NEET TEST SCHEDULE (2025-2026) MODIFIED
Subject
Sr. Date D
Physics Chemistry Biology
No. a
y
1. 22-June-25 Classitication Of Elements The Living World (Botany)
S Unit & Measurement
And Periodicity In What is living? Difference
u Need for measurement, Units Properties between living and non living,
n
of measurement, System of Modem periodic law and
d Diversity in the living world,
a units, S.I. unit, Fundamental & present form of the periodic Binomial nomenclature,
y derived unit, Accuracy & table. s, p. d and f block
Classification, Systematics,
Precision of elements- periodic trends in
Concept of species and
measuringinstruments, Errors properties of elements atomic
taxonomical hierarchy,
in measurement, Significant and ionic radii. ionization
Biological Classification
figures, Dimension ofphysical enthalpy, electron gain
(Zoology)
enthalpy. valence. oxidation
quantities & Application.
Two kingdom system
states. and chemical
Thermal properties of reactivity' Five kingdom classification;
matter, Thermal expansion salient features and
of solids &liquids. Some Basic Principles Of classification of Monera;
Organic Chemistry Protista and Fungi into major
Vectors
Tetravalency of carbon: groups; lichens; Viruses and
Types of vectors, Unit vectors, Shapes of simple molecules - Viroids.
Resolution of vectors in a hybridization (s and p):
plane rectangular classification of organic Plant Kingdom (Botany)
components, Addition & compounds based on What is algae ?Introduction of
Subtraction of vectors, Scalar functional groups: and those classification system,
& vector products of vectors, containing halogens oxygen,
Classification of algae:
Direction Cosines, Area of nitrogen and sulphur,
Chlorophyceae,
triangle & parallelogram. Homologous series:
Pheophyceae,
Isomerism - structural and
Rhodophyceae, Division of
stereoisomerism.
algae pigment and store food,
Calorimetry Nomenclature (Trivial and
General introduction of
IUPAC)
Specific heat capacity, Bryophytes (liver warts,
Principle of Calorimetry, masses), General introduction
Latent heat of fusion and of Pteridophytes, General
vaporization. introduction of Gymnosperms.
NEW LIGHT / SCHEDULE-2025-2026## 1 ##
, Animal Kingdom (Zoology)
Classification of Animals,
EXPERIMENTAL SKILLS
Symmetry, Diploblastic and
Specific heat capacity of a
Triploblastic,
given (i) solid and (ii) liquid by
Organisation,Coelom,
method of mixtures
Segmentation, Notochord,
Classification of animals,
Phylum – Porifera,
Coelenterata (Cnidaria),
Ctenophora, Platyhelminthes,
Aschelminthes, Annelida,
Arthropoda, Mollusca,
Echinodermata,
Hemichordata, Chordata
2. 13-July-25 Some Basic Concepts In Morphology of Plants:
S Kinematics-1 Chemistry Morphology and
u Frame of reference, Motion in Matter and its nature, Dalton's modifications; Tissues;
n atomic theory: Concept of
straight line, Position-time Anatomy and functions of
d atom, molecule, element. And
graph, Speed & Velocity, different parts of flowering
a compound:: Laws of chemical
y combination; Atomic and plants: Root, stem, leaf,
Uniform & non-uniform
molecular masses, mole inflorescence- cymose and
motion, Average speed &
concept, molar mass, recemose, flower, fruit and
instantaneous velocity, percentage composition, seed (To be dealt along with
Uniform accelerated motion, empirical and molecular the relevant practical ofthe
Velocity time & position time formulae: Chemical equations Practical Syllabus) Family
and stoichiometry. (Malvaceae, Cruciferae,
graph for uniformly
accelerated motion. Leguminoceae,
Purification And
Compositae, Graminae).
Thermal Conduction. Characterisation Of Organic Anatomy of Flowering
Compounds Plants
Heat transfer,
Purification - Crystallization. What is the Tissues?
Conduction&thermal
Sublimation, distillation, Tissue system, (simple tissue,
conductivity.
differential extraction, and compound tissue) Anatomy of
Thermal Radiation chromatography - principles Dicotyledonous and
Convection and radiation, and their applications. Monocotyledonous plants,
Qualitative analysis - (root,stem, leaf),
Qualitative ideas of black body
Detection of nitrogen, sulphur,
phosphorus and halogens.
