abiotic Agents | ||
Endosperm Development | ||
Structure of Pollen Grain | ||
Ornithophily & Chiropterophily | ||
Reproduction in Organisms | Binary Fission & Its Types | |
Genetics and Evolution | Principles of Inheritance & Variation | Sex Determination: XX Female & XO Male Type |
Law of Independent Assortment | ||
Types of Mutations | ||
Linkage: Discovery & Meaning | ||
Interpretation of Monohybrid Cross: Law of Dominance | ||
Phenylketonuria | ||
Sex Determination: ZW Female & ZZ Males Type | ||
Codominance | ||
Chromosomal Mutations: Structural | ||
Sex Determination | ||
Sex Determination in Drosophila | ||
Test Cross | ||
Chromosomal Theory of Inheritance & T.H. Morgan | ||
Chromosomal Number Mutations | ||
Sex Determination: XX Female & XY Male Type | ||
Dihybrid Cross | ||
Mutations & Their Features | ||
Experiments of T.H Morgan | ||
Monohybrid Cross of Mendel | ||
Pedigree Analysis | ||
Evolution | Mechanism of Evolution: Natural Selection & Its Types | |
Evidence of Organic Evolution: Homologous Organs & Analogous Organs | ||
Origin & Evolution of Man | ||
Chemical Evolution & Miller Experiment | ||
Adaptive Radiation | ||
Hardy Weinberg Equilibrium | ||
Theories of Evolution: Lamarckism | ||
Mechanism of Evolution: Genetic Drift, Founder Effect & Bottleneck Effect | ||
Salient Features of Darwin Theory of Natural Selection | ||
Molecular Basis of Inheritance | Salient Features of Human Genome | |
Process of Transcription in Prokaryotes | ||
The Search For Genetic Material: Transforming Principle | ||
Process of Translation | ||
Introduction to Replication of DNA | ||
RNA Polymerase in Prokaryotes & Eukaryotes | ||
Hershey & Chase Experiment | ||
Lac Operon | ||
DNA Replication in Prokaryotes | ||
Salient Features of Double-Helix Structure of DNA | ||
Salient Features of Genetic Code | ||
Properties of Genetic Material | ||
Human Genome Project & Its Goals | ||
Introduction to Transcription & Transcription Unit | ||
Packaging of DNA Helix in Eukaryotes | ||
Introduction to Translation | ||
Central Dogma of Molecular Biology | ||
Biology and Human Welfare | Strategies for Enhancement in Food Production | Plant Breeding |
Single Cell Protein | ||
Animal Breeding – Inbreeding | ||
Plant Breeding for Disease Resistance: Mutation Breeding | ||
Tissue Culture & Somatic Hybridization | ||
Out-breeding: Out-crossing, Cross-breeding & Interspecific hybridisation | ||
Plant Breeding for Developing Resistance to Insect Pests | ||
High Yielding Varieties (HYVs) | ||
Controlled Breeding Experiments: Artificial Insemination & MOET | ||
Plant Breeding for Improved Food Quality: Biofortification | ||
Plant Breeding for Disease Resistance: Conventional Breeding | ||
Microbes in Human Welfare | Microbes as Biocontrol Agents | |
Chemicals, Enzymes and other Bioactive Molecules | ||
Microbes as Biofertilizers | ||
Microbes in Sewage Treatment | ||
Microbes in Household Products | ||
Microbes in Production of Biogas | ||
Microbes in Industrial Products: Antibiotics | ||
Human Health and Disease | Disorders of the Immune System | |
Innate Immunity | ||
Immune System in Humans | ||
Viral Diseases | ||
AIDS | ||
Humoral Immunity or Antibody Mediated Immune System (AMIS) | ||
Antibodies | ||
Bacterial Diseases | ||
Cancer-I | ||
Cell-Mediated Immune System | ||
Vaccination & Immunisation | ||
Life Cycle of Plasmodium | ||
Commonly Abused Drugs | ||
Immune Response & Lines of Defence | ||
Biotechnology and Its Applications | Biotechnology & Its Applications | DNA Fingerprinting |
Pest Resistant Transgenic Plant Using RNAi | ||
Golden Rice | ||
Biotechnological Application in Medicines – Genetically Engineered Insulin | ||
Insect Resistant Transgenic Plant – Bt Cotton | ||
Biotechnology: Principles & Processes | Direct or Vectorless Methods of Gene Transfer | |
Biotechnology & Its Principles | ||
Features required to facilitate cloning into a vector | ||
Polymerase Chain Reaction | ||
Tools of Biotechnology: Restriction Endonucleases | ||
Vectors for cloning genes in plants and animals | ||
Downstream Processing | ||
Functioning of Restriction Endonucleases | ||
Competent Host (For Transformation with Recombinant DNA) | ||
Gel Electrophoresis | ||
Ecology and environment | Biodiversity & Conservation | In-situ Conservation of Biodiversity – Sanctuaries and Biosphere Reserves |
Species Diversity – India & World | ||
Need to Conserve Biodiversity | ||
The importance of Species Diversity to the Ecosystem | ||
Patterns of Biodiversity – Species-Area relationships | ||
In-situ Conservation of Biodiversity – Hotspots, National Parks and Sacred groves | ||
Cause of biodiversity losses | ||
Ecosystem | Functions of Ecosystem: Productivity | |
Pyramid of Numbers | ||
Functions of Ecosystem: Decomposition | ||
Pyramid of Biomass & Pyramid of Energy | ||
Trophic Levels, Food Chain & Food Web | ||
Ecological Succession | ||
Components of Ecosystem: Biotic | ||
10 Percent Law of Energy Flow | ||
Organisms & Populations | Predation | |
Responses to Abiotic Factors: Regulate & Conform | ||
Types of Parasites | ||
Population & Its Attributes: Population Size or Density | ||
Competition | ||
Responses to Abiotic Factors: Migrate & Suspend | ||
Population Attributes – Age Pyramid | ||
Mutualism | ||
Gause competitive exclusion principle & Resource Partitioning | ||
Adaptations – I | ||
Population Attributes – Population Growth | ||
Ecology, Organism & Its Environment | ||
Parasitism | ||
Adaptations – II | ||
Predation | ||
Environmental Issues | Greenhouse Effects | |
Air Pollution | ||
Deforestation | ||
Global warming | ||
Control of Air Pollution – Catalytic Converters, Electrostatic Precipitators & Scrubbers | ||
Ozone Depletion in the Stratosphere | ||
Water Pollution & Its Causes : Domestic Sewage & Algal Bloom |
FAQs on Most Easy and Scoring Chapters for NEET 2024 Exam
Which chapters should I prioritize for NEET 2024 exam preparation?
For Physics, focus on chapters like Kinematics, Laws of Motion, Work, Energy, and Power. In Chemistry, prioritize topics such as Chemical Bonding, Thermodynamics, and Basic Organic Chemistry. For Biology, concentrate on Diversity in Living World, Cell Structure and Function, and Genetics and Evolution.
How should I approach studying easy and scoring chapters listed for NEET 2024?
Start by thoroughly understanding the concepts in these chapters. Practice solving related questions to reinforce your understanding. Create concise notes summarizing key points. Regular revision of these chapters will help you retain the information effectively.
Are there any specific strategies for tackling the NEET 2024 exam?
Yes, focus on time management during the exam. Allocate sufficient time to each section based on your strengths and weaknesses. Practice previous years' question papers and mock tests to familiarize yourself with the exam pattern and improve your speed and accuracy. Additionally, stay updated with any changes in the syllabus or exam pattern announced by the National Testing Agency (NTA).