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CBSE is also known for its flexible and well framed syllabus patterns that can be adapted by any kind of students of different potentials, and give every chance to score well in class 11 exams.
TOPICS
- Physical World
- Work, Energy and Power
- Thermal Properties of Matter
- Units and Measurement
- System of Particles and Rotational Motion
- Thermodynamics
- Motion in a Straight Line
- Motion in a Plane
- Kinetic Theory
- Gravitation
- Laws of Motion
- Oscillation
- Mechanical Properties of Solids
- Waves
- Mechanical Properties of Fluids
1.A. What is Physics?
1.B. Scope and excitement of Physics
1.C. Physics technology and society
1.D. Fundamental forces in nature
1.E. Nature of Physical laws
2.A. The Scalar product
2.B. Work
2.C. Kinetic energy
2.D. Work done by a variable force
2.E. Work energy theorem for variable force
2.F. Concept of potential energy
2.G. Conservation of mechanical energy
2.H. Vertical circular motion
2.I. Potential energy of spring
2.J. Various forms of energy
2.H. Law of conservation of energy
2.I. Power
2.J. Collisions: In one dimension and two dimension (elastic and non elastic)
2.B. Work
2.C. Kinetic energy
2.D. Work done by a variable force
2.E. Work energy theorem for variable force
2.F. Concept of potential energy
2.G. Conservation of mechanical energy
2.H. Vertical circular motion
2.I. Potential energy of spring
2.J. Various forms of energy
2.H. Law of conservation of energy
2.I. Power
2.J. Collisions: In one dimension and two dimension (elastic and non elastic)
3.A. Temperature and heat
3.B. Measurement of temperature
3.C. Ideal gas equation and absolute temperature
3.D. Thermal expansion
3.E. Specific heat capacity
3.F. Calorimetry
3.G. Change of state: boiling point
3.H. Change of state: melting point
3.I. Latent heat
3.J. Heat transfer: Conduction
3.K. Convection
3.L. Radiation
3.M. Black Body and Black Body Radiation
3.N. Black Body Radiation – Wein’s displacement Law
3.O. Black Body Radiation: Stefan Boltzmann law
3.P. Newton’s law of cooling
3.B. Measurement of temperature
3.C. Ideal gas equation and absolute temperature
3.D. Thermal expansion
3.E. Specific heat capacity
3.F. Calorimetry
3.G. Change of state: boiling point
3.H. Change of state: melting point
3.I. Latent heat
3.J. Heat transfer: Conduction
3.K. Convection
3.L. Radiation
3.M. Black Body and Black Body Radiation
3.N. Black Body Radiation – Wein’s displacement Law
3.O. Black Body Radiation: Stefan Boltzmann law
3.P. Newton’s law of cooling
4.A. Introduction to International system of units
4.B. Measurement of length
4.C. Measurement of mass
4.D. Measurement of time
4.E. Accuracy and precision of measurements and errors in measurement
4.F. Absolute error, relative error and percentage error
4.G. Combination of errors
4.H. Significant figures
4.I. Dimension of physical quantity, dimension formula and equation
4.J. Dimensional analysis and application
4.B. Measurement of length
4.C. Measurement of mass
4.D. Measurement of time
4.E. Accuracy and precision of measurements and errors in measurement
4.F. Absolute error, relative error and percentage error
4.G. Combination of errors
4.H. Significant figures
4.I. Dimension of physical quantity, dimension formula and equation
4.J. Dimensional analysis and application
5.A. What kind of a motion can a rigid body have
5.B. Center of mass
5.C. Motion of center of mass
5.D. Linear momentum of system of particle
5.E. Vector product of two vectors
5.F. Angular velocity and its relation with linear velocity
5.G. Torque
5.H. Angular momentum
5.I. Torque and angular momentum of system, law of conservation of angular momentum
