Grade 11 NEET
May 27, 2025 2025-07-21 18:36Grade 11 NEET
Course Description
This NEET Class 11 course offers an integrated foundation across Physics, Chemistry, and Biology, structured according to the NCERT curriculum and NEET requirements. It builds a rigorous conceptual framework in each subject, combining theoretical clarity with problem-solving techniques. From mastering physical laws and chemical principles to understanding biological systems, the course is designed to develop analytical thinking, application skills, and exam readiness essential for excelling in NEET.
Learning Objective
The objective of this course is to strengthen students’ command over core concepts in Physics, Chemistry, and Biology while honing their critical thinking and problem-solving abilities. Through focused coverage of fundamental principles, real-world applications, and exam-oriented practice, the course ensures students are prepared to tackle complex NEET questions with confidence and precision.
What Will I Learn?
Students will develop a deep understanding of the mechanics of the physical world, the chemical behavior of matter, and the intricacies of living systems. The course will equip them with skills to approach theoretical and numerical problems effectively, reinforce scientific reasoning, and build a strong base for advanced topics in Class 12 and competitive exams like NEET.
Additional Info
Practice
Regular exercises and interactive activities to reinforce key concepts in each subject.
Doubt-Solving
Dedicated sessions to address and clarify any questions or difficulties students encounter.
Reports
Detailed reports on experiments and projects to track progress and understanding.
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Physics
Chemistry
Biology
Basic Maths
Function
Trigonometry
Measurement of Angle (Relation between Radian, Angle)
Trigonometric Functions
General Trigonometric Formulae
Coordinate Geometry
Quadratic Equation
Logarithm
Geometry
Differentiation
Average rate of Change
Derivative of Function
Geometrical meaning of Differentiation
Rules for Differentiation
Application of Derivatives
Maxima & Minima
Integration
Integral Formulas
Rules for Integration
Definite Integration
Application of Definite Integral
Units and Dimension
Physical Quantities
Derived quantities
System of Units and Types
Introduction to Dimensional formula
Dimensions of Physics quantities
Dimensional Analysis and its applications
Significant figures
Errors in measurement
Vectors
Scalar and Vector Quantities
Properties of vectors and their representation
Types of Vectors
Vector Addition and subtraction
Resolution of Vectors
Scalar Product
Application of Scalar Products
Vector Product
Application of Vector Product
Rectilinear Motion
Introduction to Rectilinear Motion
Rest & Motion
Distance & Displacement
Comparative study of Displacement and Distance
Speed-Velocity & its types
Acceleration & its types
Graphical Interpretation
Uniformly Accelerated Motion
Direction of Vectors in Straight Line motion
Straight line (Equation, Graph, Slope)
Parabolic Curves
Various graphs
Motion with Non-Uniform acceleration
Galileo's Statement
Projection from Ground
Time of Flight
Horizontal Range
Maximum Height
Equation of Trajectory
Projection from Tower parallel to the horizontal
Projection from Tower at an angle from the horizontal
Projection from a Moving Platform
Relative Motion
Relative Velocity in 1-D and 2-D
Rain Man and River Boat Problems
Newton's Law of Motion
Force and Types of Forces
Inertia and its types
Newton’s First law of motion
Momentum
Newton’s Second Law of motion
Average force and Impulse
Impulse Momentum theorem
Newton’s Third Law of motion
FBD
Translational equilibrium and motion
Motion of bodies in contact
Weighing Machine
Spring Balance
Pulley Problems
Constraint Motion
Spring and Cutting of Springs
Friction
Introduction to Friction and its dependence
Types of Friction and Law of friction
Angle of friction and repose
Block Problems on horizontal Surface
Block Problems on inclined surface
Two Block Problems
Circular Motion
Introduction to circular motion
Kinematics of circular motion
Uniform circular motion
Non-uniform circular motion
Equation of circular motion
Dynamics of circular motion
Banking of roads
Conical pendulum
Death well or Rotor
Work, Power, Energy
Concept of Work
Work by Constant Force
Work by Variable Force
Work done by various Forces
Kinetic Energy
Work Energy Theorem
Conservative Force
Non-Conservative Force
Potential Energy
