Physics

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Nayanam AI 10 Months Ago
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      1.1. The nature of physics 1.2. Solving Physics Problems 1.3. Idealized Models 1.4. Standards and Units 1.5. Fundamental units - Time 1.6. Fundamental units - Length 1.7. Fundamantal units - Mass 1.8. The seven fundamental units 1.9. Derived Units - 1 1.10. Derived Units - 2 1.11. Derived Units - 3 1.12. Metric System
      2.1. Straight line motion, average and instantaneous velocity 2.2. Straight-line motion with constant acceleration 2.3. Average and Instantaneous acceleration 2.4. Freely Falling Bodies 2.5. Straight line motion with varying acceleration
      3.1. Position, velocity and acceleration vectors 3.2. Projectile Motion 3.3. Uniform and Nonuniform circular motion 3.4. Relative Velocity
      4.1. Force as a Vector 4.2. Newton’s First Law (net forces on a body) 4.3. Newton’s Second Law (Mass and Acceleration) 4.4. Newton’s Third Law 4.5. Weight
      5.1. sing Newton’s First Law 5.2. Using Newton’s Second Law 5.3. Friction and Fluid Resistance 5.4. Forces in circular motion
      6.1. Work done by a force 6.2. Kinetic Energy 6.3. The Work-Energy Theorem 6.4. Work done by varying force on a curved path 6.5. Power
      7.1. Gravitational and elastic potential energy 7.2. Mechanical energy is conserved 7.3. Mechanical energy is not conserved 7.4. Law of conservation of energy 7.5. Determining force from potential energy
      8.1. Momentum of a particle 8.2. Impulse and momentum 8.3. Conservation of momentum 8.4. Collisions 8.5. Center of mass 8.6. Rocket propulsion
      9.1. Rotational kinematics 9.2. Relating linear and angular kinematics 9.3. Moment of inertia and rotational kinematics 9.4. Calculating the moment of inertia
      10.1. Torque 10.2. Rotational dynamics 10.3. Combined translation and rotation 10.4. Work done by a torque 10.5. Angular momentum 10.6. Rotational dynamics and angular momentum
      11.1. Conditions of equilibrium 11.2. Stress, strain and Hooke's law 11.3. Tensile and compressive stress 11.4. Bulk stress 11.5. Shear stress 11.6. The limits of Hooke's law
      12.1. Density and pressure 12.2. Pressures in a fluid at rest 12.3. Buoyancy 12.4. Fluid flow
      13.1. Newton's law of gravitation 13.2. Gravitational forces, weight and gravitational potential energy 13.3. Orbits 13.4. Black holes
      14.1. Periodic motion 14.2. Simple harmonic motion 14.3. Energy in simple harmonic motion 14.4. Angular simple harmonic motion 14.5. Simple pendulum 14.6. Physical pendulum 14.7. Damped oscillations 14.8. Forced oscillations amd resonance
      15.1. Waves and their properties 15.2. Wave functions and wave dynamics 15.3. Wave power 15.4. Wave superposition 15.5. Standing waves on a string
      16.1. Sound waves 16.2. Intensity and sound intensity level 16.3. Standing sound waves 16.4. Interference 16.5. Beats 16.6. Doppler effect 16.7. Shock waves
      17.1. Temperature and temperature scales 17.2. Thermal expansion and thermal stress 17.3. Heat, phase change and calorimetry 17.4. Conduction, convection and radiation
      18.1. Equations of state 18.2. Molecular properties of matter 18.3. Kinetic-molecular model of an ideal gas 18.4. Heat capacities 18.5. Molecular speeds 18.6. Phases of matter
      19.1. Heat and work in thermodynamic processes 19.2. The first law of thermodynamics 19.3. Important kinds of thermodynamic processes 19.4. Thermodynamics of ideal gases 19.5. Adiabatic processes in ideal gases
      20.1. Reversible and irreversible processes 20.2. Heat engines 20.3. The Otto cycle 20.4. Refrigerators 20.5. The second law of thermodynamics 20.6. The Carnot cycle
Chapters
1. MECHANICS - Units and Physical Quantities
2. MECHANICS - Motion along a straight line
3. MECHANICS - Motion in 2 and 3 dimensions
4. MECHANICS - Newton's laws of motion
5. MECHANICS - Applying Newton’s Laws
6. MECHANICS - Work and Kinetic Energy
7. MECHANICS – Potential energy and energy conversion
8. MECHANICS – Momentum, Impulse and Collisions
9. MECHANICS - Rotation of rigid bodies
10. MECHANICS - Dynamics of Rotational Motion
11. MECHANICS - Equilibrium and Elasticity
12. MECHANICS - Fluid Mechanics
13. MECHANICS - Gravitation
14. MECHANICS - Periodic motion
15. WAVES/AUCOSTICS - Mechanical waves
16. WAVES/AUCOSTICS - Sound and Hearing
17. THERMODYNAMICS - Temperature and Heat
18. THERMODYNAMICS - Thermal properties of matter
19. THERMODYNAMICS - The first law of thermodynamics
20. THERMODYNAMICS - The second law of thermodynamics