BIE AP Inter 1st Year Syllabus from 2025 [Released] for All AP Inter Groups. Board of Intermediate Education Andhra Pradesh has released the detailed syllabus for Intermediate 1st year from 2025-26 Academic Year onwards. This BIE AP Inter 1st Year Syllabus to be followed by all the Govt and Private Junior Colleges across the state.
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BIE AP Subject Wise Inter 1st year Syllabus 2025-26 is explained below.
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BIE AP Inter 1st Year Mathematics Syllabus 2025-26
Syllabus for First year Intermediate from Academic Year 2025-26 Mathematics (1st Year)
1. Sets
1.1 Introduction
1.2 Sets and their Representations 1.3 The Empty Set
1.4 Finite and Infinite Sets 1.5 Equal Sets
1.6 Subsets
1.7 Universal Set
1.8 Venn Diagrams
1.9 Operations on Sets
1.10 Complement of a Set
2. Relations and functions
2.1 Introduction
2.2 Cartesian Product of Sets 2.3 Relations
2.4 Functions
3. Trigonometric functions
3.1 Introduction 3.2 Angles
3.3 Trigonometric Functions
3.4 Trigonometric Functions of Sum and Difference of Two Angles
4. Complex number and quadratic equations
4.1 Introduction
4.2 Complex Numbers
4.3 Algebra of Complex Numbers
4.4 The Modulus and the Conjugate of a Complex Number 4.5 Argand Plane and Polar Representation
5. Linear inequalities
5.1 Introduction 5.2 Inequalities
5.3 Algebraic Solutions of Linear Inequalities in One Variable and their Graphical Representation
6. Permutations and combinations
6.1 Introduction
6.2 Fundamental Principle of Counting 6.3 Permutations
6.4 Combinations
7. Binomial theorem
7.1 Introduction
7.2 Binomial Theorem for Positive Integral Indices
8. Sequences and series
8.1 Introduction 8.2 Sequences 8.3 Series
8.4 Geometric Progression (GP.)
8.5 Relationship Between A.M. and G. M
9. Straight lines
9.1 Introduction
9.2 Slope of a Line
9.3 Various Forms of the Equation ofa Line 9.4 Distance of a Point from a Line
10. Conic sections
10.1 Introduction
10.2 Sections of a Cone
10.3 Circle
10.4 Parabola
10.5 Ellipse
10.6 Hyperbola
11. Introduction to three dimensional geometry
11.1 Introduction
11.2 Coordinate Axes and Coordinate Planes in Three Dimensional Space
11.3 Coordinates of a Point in Space
11.4 Distance between Two Points
12. Limits and derivatives
12.1 Introduction
12.2 Intuitive Idea of Derivatives
12.3 Limits
12.4 Limits of Trigonometric Functions
12.5 Derivatives
13. Statistics
13.1 Introduction
13.2 Measures of Dispersion 13.3 Range
13.4 Mean Deviation
13.5 Variance and Standard Deviation
14. Probability
14.1 Event
14.2 Axiomatic Approach to Probability
1.1 Introduction
1.2 The International system of units
1.3 Significant figures
1.4 Dimensions of Physical Quantities
1.5 Dimensional formulae and dimensional equations
1.6 Dimensional analysis and its applications
2. MOTION IN A STRAIGHT LINE
2.1 Introduction
2.2 Instantaneous velocity and speed
2.3 Acceleration
2.4 Kinematic equations for uniformly accelerated motion
3. MOTION IN A PLANE
3.1 Introduction
3.2 Scalars and vectors
3.3 Multiplication of vectors by real members
3.4 Addition and subtraction of vectors - graphical Method
3.5 Resolution of vectors
3.6 Vector addition - Analytical method
3.7 Motion in a plane
3.8 Motion in a plane with constant acceleration
3.9 Projectile motion
3.10 Uniform circular motion
4. LAWS OF MOTION
4.1 Introduction
4.2 Aristotle’s fallacy
4.3 The law of inertia
