CBSE Class 11th Physics

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Physics is often seen as the toughest subject by students. The intricate theories, complex formulas, and challenging applications make it a daunting part of the curriculum, especially for those aiming for competitive exams like NEET and JEE. Many students find it hard to grasp physics, and without a solid foundation, it can feel overwhelming.

At Learn to Lead Academy, we specialize in helping students overcome their fear of physics. Our approach starts from the basics, ensuring that each concept is clear and understandable before moving to advanced topics. We break down complex principles and guide students through step-by-step problem-solving methods, helping them build confidence and competence in the subject.

Physics plays a critical role in NEET and JEE, with questions that test not just rote learning but a student’s ability to think analytically and apply knowledge in new ways. A strong command of physics can significantly enhance a student’s score and open doors to top engineering and medical institutions.

Learn to Lead Academy offers targeted courses for physics, designed to help students succeed. We cover NCERT Class 11th and 12th syllabi, focusing on essential problem-solving skills and giving students a complete understanding of the subject. Our NEET 2025 Physics Problem-Solving Class provides intensive preparation tailored specifically to the NEET exam format.

Admissions are now open! Join our program, and let us help your child transform physics from the toughest subject into one of their strengths.

NCERT Class 11th Syllabus

Unit 1: Physical world and Measurement 

Chapter 2: Units and measurements 

  • Need for measurement
    • Fundamental and derived units 
    • SI units 
    • Systems of units 
    • Units of measurement 
  • Dimensional analysis and its applications 
  • Dimensions of physical quantities 
  • Significant figures 

Unit 2: Kinematics

Chapter 3: Motion in a Straight Line Frame of reference 

  • Relations for uniformly accelerated motions [graphical treatment]
  • Velocity time and position graphs 
  • Uniformly accelerated motion 
  • Instantaneous velocity 
  • Non uniform motion 
  • Uniform motion 
  • Elementary concepts of differentiation and integration for describing motion 
  • Motion in a straight line 

Chapter 4: Motion in a Plane Scalar and Vector Quantities 

  • Uniform circular motion 
  • Cases of uniform velocity and uniform accelerated projectile motion 
  • Motion in a place 
  • Scalar and vector products of vectors 
  • Rectangular components 
  • Resolution of a vector in a plane 
  • Unit vector 
  • Addition and subtraction of vectors 
  • Multiplication of vectors by a real number 
  • Equality of vectors 
  • General vectors and their notations 
  • Position and displacement of vectors 

Unit 3: Laws of Motion 

Chapter 5: Laws of Motion 

  • Examples of circular motion [vehicle on a banker road, vehicle on a level circular road]
  • Cenrtipetal force 
  • Dynamics of uniform circular motion 
  • Lubrication 
  • Rolling friction 
  • Laws of friction 
  • Static and kinetic friction 
  • Equilibrium of concurrent forces 
  • Law of conservation of linear momentum and its application 
  • Newton’s third law of motion 
  • Impulse 
  • Newton’s second law of motion 
  • Momentum 
  • Newton’s first law of motion 
  • Inertia 
  • Intuitive concept of force 

Unit 4: Work, Energy and Power

Chapter–6: Work, Energy and Power

  • Elastic and inelastic collisions in one and two dimensions 
  • Motion in a vertical circle 
  • Non conservatuve forces 
  • Comservtave forces 
  • Potential energy of a spring 
  • Notion of potential energy 
  • Power
  • Work energy theorem 
  • Kinetic energy 
  • Work, energy and power done by a constant force and a variable force 

Unit 5: Motion of Systems of Particles and Rigid Body 

Chapter 7: System of Particles and Rotational Motion 

  • Values of moments of inertia for simple geometrical objects [no deviation]
  • Radius of gyration 
  • Moment of inertia
  • Comparison of linear and rotational motions 
  • Rigid body rotation and equations of rotational motions 
  • Equilibrium of rigid bodies 
  • Law of conservation of angular momentum and its applications 
  • Angular momentum 
  • Torque 
  • Moment of a force 
  • Center of mass of a uniform rod 
  • Center of mass of a rigid body 
  • Center of mass motion 
  • Momentum conservation 
  • Center of mass of a two particle system 

