Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803
28-09-2024
This type of kinetic energy adheres to the classical mass-energy equivalence principle but, in the context of extended classical mechanics, involves negative apparent mass or the negative effective mass of dark energy.
It results in atomic energy changes, such as shifts in electron energy, photon re-emission, or free electron release, like thermionic emission.
Mechanical kinetic energy plays a role in motion and gravitational dynamics and integrates both classical and relativistic effects, including Lorentz transformations.
It is observable not only in gravitationally bound systems but also in areas influenced by dark energy.
Key Equations:
• Gravitating mass is defined by combining matter mass and negative apparent mass, or equivalently, dark energy mass.
• Kinetic energy is directly proportional to negative apparent mass and dark energy mass.
• Total energy is expressed as the sum of potential energy and kinetic energy, with negative apparent mass included in the formulation.
• Effective force and gravitational force are described, with the force acting on an object depending on the effective acceleration and mass, including the negative components from apparent mass and dark energy.
• This section explores how these forces, masses, and energies behave under the extended classical mechanics framework, further clarifying the dynamics of mass and energy interactions in systems influenced by dark energy.
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