4.4 Newton’s first law of motion
4.5 Newton’s second law of motion
4.6 Newton’s third law of motion
4.7 Conservation of momentum
4.8 Equilibrium of a particle
4.9 Common forces in mechanics, friction
4.10 Circular motion
4.11 Solving problems in mechanics.
5. WORK,ENERGY AND POWER
5.1 Introduction
5.2 Notions of work and kinetic energy: The work-energy theorem.
5.3 Work
5.4 Kinetic Energy
5.5 Work done by a variable force
5.6 The work – energy theorem for a variable force
5.7 The concept of Potential energy
5.8 The conservation of mechanical energy
5.9 The Potential energy ofa spring
5.10 Power
5.11 Collisions
6. SYSTEM OF PARTICLES AND ROTATIONAL MOTION
6.1 Introduction
6.2 Centre of mass
6.3 Motion of Centre of mass
6.4 Linear momentum of a system of particles
6.5 Vector product of two vectors
6.6 Angular velocity and its relation with linear velocity
6.7 Torque and angular momentum
6.8 Equilibrium of a rigid body and centre of gravity
6.9 Moment of inertia
6.10 Kinematics of rotational motion about a fixed axis
6.11 Dynamics of rotational motion about a fixed axis.
6.12 Angular momentum in case of rotations about a fixed axis.
7. GRAVITATION
7.1 Introduction
7.2 Kepler’s laws
7.3 Universal law of gravitation
7.4 The gravitational constant
7.5 Acceleration due to gravity of the earth
7.6 Acceleration due to gravity below and above the surface of earth.
7.7 Gravitational potential energy
7.8 Escape speed
7.9 Earth Satellites
7.10 Energy of an orbiting satellite
8. MECHANICAL PROPERTIES OF SOLIDS
8.1 Introduction
8.2 Stress and strain
8.3 Hooke’s law
8.4 Stress – strain curve
8.5 Elastic moduli
8.6 Applications of elastic behavior of materials
9. MECHANICAL PROPERTIES OF FLUIDS
9.1 Introduction
9.2 Pressure
9.3 Streamline flow
9.4 Bernoulli’s principle
9.5 Viscosity
9.6 Surface tension
10. THERMAL PROPERTIES OF MATTER
10.1 Introduction
10.2 Temperature and Heat
10.3 Measurement of temperature
10.4 Ideal – gas equation and absolute temperature
10.5 Thermal expansion
10.6 Specific Heat capacity
10.7 Calorimetry
10.8 Change of state
10.9 Heat transfer
10.10 Newton’s law of cooling.
11. THERMODYNAMICS
11.1 Introduction
11.2 Thermal equilibrium
11.3 Zeroth law of thermodynamics
11.4 Heat, internal energy and work
11.5 First law of thermodynamics
11.6 Specific heat capacity
11.7 Thermodynamic state variables and equation of state
11.8 Thermodynamic processes
11.9 Second law of thermodynamics
11.10 Reversible and irreversible processes
11.11 Carnot engine
12. KINETIC THEORY
12.1 Introduction
12.2 Molecular nature of matter
12.3 Behavior of gases
12.4 Kinetic theory of an ideal gas
12.5 Laws of equipartition of energy
12.6 Specific heat capacity
12.7 Mean free path
13. OSCILLATIONS
13.1 Introduction
13.2 Periodic and oscillatory motions
13.3 Simple Harmonic motion
13.4 Simple Harmonic motion and uniform circular motion
13.5 Velocity and acceleration in simple harmonic motion
13.6 Force law for simple harmonic motion
13.7 Energy in simple harmonic motion
13.8 The Simple Pendulum
14. WAVES
14.1 Introduction
14.2 Transverse and longitudinal waves
14.3 Displacement relation in a progressive wave
14.4 The speed of a travelling wave
14.5 The principle of superposition of waves
14.6 Reflection of waves
14.7 Beats
1.1 Importance of Chemistry
1.2 Nature of Matter
1.3 Properties of Matter and their Measurement
1.4 Uncertainty in Measurement
1.5 Laws of Chemical Combinations
1.6 Dalton’s Atomic Theory
