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Content Kinematics - Physical reality and its modeling
- Velocity for an arbitrary motion
- Acceleration for an arbitrary motion
- Types of acceleration
- Reconstructing motion equation
- Galilean transformations
Dynamics - Dynamics of material point
- Laws of Newton
- Types of forces in point mechanics
- The system of interacting particles
- Centre of mass
- A theorem on the motion of the centre of mass
- Motion of a body with variable mass
- Conservation of linear momentum
- Description of the rigid body motion
- Rectilinear motion
- Rotational motion
- The Basic Law of a rigid body rotational dynamics in differential form
- Law of conservation of angular momentum
- Moment of inertia of a rigid body
- Huygens-Steiner theorem
- Work and energy
- Work
- Kinetic energy theorem
- Potential fields
- Potential energy
- Energy conservation law
- Collision of point particles
- Perfectly-inelastic collision
- Perfectly-elastic collision, central
- Perfectly-elastic collision, non central
- Gravitational field
- The universal law of gravitation
- Equivalence principle
- Potentiality of gravitational field
- Motion in a central field
- Kepler problem
- Kepler laws
- Non-inertial reference frames
- Gravitational force and weight of a body
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 | Laboratory guide
Methodical Instructions in General Physics Laboratory Practice Work for Students of all Specializations. |
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