Which Force is Stronger: A Black Hole’s Gravity or The Force?

Gravity, perhaps one of the most well-known forces in the universe, seems to be unmatched by any other force when one considers the gravitational pull of a black hole. But the question arises: is the force of a black hole truly that powerful, or is there a greater force at play?

Understanding the Apex Force

The Apex Force embodies an underlying principle from which all other forces and energies are derived. While gravitational force becomes noticeable only when the Apex Force interacts with mass, it is far from the only force in play. The Apex Force, carried by waves, is akin to gravitational waves but of the longest possible wavelength.

Originating from the boundary of the physical Universe, the HyperDimensional Density Barrier, the Apex Force travels inward, gradually compressing into shorter wavelengths until it reaches the mass center. Even as it contracts, the force remains potent and influential, binding the galaxy together in ways that are not entirely comprehensible.

The Force Compared to Black Hole Gravity

When discussing the strength of forces in relation to a black hole, it is crucial to consider its size and the context in which the comparison is made. The gravitational force exerted by a mass significantly larger than a black hole is undeniable and far more powerful. For instance, within the area of 1 AU (Astronomical Unit), a more substantial mass, such as a star, would exhibit a stronger gravitational pull than a black hole of similar size.

However, the concept of the Force, as introduced in the Star Wars franchise, presents a different perspective. Obi-Wan Kenobi’s explanation that the Force is an energy field created by all living things, indicates that the Force permeates the universe and binds the galaxy. Luke Skywalker’s revelation of the Force as an omnipresent element that is everywhere and in everything, leaves no room for comparison with a black hole's gravity.

Contextualizing Force and Black Hole Gravity

When considering the strength of forces close to a source, the proximity significantly affects the outcome. For example, within the vicinity of a black hole (within 1 AU), the gravity of the black hole would be the strongest force. On the other hand, if one were enclosed in a ferromagnetic cage with a high-tesla magnet, such as an MRI magnet, the electromagnetic force would dominate up to several hundred yards.

The electromagnetic force, despite being weaker than gravity outside the atom, is far more prominent and observable in everyday life. Nonetheless, the electromagnetic force can be effectively shielded against, unlike gravity which remains influential and accumulates over time.

The electromagnetic, strong, and weak forces are all short-range compared to gravity, suggesting that they are less impactful on a large scale. However, within the approximate size or range of an atom, these forces can be significant. To observe their full effect, one would need to be small enough to fit within an atom.

Why Is Gravity Different?

Gravity stands out from other forces due to its nature and scope. Unlike electromagnetic, strong, or weak forces, gravity pulls continuously and has a much longer reach. The gravitational force from a large mass, such as a black hole, can be immensely powerful, but it is not the only force at play in the universe.

When discussing the strength of forces, it becomes clear that the answer depends entirely on the context and scale. For practical applications and observations, black hole gravity can be considered the strongest, but in a broader cosmic sense, the Force, as it is known, might represent a different form of energy that is omnipresent and powerful in its own right.