1.7 Atomic and Molecular Masses
1.8 Mole Concept and Molar Masses
1.9 Percentage Composition
1.10 Stoichiometry and Stoichiometric Calculations
Unit 2 Structure of Atom
2.1 Discovery of Sub-atomic Particles
2.2 Atomic Models
2.3 Developments Leading to the Bohr’s Model of Atom
2.4 Bohr’s Model for Hydrogen Atom
2.5 Towards Quantum Mechanical Model of the Atom
2.6 Quantum Mechanical Model of Atom
Unit 3 Classification of Elements and Periodicity in Properties
3.1 Why do we Need to Classify Elements?
3.2 Genesis of Periodic Classification
3.3 Modern Periodic Law and the Present Form of the Periodic Table
3.4 Nomenclature of Elements with Atomic Numbers > 100
3.5 Electronic Configurations of Elements and the Periodic Table
3.6 Electronic Configurations and Types of Elements: 82 s-, p-, d-, f- Blocks
3.7 Periodic Trends in Properties of Elements
Unit 4 Chemical Bonding and Molecular Structure
4.1 Kössel-Lewis Approach to Chemical Bonding
4.2 Ionic or Electrovalent Bond 106 4.3 Bond Parameters
4.4 The Valence Shell Electron Pair Repulsion (VSEPR) Theory
4.5 Valence Bond Theory
4.6 Hybridisation
4.7 Molecular Orbital Theory
4.8 Bonding in Some Homonuclear Diatomic Molecules
4.9 Hydrogen Bonding
Unit 5 Thermodynamics
5.1 Thermodynamic Terms
5.2 Applications
5.3 Measurement of ∆U and ∆H: Calorimetry
5.4 Enthalpy Change, ∆rH of a Reaction – Reaction Enthalpy
5.5 Enthalpies for Different Types of Reactions
5.6 Spontaneity
5.7 Gibbs Energy Change and Equilibrium
Unit 6 Equilibrium
6.1 Equilibrium in Physical Processes
6.2 Equilibrium in Chemical Processes - Dynamic Equilibrium
6.3 Law of Chemical Equilibrium and Equilibrium Constant
6.4 Homogeneous Equilibria
6.5 Heterogeneous Equilibria
6.6 Applications of Equilibrium Constants
6.7 Relationship between Equilibrium Constant K, Reaction Quotient Q and Gibbs Energy G
6.8 Factors Affecting Equilibria
6.9 Ionic Equilibrium in Solution
6.10 Acids, Bases and Salts
6.11 Ionization of Acids and Bases
6.12 Buffer Solutions
6.13 Solubility Equilibria of Sparingly Soluble Salts
Unit 7 Redox Reactions
7.1 Classical Idea of Redox Reactions-Oxidation and Reduction Reactions
7.2 Redox Reactions in Terms of Electron Transfer Reactions
7.3 Oxidation Number
7.4 Redox Reactions and Electrode Processes
1.1 Introduction
1.2 Sets and their Representations 1.3 The Empty Set
1.4 Finite and Infinite Sets 1.5 Equal Sets
1.6 Subsets
1.7 Universal Set
1.8 Venn Diagrams
1.9 Operations on Sets
1.10 Complement of a Set
2. Relations and functions
2.1 Introduction
2.2 Cartesian Product of Sets 2.3 Relations
2.4 Functions
3. Trigonometric functions
3.1 Introduction 3.2 Angles
3.3 Trigonometric Functions
3.4 Trigonometric Functions of Sum and Difference of Two Angles
4. Complex number and quadratic equations
4.1 Introduction
4.2 Complex Numbers
4.3 Algebra of Complex Numbers
4.4 The Modulus and the Conjugate of a Complex Number 4.5 Argand Plane and Polar Representation
5. Linear inequalities
5.1 Introduction 5.2 Inequalities
5.3 Algebraic Solutions of Linear Inequalities in One Variable and their Graphical Representation
6. Permutations and combinations
6.1 Introduction
6.2 Fundamental Principle of Counting 6.3 Permutations
6.4 Combinations
7. Binomial theorem
7.1 Introduction
7.2 Binomial Theorem for Positive Integral Indices
8. Sequences and series
8.1 Introduction 8.2 Sequences 8.3 Series
8.4 Geometric Progression (GP.)
8.5 Relationship Between A.M. and G. M
