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Physics (Vol 1 (Mechanics (Rotational mechanics (Rotation of a rigid body…

- - - - Introduction
        
        Newtons third law
      - Gravitational force
        
        Gravitation force on small bodies by the earth
      - EM force
        
        Forces between two surfaces in contact
        
        Tension in a string
        
        Force due to spring.
      - Nuclear forces
      - Weak forces
      - Scope of classical physics
    - - First law of motion
        
        Inertial frames other than earth
      - Second law of motion
      - Working with newton's first and second law
        
        Decide the system
        
        Identify the forces
        
        Make a free body diagram
        
        Choose axes and write equations
      - Newtons third law of motion
        
        Working with tension on string
      - Pseudo forces
      - The horse and the kart
      - Inertia
    - - Angular variables
      - Unit vectors along radius and the tangent
      - Acceleration in circular motion
      - Dynamics in circular motion
      - Circular turnings and banking of roads
      - Centrifugal force
      - Effect of earth's rotation on apparent weight
    - - Kinetic energy
      - Work and work energy theorem
      - Calculations of work done
      - Work energy theorem for a system of particles
      - Potential energy
      - Conservative and non conservatice force
      - Definition of potential energy and conservation mechanical energy
      - Change in P.E in rigid body motion
      - Gravitational potential energy
      - P.E of a compressed or extended string
      - Different forms of energy:
    - - Centre of mass
      - Center of mass of continuous bodies
      - Motion of center of mass
      - Linear momentum and its conservation principle
      - Rocket propulsion
      - Collision
      - Elastic collision in one dimension
      - Perfectly inelastic collision in one dimension
      - Coefficient of restitution
      - Elastic collision in two dimensions
      - Impulse and impulsive forces
    - - Rotation of a rigid body about a given fixed line
      - Kinematics
      - Rotational dynamics
      - Torque of force about the axis of rotation
      - Torque =IA
      - Bodies in equilibrium
      - Bending of cyclist on a horizontal turn
      - Angular momentum
      - L=Iw
      - Conservation of angular momentum
      - Angular impulse
      - Kinetic energy of a rigid body rotating about a given axis
      - Power delivered and work done by a torque
      - Calculations of moment of inertial
      - Two important theorems on moment of inertial
      - Combined rotation and translation
      - Rolling
      - Kinetic energy of a body in combined rotation and translation
      - Angular momentum of body in combined rotation and translation
      - Why does a rolling sphere slow down?
    - - Fluids
      - Pressure in fluid
      - Pascal's law
      - Atmospheric pressure and barometer
      - Archimedes principle
      - Pressure difference and buoyant forces in accelerating fluids
      - Flow of fluids
      - Steady and turbulent flow
      - Irrotational flow of an incompressible and nonviscous fluids
      - Equation of continuity
      - Bernoullis equation
      - applications of bernousllis equation
    - - Rest and Motion
      - Distance and displacement
      - Avg speed and inst
      - Avg velocity and inst
      - Avg acceleration and inst
      - Motion in straight line
        
        Motion with constant acceleration
        
        Freely falling bodies
      - Motion in a plane
      - Projectile motion
        
        Horizontal motion
        
        Time of flight
        
        Range
        
        Maximum height reached
      - Change of frame