CLASS XI-PHYSICS-TITLE 1
Units and Measurements
1. Physical quantities 2. Types of Physical quantities 3. System of units 4. Measurement of length 5. Size of molecule of oleic acid 6. Dimensional analysis 7. Types of quantities 8. Use of dimensional equations 9. Errors in measurement 10. Combination of errors 11. Significant figures 12. Rounding off the numbers
CLASS XI-PHYSICS-TITLE 2
Motion in a Straight Line – Part I & II
1. Uniform motion in a straight line 2. Position – time graph for uniform/non uniform motion 3. Position time graph for non-uniform motion 4. Velocity – time graph for uniform motion 5. Example – III 6. Example – IV 7. Position of object 8. Distance & displacement 9. Example of distance & displacement 10. Rectilinear motion, speed & velocity 11. Average speed & average velocity 12. Example of Average speed & average velocity 13. Example of Average speed & average velocity 14. Uniform speed & uniform velocity 15. Instantaneous speed 16. Acceleration 17. Variable acceleration 18. Uniform acceleration 19. Displacement-time & velocity-displacement relation using graphs 20. Velocity-time & displacement-time relation using calculus method
CLASS XI-PHYSICS-TITLE 3
Motion in a Straight line – Part III & IV
using calculus method 1. Velocity –displacement relation 2. Displacement in nth second 3. Vertical motion under gravity 4. Example – I 5. Example – II 6. Numerical – I 7. Numerical - II 8. Numerical - III 9. Numerical - IV 10. Numerical – V 11. Relative motion in one dimension 12. Determination of relative velocity 13. Example of relative velocity
CLASS XI-PHYSICS-TITLE 4
Motion in a Plane
1. Motion in plan 2. Types of vectors 3. Laws of vector addition 4. Resolution of vectors 5. Resolution of vectors in three dimensions 6. Condition for zero resultant vectors 7. Relative velocity in two dimensions 8. Application of relative velocity in two dimensions 9. Example – I 10. Example – II 11. Example – III 12. Projectile motion 13. Applications 14. Circular motion 15. Uniform circular motion
CLASS XI-PHYSICS-TITLE 5
Laws of Motion
1. Newton’s first law of motion 2. Inertia 3. Linear momentum 4. Newton’s second law of motion 5. Impulse 6. Application of the concept of impulse 7. Newton’s third law of motion 8. Principle of conservation of linear momentum 9. Application of conservation of linear momentum 10. Example – I 11. Example – II 12. Second law is the real law of motion 13. Apparent weight of a man in a lift 14. Connected motion 15. Example – III 16. Example – IV 17. Example – V 18. Example – VI 19. Friction 20. Dynamics of uniform circular motion 21. Rounding a level curved road 22. Banking of roads 23. Dynamics of non-uniform circular motion 24. Example – VI 25. Example – VII 26. Example – VIII 27. Example – IX 28. Example – X 29. Example – XI 30. Example – XII
CLASS XI-PHYSICS-TITLE 6
Work, Energy and Power
1. The scalar product 2. Dot product of two vectors 3. Work 4. Work done by a variable force 5. Conservative & non-conservative forces 6. Example – I 7. Example – II 8. Example – III 9. Power 10. Energy 11. Mechanical energy 12. Work energy Theorem 13. Example – IV 14. Example – V 15. Example – VI 16. Example – VII 17. Potential energy 18. Potential energy of spring 19. Mechanical energy and its conservation 20. Explanation of conservation of Mechanical energy
CLASS XI-PHYSICS-TITLE 7
System of Particles and Rotational Motion
1. Introduction and kinds of motion of rigid body 2. Centre of mass 3. Example 4. Motion of centre of mass 5. Linear momentum of a system of particles 6. Vector product of two vectors 7. Cross product of two vectors 8. Example – I 9. Angular velocity & its relation with linear velocity 10. Equations of rotational motion 11. Example – II 12. Moment of force or torque 13. Angular momentum 14. Equilibrium of rigid body 15. Principle of moments 16. Centre of gravity 17. Example – III 18. Moment of inertia 19. Radius of gyration 20. Torque & movement of inertia 21. Principle of conservation of Angular momentum 22. Theorem of parallel axes 23. Moment of inertia of bodies of regular shape 24. Rolling motion 25. Kinetic energy of rolling motion 26. Example – I 27. Example – II 28. Example – III
CLASS XI-PHYSICS-TITLE 8
Gravitation
1. Kepler’s law 2. Newton’s law of gravitation 3. Gravitational constant 4. Acceleration due to gravity 5. Gravitational field 6. Gravitational potential 7. Gravitational potential energy 8. Satellite geostationary satellite &polar satellite 9. Escape speed 10. Weightlessness in satellite 11. Example
CLASS XI-PHYSICS-TITLE 9
Mechanical Properties of solids, Kinetic Theory