9. Straight lines
9.1 Introduction
9.2 Slope of a Line
9.3 Various Forms of the Equation ofa Line 9.4 Distance of a Point from a Line
10. Conic sections
10.1 Introduction
10.2 Sections of a Cone
10.3 Circle
10.4 Parabola
10.5 Ellipse
10.6 Hyperbola
11. Introduction to three dimensional geometry
11.1 Introduction
11.2 Coordinate Axes and Coordinate Planes in Three Dimensional Space
11.3 Coordinates of a Point in Space
11.4 Distance between Two Points
12. Limits and derivatives
12.1 Introduction
12.2 Intuitive Idea of Derivatives
12.3 Limits
12.4 Limits of Trigonometric Functions
12.5 Derivatives
13. Statistics
13.1 Introduction
13.2 Measures of Dispersion 13.3 Range
13.4 Mean Deviation
13.5 Variance and Standard Deviation
14. Probability
14.1 Event
14.2 Axiomatic Approach to Probability
BIE AP Inter 1st Year Physics Syllabus 2025-26
1. UNITS AND MEASUREMENTS1.1 Introduction
1.2 The International system of units
1.3 Significant figures
1.4 Dimensions of Physical Quantities
1.5 Dimensional formulae and dimensional equations
1.6 Dimensional analysis and its applications
2. MOTION IN A STRAIGHT LINE
2.1 Introduction
2.2 Instantaneous velocity and speed
2.3 Acceleration
2.4 Kinematic equations for uniformly accelerated motion
3. MOTION IN A PLANE
3.1 Introduction
3.2 Scalars and vectors
3.3 Multiplication of vectors by real members
3.4 Addition and subtraction of vectors - graphical Method
3.5 Resolution of vectors
3.6 Vector addition - Analytical method
3.7 Motion in a plane
3.8 Motion in a plane with constant acceleration
3.9 Projectile motion
3.10 Uniform circular motion
4. LAWS OF MOTION
4.1 Introduction
4.2 Aristotle’s fallacy
4.3 The law of inertia
4.4 Newton’s first law of motion
4.5 Newton’s second law of motion
4.6 Newton’s third law of motion
4.7 Conservation of momentum
4.8 Equilibrium of a particle
4.9 Common forces in mechanics, friction
4.10 Circular motion
4.11 Solving problems in mechanics.
5. WORK,ENERGY AND POWER
5.1 Introduction
5.2 Notions of work and kinetic energy: The work-energy theorem.
5.3 Work
5.4 Kinetic Energy
5.5 Work done by a variable force
5.6 The work – energy theorem for a variable force
5.7 The concept of Potential energy
5.8 The conservation of mechanical energy
5.9 The Potential energy ofa spring
5.10 Power
5.11 Collisions
6. SYSTEM OF PARTICLES AND ROTATIONAL MOTION
6.1 Introduction
6.2 Centre of mass
6.3 Motion of Centre of mass
6.4 Linear momentum of a system of particles
6.5 Vector product of two vectors
6.6 Angular velocity and its relation with linear velocity
6.7 Torque and angular momentum
6.8 Equilibrium of a rigid body and centre of gravity
6.9 Moment of inertia
6.10 Kinematics of rotational motion about a fixed axis
6.11 Dynamics of rotational motion about a fixed axis.
6.12 Angular momentum in case of rotations about a fixed axis.
7. GRAVITATION
7.1 Introduction
7.2 Kepler’s laws
7.3 Universal law of gravitation
7.4 The gravitational constant
7.5 Acceleration due to gravity of the earth
7.6 Acceleration due to gravity below and above the surface of earth.
7.7 Gravitational potential energy
7.8 Escape speed
7.9 Earth Satellites
7.10 Energy of an orbiting satellite
8. MECHANICAL PROPERTIES OF SOLIDS
8.1 Introduction
8.2 Stress and strain
8.3 Hooke’s law
8.4 Stress – strain curve
8.5 Elastic moduli
8.6 Applications of elastic behavior of materials
9. MECHANICAL PROPERTIES OF FLUIDS
9.1 Introduction
9.2 Pressure
9.3 Streamline flow