NEW LIGHT / SCHEDULE-2025-2026## 2 ##
, radiation, Wein's Quantitative analysis (basic
displacement law, principles only) - Estimation of
carbon. hydrogen. nitrogen.
halogens. sulphur.
phosphorus.
Calculations of empirical
formulae and molecular
formulae: Numerical problems
in organic
Quantitative analysis
3 27-July-25 S
u MODEL-1
n T-1 TO T-2
d
a
y
Atomic Structure Structural Organisation in
4. 10-Aug-25 S Motion in plane Nature of electromagnetic Animals:
u (Kinematics-2) radiation, photoelectric effect;
Animal tissues; Morphology,
n Spectrum of the hydrogen
d Relative velocity. anatomy and functions of
atom. Bohr model of a
a hydrogen atom - its different systems (digestive,
Motion in plane, Cases of
y postulates, derivation of the circulatory, respiratory,
uniform velocity & projectile
relations for the energy of the
nervous and reproductive) of
motion electron and radii of the
different orbits, limitations of an insect (Frog) (Brief account
Bohr's model; Dual nature of only)Cockroach
Kinetic Theory of Gases matter, de Broglie's Cell : The Unit of Life
relationship. Heisenberg
(Botany)
Perfect gas equation, Work uncertainty principle.
Elementary ideas of quantum Cell theory and cell as the
done on compressing a gas,
mechanics, quantum basic unit of life;Structure of
Kinetic theory of gases,
mechanics, the quantum prokaryotic and eukaryotic
Degree of freedom, Specific mechanical model of the
cell; Plant celland animal cell;
heat capacities, Mean free atom, its important features.
Concept of atomic orbitals as Cell envelope, cell membrane,
path
one-electron wave functions: cellwall; Cell organelles-
Variation of and 2 with r structure and
for ls and 2s orbitals: various
function;Endomembrane
quantum numbers (principal,
angular momentum, and system-endoplasmic
magnetic quantum numbers) reticulum,Golgi bodies,
and their significance; shapes
NEW LIGHT / SCHEDULE-2025-2026## 3 ##
Subject
Sr. Date D
Physics Chemistry Biology
No. a
y
1. 22-June-25 Classitication Of Elements The Living World (Botany)
S Unit & Measurement
And Periodicity In What is living? Difference
u Need for measurement, Units Properties between living and non living,
n
of measurement, System of Modem periodic law and
d Diversity in the living world,
a units, S.I. unit, Fundamental & present form of the periodic Binomial nomenclature,
y derived unit, Accuracy & table. s, p. d and f block
Classification, Systematics,
Precision of elements- periodic trends in
Concept of species and
measuringinstruments, Errors properties of elements atomic
taxonomical hierarchy,
in measurement, Significant and ionic radii. ionization
Biological Classification
figures, Dimension ofphysical enthalpy, electron gain
(Zoology)
enthalpy. valence. oxidation
quantities & Application.
Two kingdom system
states. and chemical
Thermal properties of reactivity' Five kingdom classification;
matter, Thermal expansion salient features and
of solids &liquids. Some Basic Principles Of classification of Monera;
Organic Chemistry Protista and Fungi into major
Vectors
Tetravalency of carbon: groups; lichens; Viruses and
Types of vectors, Unit vectors, Shapes of simple molecules - Viroids.
Resolution of vectors in a hybridization (s and p):
plane rectangular classification of organic Plant Kingdom (Botany)
components, Addition & compounds based on What is algae ?Introduction of
Subtraction of vectors, Scalar functional groups: and those classification system,
& vector products of vectors, containing halogens oxygen,
Classification of algae:
Direction Cosines, Area of nitrogen and sulphur,
Chlorophyceae,
triangle & parallelogram. Homologous series:
Pheophyceae,
Isomerism - structural and
Rhodophyceae, Division of
stereoisomerism.
algae pigment and store food,
Calorimetry Nomenclature (Trivial and
General introduction of
IUPAC)
Specific heat capacity, Bryophytes (liver warts,
Principle of Calorimetry, masses), General introduction
Latent heat of fusion and of Pteridophytes, General
vaporization. introduction of Gymnosperms.
