Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803
25-08-2024
Acceleration Boost by Negative Effective Mass under the Inverse-Square Law of Gravity
This scenario examines the interplay between the inverse-square law of gravity and the concept of negative effective mass, focusing on how these factors collectively influence an object's motion.
According to the inverse-square law of gravity, as an object moves away from Earth's surface, the gravitational force exerted on it decreases with the square of the distance. In this context, the concept of negative effective mass becomes pivotal. Negative effective mass introduces an 'assisting acceleration' (aᵉᶠᶠ) or 'acceleration boost' by effectively reducing the object's resistance to gravitational force.
The reduction in gravitational influence due to negative effective mass arises because this mass type is not a static property but is generated as a result of the object's motion or elevation. As the object moves or is elevated, the negative effective mass begins to play a significant role, diminishing the overall gravitational pull on the object. This effect enables the object to accelerate more readily, even as it travels farther from the Earth.
#NegativeEffectiveMass #GravitationalPull #InverseSquareLaw #MotionDynamics #AssistingAcceleration #AccelerationBoost
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