9.4 Bernoulli’s principle
9.5 Viscosity
9.6 Surface tension
10. THERMAL PROPERTIES OF MATTER
10.1 Introduction
10.2 Temperature and Heat
10.3 Measurement of temperature
10.4 Ideal – gas equation and absolute temperature
10.5 Thermal expansion
10.6 Specific Heat capacity
10.7 Calorimetry
10.8 Change of state
10.9 Heat transfer
10.10 Newton’s law of cooling.
11. THERMODYNAMICS
11.1 Introduction
11.2 Thermal equilibrium
11.3 Zeroth law of thermodynamics
11.4 Heat, internal energy and work
11.5 First law of thermodynamics
11.6 Specific heat capacity
11.7 Thermodynamic state variables and equation of state
11.8 Thermodynamic processes
11.9 Second law of thermodynamics
11.10 Reversible and irreversible processes
11.11 Carnot engine
12. KINETIC THEORY
12.1 Introduction
12.2 Molecular nature of matter
12.3 Behavior of gases
12.4 Kinetic theory of an ideal gas
12.5 Laws of equipartition of energy
12.6 Specific heat capacity
12.7 Mean free path
13. OSCILLATIONS
13.1 Introduction
13.2 Periodic and oscillatory motions
13.3 Simple Harmonic motion
13.4 Simple Harmonic motion and uniform circular motion
13.5 Velocity and acceleration in simple harmonic motion
13.6 Force law for simple harmonic motion
13.7 Energy in simple harmonic motion
13.8 The Simple Pendulum
14. WAVES
14.1 Introduction
14.2 Transverse and longitudinal waves
14.3 Displacement relation in a progressive wave
14.4 The speed of a travelling wave
14.5 The principle of superposition of waves
14.6 Reflection of waves
14.7 Beats
BIE AP Inter 1st Year Chemistry Syllabus 2025-26
Unit 1 Some Basic Concepts of Chemistry1.1 Importance of Chemistry
1.2 Nature of Matter
1.3 Properties of Matter and their Measurement
1.4 Uncertainty in Measurement
1.5 Laws of Chemical Combinations
1.6 Dalton’s Atomic Theory
1.7 Atomic and Molecular Masses
1.8 Mole Concept and Molar Masses
1.9 Percentage Composition
1.10 Stoichiometry and Stoichiometric Calculations
Unit 2 Structure of Atom
2.1 Discovery of Sub-atomic Particles
2.2 Atomic Models
2.3 Developments Leading to the Bohr’s Model of Atom
2.4 Bohr’s Model for Hydrogen Atom
2.5 Towards Quantum Mechanical Model of the Atom
2.6 Quantum Mechanical Model of Atom
Unit 3 Classification of Elements and Periodicity in Properties
3.1 Why do we Need to Classify Elements?
3.2 Genesis of Periodic Classification
3.3 Modern Periodic Law and the Present Form of the Periodic Table
3.4 Nomenclature of Elements with Atomic Numbers > 100
3.5 Electronic Configurations of Elements and the Periodic Table
3.6 Electronic Configurations and Types of Elements: 82 s-, p-, d-, f- Blocks
3.7 Periodic Trends in Properties of Elements
Unit 4 Chemical Bonding and Molecular Structure
4.1 Kössel-Lewis Approach to Chemical Bonding
4.2 Ionic or Electrovalent Bond 106 4.3 Bond Parameters
4.4 The Valence Shell Electron Pair Repulsion (VSEPR) Theory
4.5 Valence Bond Theory
4.6 Hybridisation
4.7 Molecular Orbital Theory
4.8 Bonding in Some Homonuclear Diatomic Molecules
4.9 Hydrogen Bonding
Unit 5 Thermodynamics
5.1 Thermodynamic Terms
5.2 Applications
5.3 Measurement of ∆U and ∆H: Calorimetry
5.4 Enthalpy Change, ∆rH of a Reaction – Reaction Enthalpy
5.5 Enthalpies for Different Types of Reactions
5.6 Spontaneity
5.7 Gibbs Energy Change and Equilibrium
Unit 6 Equilibrium
6.1 Equilibrium in Physical Processes
6.2 Equilibrium in Chemical Processes - Dynamic Equilibrium
6.3 Law of Chemical Equilibrium and Equilibrium Constant