Unit 6: Gravitation 

Chapter–8: Gravitation

  • Orbital velocity of a satellite 
  • Escape velocity 
  • Gravitational potential energy and gravitational potential 
  • Acceleration due to gravity and its variation with altitude and depth 
  • Universal law of gravitation 
  • Kepler’s laws of planetary motion 

Unit 7: Properties of Bulk Matter

Chapter 9: Mechanical Properties of Solids

  • Elastic energy 
  • Poisson’s ratio
  • Shear modulus of rigidity 
  • Bulk modulus 
  • Young’s modulus 
  • Hooke’s law
  • Stress strain relationship 
  • Elasticity 

Chapter 10: Mechanical Property of Fluids 

  • Bubbles and capillary rise 
  • Applications of surface tension ideas to drops 
  • Excess of pressure across a curved surface 
  • Angle of contact 
  • Surface energy and surface tension 
  • Bernoulli’s theorem and its simple applications 
  • Critical velocity 
  • Streamline and turbulent flow 
  • Terminal velocity 
  • Stokes law
  • Viscosity 
  • Effect of gravity on fluid pressure 
  • Pascals law and its applications [hydraulic brakes and lift]
  • Pressure due to a fluid column 

Chapter 11: Thermal Properties of Matter

  • Stefan’s law
  • Wien displacement law
  • Qualitative ideas of blackbody radiation 
  • Thermal conductivity 
  • Convection and radiation
  • Heat transfer – conduction 
  • Change of state – latent heat capacity 
  • Cp
  • Cv – calorimetry 
  • Specific heat capacity 
  • Anomalous expansion of water 
  • Thermal expansion of solids, liquids and gasses 
  • Thermal expansion 
  • Temperature 
  • Heat 

Unit 8: Thermodynamics 

Chapter–12: Thermodynamics

  • Change of condition of gaseous state
    • Cyclic processes 
    • Irreversible 
    • Reversible 
    • Adiabatic 
    • Isothermal 
  • Gaseous state of matter 
  • Second law of thermodynamics 
  • First law of thermodynamics 
  • Heat, work and internal energy 
  • Thermal equilibrium 
  • Definition zeroth law of thermodynamics 

Unit 9: Behavior of Perfect Gasses and Kinetic Theory of Gasses 

Chapter–13: Kinetic Theory

  • Avogadro’s number 
  • Concept of free path 
  • Law of equipartition energy [statement only] and application to specific heat capacities 
  • Degrees of freedom 
  • Rms speed of gas molecules 
  • Kinetic interpretation of temperature 
  • Concept of pressure 
  • Kinetic theory of gasses assumptions 
  • Work done in compressing a gas 
  • Equation of state of a perfect gas 

Unit 10: Oscillations and Waves 

Chapter 14: Oscillations 

  • Simple pendulum derivation of expression for its time period 
  • Kinetic and potential energies 
  • Energy in SHM 
  • Restoring force and force constant 
  • Oscillations of a loaded spring 
  • Phase 
  • Simple harmonic motion and ist equations of motion 
  • Periodic functions and their applications 
  • Displacement as a function of tim 
  • Frequency 
  • Periodic motion – time period 

Chapter 15: Waves 

  • Beats 
  • Fundamental mode and harmonics 
  • Standing waves in strings and organ pipes
  • Reflection of waves 
  • Principle of superposition of waves 
  • Relation for a progression wave 
  • Displacement 
  • Speed of traveling wave 
  • Traverse and longitudinal waves

Enroll Now – CBSE Class 11th Physics

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Enroll Now – NEET 2025 Physics Problem solving Course