Relation between Conservative force
Spring Potential Energy and Spring-Block System
Law of Conservation of mechanical energy
Motion in Vertical Circle
Power
COM & Collisions
Introduction to Centre of mass
COM of system of discrete particles
Center of Mass of Continuous bodies
Center of mass of Composite bodies
Center of mass of Truncated bodies
Motion of Centre of Mass
Effect of Force on Motion of COM
Law of conservation of Linear momentum
Collision and Types of collision
Head on collision
Oblique collision
Rotational Mechanics
Rigid body
Rotation motion of rigid body
Types of Rotational Motion
Kinematics of rotational motion
Moment of inertia - Introduction
Moment of Inertia of Discrete particle System
Radius of gyration
Parallel Axis Theorem
Perpendicular Axis Theorem
Moment of inertia of some regular bodies
Moment of inertia of continuous bodies
Torque
Rotational equilibrium
Relations between torque and angular acceleration
Pulley related problems
Bending of cyclist on a turn
Angular momentum of particle
Angular momentum of body rotating about fixed axis
Conservation of angular momentum
Kinetic energy of Rotation
Work Energy theorem in Rotational Motion
Rolling motion on Horizontal plane
Rolling motion on Inclined plane
Gravitation
Newton's Law of gravitation
Vector form of Law of Gravitation
Principle of Superposition
Gravitational field and its intensity
Gravitational Field due to multiple particles
Gravitational Field due to Spheres
Acceleration due to gravity
Variation in value of g with Height
Gravitational potential energy
Gravitational potential
Escape velocity and escape energy
Kepler's law of planetary motion
Satellite motion
Geo-stationary satellite & polar satellite
Weightlessness
SHM
Periodic motion and its characteristic
Introduction to Simple Harmonic Motion
Types of Simple Harmonic Motion
Equation of S.H.M.
Kinematics of S.H.M.
Energy in S.H.M. (Potential energy, Kinetic energy)
Graphs related to SHM
Oscillation of spring block system
Simple pendulum
Angular SHM
Angular SHM in different systems
Compound Pendulum
Type of oscillations (free, damped, forced oscillations, resonance)
Waves
Introduction of Waves
Classification of waves
Transverse Wave Motion
Longitudinal Wave Motion
Mechanical Waves in Different Media
Characteristics of wave motion
Sound Waves & its characteristics
Ultrasonic, Infrasonic and Audible Sound
Speed of longitudinal (Sound) waves
Effect of Various Quantities on Speed of sound
Characteristics of Sound
Principle of superposition of waves
Interference
Beats
Reflection of waves
Stationary waves in strings
Stationary Waves in Organ Pipes/Resonance tube
Transverse Stationary wave in Strings
Comparison of progressive & stationary waves
Doppler effect
Doppler's effect in reflection of sound (echo)
Elasticity
Stress
Strain
Hooke's law
Stress-Strain curve
Young's modulus
Bulk modulus
Modulus of rigidity
Properties of Fluids
Density
Density of mixtures and Average Density
Pressure exerted by static fluid
Pressure exerted by accelerated fluid
Force and torque due to fluid
Pascal's law and its applications
Archimedes Principle
Buoyant Force
Floatation
Properties of flowing fluids
Types of flow
Equation of Continuity
Bernoulli's Theorem
Application of Bernoulli's Theorem
Concept of Surface Tension and Surface energy
Excess pressure in drops and bubbles
Capillarity and Capillary rise and fall
Concept of Viscosity and factors affecting it
Stokes law and Reynolds number
Thermal Expansion and Thermometry
Thermometry
Temperature Scales
Temperature Measurement
Linear expansion
Area expansion
Volume expansion
Application of Thermal expansion
Thermal Stress and Thermal Strain
Calorimetry
Heat
Specific heat
Heat capacity
Water Equivalent
Principle of Calorimetry and Applications
Latent heat
Phase change
Calorimeter
Problems related to mixtures
Heat Transfer
Conduction
Steady state
Conductivity and thermal resistance
Concept of thermal current and rate of heat transfer
Combinations of thermal resistances
Convection and its types
Radiation and important terms
Ideal black body
Prevost theory
Stefan's Law and Stefan-Boltzmann Law
Newton's Law of cooling
KTG and Thermodynamics
KTG and Gas laws
Degree of freedom
Specific heat of gases
Different velocities of gas particles
Zeroth Law and First law of thermodynamics
Applications of first law
Different processes and Indicator diagram
Conversion of different indicator diagrams
Free expansion
Heat engine
Carnot cycle and Applications
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