6.4 Homogeneous Equilibria
6.5 Heterogeneous Equilibria
6.6 Applications of Equilibrium Constants
6.7 Relationship between Equilibrium Constant K, Reaction Quotient Q and Gibbs Energy G
6.8 Factors Affecting Equilibria
6.9 Ionic Equilibrium in Solution
6.10 Acids, Bases and Salts
6.11 Ionization of Acids and Bases
6.12 Buffer Solutions
6.13 Solubility Equilibria of Sparingly Soluble Salts
Unit 7 Redox Reactions
7.1 Classical Idea of Redox Reactions-Oxidation and Reduction Reactions
7.2 Redox Reactions in Terms of Electron Transfer Reactions
7.3 Oxidation Number
7.4 Redox Reactions and Electrode Processes
Unit 8 Organic Chemistry - Some Basic Principles and Techniques
8.1 General Introduction
8.2 Tetravalence of Carbon: Shapes of Organic Compounds
8.3 Structural Representations of Organic Compounds
8.4 Classification of Organic Compounds
8.5 Nomenclature of Organic Compounds
8.6 Isomerism
8.7 Fundamental Concepts in Organic Reaction Mechanism
8.8 Methods of Purification of Organic Compounds
8.9 Qualitative Analysis of Organic Compounds
8.10 Quantitative Analysis
Unit 9 Hydrocarbons
9.1 Classification
9.2 Alkanes
9.3 Alkenes
9.4 Alkynes
9.5 Aromatic Hydrocarbon
9.6 Carcinogenicity and Toxicity
UNIT I - DIVERSITY IN THE LIVING WORLD Chapter 1 BIOLOGICAL CLASSIFICATION
1.1 Kingdom monera
1.2 Kingdom Protista
1.3 Kingdom Fungi
1.4 Kingdom Plantae
1.5 Kingdom Animalia
1.6 Viruses, viroid and Lichens
Chapter 2 PLANT KINGDOM
2.1 Algae
2.2 Bryophytes
2.3 Pteridophytes
2.4 Gymnosperms
2.5 Angiosperms
UNIT II STRUCTURAL ORGANISATION IN PLANTS Chapter 3 MORPHOLOGY OF FLOWERING PLANTS
3.1 The root
3.2 The stem
3.3 The leaf
3.4 The inflorescence
3.5 The flower
3.6 The fruit
3.7 The seed
3.8 Semi technical description of atypical flowering plant
3.9 Solanaceae
Chapter 4 ANATOMY OF FLOWERING PLANTS
4.1 The tissue system
4.2 Anatomy of Dicotyledonous and Monocotyledonous plants
UNIT III CELL STRUCTURE AND FUNCTIONS Chapter 5 CELL - THE UNIT OF LIFE
5.1 What is a cell?
5.2 Cell theory
5.3 An overview of cell
5.4 Prokaryotic cells
5.5 Eukaryotic cells
Chapter 6 BIOMOLECULES
6.1 How to analyse chemical compositon?
6.2 Primary and Secondary metabolites
6.3 Bio Macromolecules
6.4 Proteins
6.5 Polysaccharides
6.6 Nucleic acids
6.7 Stucture of proteins
6.8 Enzymes
Chapter 7 CELL CYCLE AND CELL DIVISION
7.1 Cell cycle
7.2 M phase
7.3 Significance of Mitosis
7.4 Meiosis
7.5 Significance of Meiosis
UNIT IV PLANT PHYSIOLOGY
Chapter 8 PHOTOSYNTHESIS IN HIGHER PLANTS
8.1 What do we know?
8.2 Early experiments
8.3 Where does photosynthesis takes place?
8.4 How many pigments are involved in Photosynthesis?
8.5 What is light Reaction?
8.6 The Electron Transport
8.7 Where are the ATP and NADPH used?
8.8 The C4 Pathway
8.9 Photorespiration
8.10 Factors affecting photosynthesis
Chapter 9 RESPIRATION IN PLANTS
9.1 Do plants breathe?
9.2 Glycolysis
9.3 Fermentation
9.4 Aerobic respiration
9.5 The respiratory balance sheet
9.6 Amphibolic pathway
9.7 Respiratory Quotient
Chapter 10 PLANT GROWTH AND DEVELOPMENT
10.1 Growth
10.2 Differentiation, Dedifferentiation and Redifferentiation
10.3 Development
10.4 Plant growth regulators
8.1 General Introduction
8.2 Tetravalence of Carbon: Shapes of Organic Compounds
8.3 Structural Representations of Organic Compounds
8.4 Classification of Organic Compounds
8.5 Nomenclature of Organic Compounds
8.6 Isomerism
8.7 Fundamental Concepts in Organic Reaction Mechanism