5.J. Equilibrium of rigid body
5.K. Moment of inertia
5.L. Theorems of perpendicular and parallel axes
5.M. Kinematics of rotational motion around a fixed axis
5.N. Dynamics of rotational motion about a fixed axis
5.O. Angular momentum in case of rotation about fixed axis
5.P. Rolling motion
5.B. Center of mass
5.C. Motion of center of mass
5.D. Linear momentum of system of particle
5.E. Vector product of two vectors
5.F. Angular velocity and its relation with linear velocity
5.G. Torque
5.H. Angular momentum
5.I. Torque and angular momentum of system, law of conservation of angular momentum
5.J. Equilibrium of rigid body
5.K. Moment of inertia
5.L. Theorems of perpendicular and parallel axes
5.M. Kinematics of rotational motion around a fixed axis
5.N. Dynamics of rotational motion about a fixed axis
5.O. Angular momentum in case of rotation about fixed axis
5.P. Rolling motion
6.A. Thermal equilibrium and Zeroth law of thermodynamics
6.B. Heat, energy and work
6.C. First law of thermodynamics
6.D. Thermodynamic state variable and equation of state
6.E. Thermodynamic process
6.F. Heat engines
6.G. Refrigerator and heat pump
6.H. Second law of thermodynamics
6.I. Reversible and irreversible processes
6.J. Carnot’s engine
6.B. Heat, energy and work
6.C. First law of thermodynamics
6.D. Thermodynamic state variable and equation of state
6.E. Thermodynamic process
6.F. Heat engines
6.G. Refrigerator and heat pump
6.H. Second law of thermodynamics
6.I. Reversible and irreversible processes
6.J. Carnot’s engine
7.A. Position, path length and displacement
7.B. Average velocity and average
7.C. Instantaneous velocity and speed
7.D. Acceleration
7.E. Uniformly accelerated motion
7.F. Relative velocity
7.B. Average velocity and average
7.C. Instantaneous velocity and speed
7.D. Acceleration
7.E. Uniformly accelerated motion
7.F. Relative velocity
8.A. Scalars and Vectors
8.B. Position and displacement vectors
8.C. Equality of vectors
8.D. Multiplication of vector by real number
8.E. Addition and subtraction of vector: graphical method
8.F. Resolution of vectors
8.G. Vector addition- analytical method
8.H. Vector and scalar product
8.I. Motion in a plane with constant acceleration
8.J. Relative velocity in two dimension
8.K. Projectile motion
8.L. Uniform circular motion
8.B. Position and displacement vectors
8.C. Equality of vectors
8.D. Multiplication of vector by real number
8.E. Addition and subtraction of vector: graphical method
8.F. Resolution of vectors
8.G. Vector addition- analytical method
8.H. Vector and scalar product
8.I. Motion in a plane with constant acceleration
8.J. Relative velocity in two dimension
8.K. Projectile motion
8.L. Uniform circular motion
9.A. Molecular nature of matter
9.B. Behavior of gases
9.C. Kinetic theory of gases: Assumptions
9.D. Kinetic theory of an ideal gas: Pressure of an ideal gas
9.E. Kinetic interpretation of temperature
9.F. Law of equi-partition of energy
9.G. Avogadro’s constant
9.H. Mean free path
9.B. Behavior of gases
9.C. Kinetic theory of gases: Assumptions
9.D. Kinetic theory of an ideal gas: Pressure of an ideal gas
9.E. Kinetic interpretation of temperature
9.F. Law of equi-partition of energy
9.G. Avogadro’s constant
9.H. Mean free path
10.A. Kepler’s law
10.B. Universal law of gravitation
10.C. The gravitational constant
10.D. Acceleration due to gravity of earth
10.E. Acceleration due to gravity above and below the earths surface
10.F. Gravitational potential energy
10.G. Escape speed
10.H. Earth satellite
10.I. Energy of an orbiting satellite
10.J. Weightlessness
10.B. Universal law of gravitation
10.C. The gravitational constant
