Part 3 - Armenian Relativistic Dynamics
3.1 - Three Dimensional Species Transformation
3.1.1 - Definition and Transformation of Absolute Accelerations
3.1.2 - Motion under Constant Spatial Absolute Acceleration
3.1.3 - Definition and Transformation of Local Accelerations
3.1.4 - Motion under Constant Local Acceleration
3.1.5 - Absolute and Local Acceleration Conversion
3.1.6 - Straight Line Acceleration Movement in General
3.2 - Definition and Transformation of the Mass - Momentum
3.2.1 - Definition and Transformation of the Mass - Momentum Expressed by Absolute Relative Velocity
3.2.2 - Definition and Transformation of the Mass - Momentum Expressed by Local Relative Velocity
3.2.3 - Mass and Momentum Conservation Laws
3.3 - Definition and Transformations of the Relativistic Forces
3.3.1 - Definition and Transformation of Absolute Forces
3.3.2 - Definition and Transformation of Local(Newtonian) Forces
3.3.3 - Absolute and Local Force Conversion
3.4 - The Relativistic Equations of Motion
3.4.1 - The Lagrangian for a Single Particle
3.4.2 - Lagrange's Equation for a Single Particle
3.4.3 - Conservation Laws for a Free Single Particle
Part 4 - Representation Armenian Transformation in Matrix Form
4.1 - Special Case when Relative Velocity v is Parallel to x Axis
4.2 - General Case, when Relative Velocity v have the Arbitrary Direction
4.3 - Eigenvalues and Eigenvectors of Armenian Transformation Matrix
4.4 - Arrangement of Axes Coordinates of the Inertial Systems S and S'
Part 5 - Consequences of Armenian Transformation Equations
5.1 - Counterclockwise or Clockwise Angular Shift About the Velocity
5.2 - A Moving Clock Runs Faster
5.3 - A Moving Rod Expands
5.4 - Phenomena with Velocities
5.4.1 - Addition Formula for Absolute Velocities
5.4.2 - Addition Formula for Local Velocities
5.5 - Phenomena of Absolute and Local Time