8.8 Methods of Purification of Organic Compounds
8.9 Qualitative Analysis of Organic Compounds
8.10 Quantitative Analysis
Unit 9 Hydrocarbons
9.1 Classification
9.2 Alkanes
9.3 Alkenes
9.4 Alkynes
9.5 Aromatic Hydrocarbon
9.6 Carcinogenicity and Toxicity
BIE AP Inter 1st Year Biology Syllabus 2025-26
A - BOTANYUNIT I - DIVERSITY IN THE LIVING WORLD Chapter 1 BIOLOGICAL CLASSIFICATION
1.1 Kingdom monera
1.2 Kingdom Protista
1.3 Kingdom Fungi
1.4 Kingdom Plantae
1.5 Kingdom Animalia
1.6 Viruses, viroid and Lichens
Chapter 2 PLANT KINGDOM
2.1 Algae
2.2 Bryophytes
2.3 Pteridophytes
2.4 Gymnosperms
2.5 Angiosperms
UNIT II STRUCTURAL ORGANISATION IN PLANTS Chapter 3 MORPHOLOGY OF FLOWERING PLANTS
3.1 The root
3.2 The stem
3.3 The leaf
3.4 The inflorescence
3.5 The flower
3.6 The fruit
3.7 The seed
3.8 Semi technical description of atypical flowering plant
3.9 Solanaceae
Chapter 4 ANATOMY OF FLOWERING PLANTS
4.1 The tissue system
4.2 Anatomy of Dicotyledonous and Monocotyledonous plants
UNIT III CELL STRUCTURE AND FUNCTIONS Chapter 5 CELL - THE UNIT OF LIFE
5.1 What is a cell?
5.2 Cell theory
5.3 An overview of cell
5.4 Prokaryotic cells
5.5 Eukaryotic cells
Chapter 6 BIOMOLECULES
6.1 How to analyse chemical compositon?
6.2 Primary and Secondary metabolites
6.3 Bio Macromolecules
6.4 Proteins
6.5 Polysaccharides
6.6 Nucleic acids
6.7 Stucture of proteins
6.8 Enzymes
Chapter 7 CELL CYCLE AND CELL DIVISION
7.1 Cell cycle
7.2 M phase
7.3 Significance of Mitosis
7.4 Meiosis
7.5 Significance of Meiosis
UNIT IV PLANT PHYSIOLOGY
Chapter 8 PHOTOSYNTHESIS IN HIGHER PLANTS
8.1 What do we know?
8.2 Early experiments
8.3 Where does photosynthesis takes place?
8.4 How many pigments are involved in Photosynthesis?
8.5 What is light Reaction?
8.6 The Electron Transport
8.7 Where are the ATP and NADPH used?
8.8 The C4 Pathway
8.9 Photorespiration
8.10 Factors affecting photosynthesis
Chapter 9 RESPIRATION IN PLANTS
9.1 Do plants breathe?
9.2 Glycolysis
9.3 Fermentation
9.4 Aerobic respiration
9.5 The respiratory balance sheet
9.6 Amphibolic pathway
9.7 Respiratory Quotient
Chapter 10 PLANT GROWTH AND DEVELOPMENT
10.1 Growth
10.2 Differentiation, Dedifferentiation and Redifferentiation
10.3 Development
10.4 Plant growth regulators
BIE AP Inter 1st Year English Syllabus 2025-26
| UNIT | SECTION | TITLE AND AUTHOR |
| I. THE AWAKENING |
Prose | 1.The Malady of Overthinking ……Jerome. K. Jerome |
| Poetry | 2. The Lamb, The Tyger William Blake | |
| Extensive Reading | 3. The Blind Dog ......R.K. Narayan |
|
| II. METAMORPHOSIS |
Prose | 4. Chief Seattle's Letter Chief Seattle |
| Poetry | 5. Invictus ......William Ernest Henley |
|
| Extensive Reading | 6. A Retrieved Reformation ......O. Henry | |
| III. BRAVE NEW WORLD |
Prose | 7. You've Got to Find What You Love Steve Jobs |
| Poetry | 8. Refugees ……Brian Bilston |
|
| Extensive Reading | 9.A Sound of Thunder …….Ray Bradbury | |
| IV. GRAMMAR |
Grammar | 1. Comprehension |
| 2. Information Transfer – Text to Diagram | ||
| 3. Creative Writing | ||
| 4. Articles | ||
| 5. Prepositions | ||
| 6.Verb Forms/Tense | ||
| 7. Rewrite as directed | ||
| a) Voice | ||
| b) Reported Speech | ||
| c) Degrees of Comparison | ||
| d) Simple, Complex and Compound Sentences | ||
| e) Question Tags | ||
| 8. Correction ofSentences/Common Errors | ||
| 9. Synonyms and Antonyms | ||
| 10. Phonetic Transcription | ||
| 11. Odd Sounds | ||
| 12. Dialogue Writing |