10.D. Acceleration due to gravity of earth
10.E. Acceleration due to gravity above and below the earths surface
10.F. Gravitational potential energy
10.G. Escape speed
10.H. Earth satellite
10.I. Energy of an orbiting satellite
10.J. Weightlessness
11.A. Aristotle Fallacy
11.B. Law of inertia
11.C. Newton’s first law of motion
11.D. Newton’s second law of motion and momentum
11.E. Newton’s third law of motion
11.F. Conservation of momentum
11.G. Equilibrium of a particle
11.H. Static and kinetic friction
11.I. Law of friction
11.J. Rolling friction
11.K. Circular motion
11.L. Solving problems in mechanics
11.B. Law of inertia
11.C. Newton’s first law of motion
11.D. Newton’s second law of motion and momentum
11.E. Newton’s third law of motion
11.F. Conservation of momentum
11.G. Equilibrium of a particle
11.H. Static and kinetic friction
11.I. Law of friction
11.J. Rolling friction
11.K. Circular motion
11.L. Solving problems in mechanics
12.A. Periodic and oscillatory motion
12.B. Simple harmonic motion
12.C. Simple harmonic motion and uniform circular motion
12.D. Velocity and acceleration in simple harmonic motion
12.E. Force law for simple harmonic motion
12.F. Energy in simple harmonic motion
12.G. Some systems executing simple harmonic motion: oscillation due to spring
12.H. The simple pendulum
12.I. Damped simple harmonic motion
12.J. Forced oscillation and resonance
12.B. Simple harmonic motion
12.C. Simple harmonic motion and uniform circular motion
12.D. Velocity and acceleration in simple harmonic motion
12.E. Force law for simple harmonic motion
12.F. Energy in simple harmonic motion
12.G. Some systems executing simple harmonic motion: oscillation due to spring
12.H. The simple pendulum
12.I. Damped simple harmonic motion
12.J. Forced oscillation and resonance
13.A. Elastic behavior of solids
13.B. Stress and strain
13.C. Hooke’s law and the stress strain curve
13.D. Elastic moduli: Young’s modulus
13.E. Shear modulus
13.F. Bulk modulus
13.G. Elastic energy
13.H. Application of elastic behavior of materials
13.B. Stress and strain
13.C. Hooke’s law and the stress strain curve
13.D. Elastic moduli: Young’s modulus
13.E. Shear modulus
13.F. Bulk modulus
13.G. Elastic energy
13.H. Application of elastic behavior of materials
14.A. Transverse and longitudinal waves
14.B. Displacement relation in a progressive wave
14.C. Period angular frequency and frequency
14.D. Speed of travelling wave
14.E. Principle of superposition of waves
14.F. Reflection of waves
14.G. Standing waves and normal modes
14.H. Beats
14.I. Doppler effect
14.B. Displacement relation in a progressive wave
14.C. Period angular frequency and frequency
14.D. Speed of travelling wave
14.E. Principle of superposition of waves
14.F. Reflection of waves
14.G. Standing waves and normal modes
14.H. Beats
14.I. Doppler effect
15.A. Pressure
15.B. Pascal’s law, variation of pressure with depth
15.C. Atmospheric pressure and Gauge pressure
15.D. Hydraulic machines
15.E. Streamline flow
15.F. Bernouli’s principle
15.G. Speed of efflux, Venturimeter
15.H. Dynamic lift
15.I. Viscosity
15.J. Reynold’s number
15.K. Surface tension
15.L. Surface energy
15.M. Pressure in drop and bubbles, Capillary rise
15.N. Detergents and surface tension
15.B. Pascal’s law, variation of pressure with depth
15.C. Atmospheric pressure and Gauge pressure
15.D. Hydraulic machines
15.E. Streamline flow
15.F. Bernouli’s principle
15.G. Speed of efflux, Venturimeter
15.H. Dynamic lift
15.I. Viscosity
15.J. Reynold’s number
15.K. Surface tension
15.L. Surface energy
15.M. Pressure in drop and bubbles, Capillary rise
15.N. Detergents and surface tension