NEW LIGHT / SCHEDULE-2025-2026## 1 ##
, Animal Kingdom (Zoology)
Classification of Animals,
EXPERIMENTAL SKILLS
Symmetry, Diploblastic and
Specific heat capacity of a
Triploblastic,
given (i) solid and (ii) liquid by
Organisation,Coelom,
method of mixtures
Segmentation, Notochord,
Classification of animals,
Phylum – Porifera,
Coelenterata (Cnidaria),
Ctenophora, Platyhelminthes,
Aschelminthes, Annelida,
Arthropoda, Mollusca,
Echinodermata,
Hemichordata, Chordata
2. 13-July-25 Some Basic Concepts In Morphology of Plants:
S Kinematics-1 Chemistry Morphology and
u Frame of reference, Motion in Matter and its nature, Dalton's modifications; Tissues;
n atomic theory: Concept of
straight line, Position-time Anatomy and functions of
d atom, molecule, element. And
graph, Speed & Velocity, different parts of flowering
a compound:: Laws of chemical
y combination; Atomic and plants: Root, stem, leaf,
Uniform & non-uniform
molecular masses, mole inflorescence- cymose and
motion, Average speed &
concept, molar mass, recemose, flower, fruit and
instantaneous velocity, percentage composition, seed (To be dealt along with
Uniform accelerated motion, empirical and molecular the relevant practical ofthe
Velocity time & position time formulae: Chemical equations Practical Syllabus) Family
and stoichiometry. (Malvaceae, Cruciferae,
graph for uniformly
accelerated motion. Leguminoceae,
Purification And
Compositae, Graminae).
Thermal Conduction. Characterisation Of Organic Anatomy of Flowering
Compounds Plants
Heat transfer,
Purification - Crystallization. What is the Tissues?
Conduction&thermal
Sublimation, distillation, Tissue system, (simple tissue,
conductivity.
differential extraction, and compound tissue) Anatomy of
Thermal Radiation chromatography - principles Dicotyledonous and
Convection and radiation, and their applications. Monocotyledonous plants,
Qualitative analysis - (root,stem, leaf),
Qualitative ideas of black body
Detection of nitrogen, sulphur,
phosphorus and halogens.
NEW LIGHT / SCHEDULE-2025-2026## 2 ##
, radiation, Wein's Quantitative analysis (basic
displacement law, principles only) - Estimation of
carbon. hydrogen. nitrogen.
halogens. sulphur.
phosphorus.
Calculations of empirical
formulae and molecular
formulae: Numerical problems
in organic
Quantitative analysis
3 27-July-25 S
u MODEL-1
n T-1 TO T-2
d
a
y
Atomic Structure Structural Organisation in
4. 10-Aug-25 S Motion in plane Nature of electromagnetic Animals:
u (Kinematics-2) radiation, photoelectric effect;
Animal tissues; Morphology,
n Spectrum of the hydrogen
d Relative velocity. anatomy and functions of
atom. Bohr model of a
a hydrogen atom - its different systems (digestive,
Motion in plane, Cases of
y postulates, derivation of the circulatory, respiratory,
uniform velocity & projectile
relations for the energy of the
nervous and reproductive) of
motion electron and radii of the
different orbits, limitations of an insect (Frog) (Brief account
Bohr's model; Dual nature of only)Cockroach
Kinetic Theory of Gases matter, de Broglie's Cell : The Unit of Life
relationship. Heisenberg
(Botany)
Perfect gas equation, Work uncertainty principle.
Elementary ideas of quantum Cell theory and cell as the
done on compressing a gas,
mechanics, quantum basic unit of life;Structure of
Kinetic theory of gases,
mechanics, the quantum prokaryotic and eukaryotic
Degree of freedom, Specific mechanical model of the
cell; Plant celland animal cell;
heat capacities, Mean free atom, its important features.
Concept of atomic orbitals as Cell envelope, cell membrane,
path
one-electron wave functions: cellwall; Cell organelles-
Variation of and 2 with r structure and
for ls and 2s orbitals: various
function;Endomembrane
quantum numbers (principal,
angular momentum, and system-endoplasmic
magnetic quantum numbers) reticulum,Golgi bodies,
and their significance; shapes
NEW LIGHT / SCHEDULE-2025-2026## 3 ##