1. Mechanical properties of solids 2. Stress 3. Strain 4. Hooke’s law 5. Stress – strain curve 6. Modulus of elasticity 7. Numerical based on young’s modulus 8. Bulk modulus of elasticity and numerical 9. Shear modulus (G) and numerical 10. Applications of elastic behavior of material 11. Elastic potential energy in stretched wire 12. Numerical based on elastic potential energy stored in a stretched wire 13. Behavior of perfect gas and kinetic theory 14. Avogadro’s hypothesis 15. Perfect gas equation 16. Gas laws 17. Kinetic theory of gases 18. Pressure of an ideal gas 19. Average kinetic energy and kinetic interpretation of temperature
CLASS XI-PHYSICS-TITLE 10
Thermal Properties of Matter
1. Thermal properties of matter 2. Measurement of temperature 3. Thermal expansion 4. Relationship between α, β and Ƴ 5. Thermal stress and effect of temperature on density of solids and liquids 6. Numerical on thermal expansion 7. Specific heat capacity or specific heat 8. Variation of specific heat of water with temperature water equivalent 9. Calorimetry 10. Change of state 11. Triple point of substance 12. Latent heat 13. Numerical on specific heat 14. Numerical on latent heat 15. Transfer of heat 16. Thermal conductivity 17. Newton’s law of cooling and numerical 18. Numerical on thermal conductivity 19. Example related to thermal conductivity
CLASS XI-PHYSICS-TITLE 11
Thermodynamics
1. Thermodynamics 2. First law of Thermodynamics 3. Thermodynamic process 4. Isothermal process 5. Work done in isothermal expansion 6. Adiabatic change 7. Work done in adiabatic expansion 8. Isochoric process 9. Specific heat capacity of gas 10. Applications of first law of Thermodynamics 11. Melting process and boiling process 12. Relation between principle specific heat of a gas (Mayer’s formula) 13. Heat engine 14. Carnot cycle (Engine) 15. Efficiency of Carnot Engine 16. Principle of Refrigerator 17. Second law of Thermodynamics 18. Numerical on Carnot Engine 19. Numerical based on first law of Thermodynamics 20. Numerical based on Heat engine
CLASS XI-PHYSICS-TITLE 12
Mechanical Properties of Fluids
1. Mechanical properties of fluids 2. Applications of the concept of pressure 3. Density and relative density 4. Variation of pressure with depth 5. Hydrostatic paradox 6. Pascal’s law 7. Atmospheric pressure 8. Torricelli’s pressure 9. Various units for Atmospheric pressure 10. Measurement of pressure difference 11. Hydraulic machine 12. Numerical based on pressure 13. Capillarity 14. Rise of liquid in capillary tube 15. Numerical 16. Fluids in motion 17. Poiseuille’s formula 18. Stoke’s law 19. Terminal velocity 20. Numerical on viscous force 21. Numerical on terminal velocity 22. Streamline, laminar and turbulent flow 23. Critical velocity 24. Reynolds number 25. Equation of continuity 26. Energy of liquid 27. Bernoulli’s theorem 28. Venturimeter 29. Numerical on equation of continuity 30. Numerical on Bernoulli’s principle 31. Speed of efflux (Torricelli’s law) 32. Numerical on speed of efflux
CLASS XI-PHYSICS-TITLE 13
Oscillations
1. Displacement 2. Simple harmonic motion 3. Simple harmonic oscillation 4. Important terms 5. Phase 6. Simple harmonic motion and uniform circular motion 7. Velocity in simple harmonic motion 8. Acceleration in simple harmonic motion 9. Graphical Representation of displacement and velocity in S.H.M. 10. Velocity, acceleration and displacement in simple harmonic motion 11. Energy in simple harmonic motion 12. Simple pendulum 13. Oscillations of loaded spring 14. Vibration of spring in vertical direction 15. Oscillations of loaded spring combination 16. Damped and undamped oscillations 17. Free and forced oscillations 18. Resonant oscillations 19. Numerical – I 20. Numerical – II 21. Numerical – III 22. Numerical – IV 23. Numerical – V
CLASS XI-PHYSICS-TITLE 14
Waves
1. Waves 2. Types of mechanical waves 3. Equation of a plane progressive simple harmonic wave 4. Speed of travelling wave 5. Speed of longitudinal waves 6. Newton’s formula for velocity of sound in gases 7. Factors affecting velocity of sound 8. Reflection of waves due to rigid support 9. Principle of superposition of waves 10. Formation of standing waves by graphical method 11. Characteristics of standing waves 12. Standing waves in strings and normal mode of operation 13. Modes of vibration 14. Laws of vibration of stretched strings 15. Standing waves in open organ pipes 16. First normal mode of vibration in open organ pipes 17. Mathematical treatment of beats 18. Doppler Effect in sound 19. Numerical on Doppler Effect 20. Numerical on open organ pipes 21. Numerical on transverse waves 22. Application of the phenomenon of beats 23. Numerical on beats