The Science Behind Why Dropped Apples Fall: Exploring the DOPA Gravitational Theory

Have you ever wondered why an apple thrown in the air comes back down? It may seem like a simple question, but the explanation behind this phenomenon involves fascinating insights into the nature of gravity. The DOPA Gravitational Theory, as described by Russet Publishing, offers a unique perspective on this fundamental force. In this article, we will delve into why dropped apples fall and the implications of the DOPA theory for our understanding of gravity.

Why Apples (and Other Objects) Fall Back to Earth

Gravity, the force that pulls objects toward the center of the Earth, is a familiar concept. However, there is a misconception that if an apple is thrown with a velocity greater than Earth's escape velocity (11.2 km/s), it will continue to move away from the Earth. This is incorrect; gravity will eventually pull it back. The apple (and any other object) returns to the ground because the gravitational pull of the Earth acts upon it, decelerating its upward motion until it reaches the maximum height and then starts falling back. The velocity of the thrown object gradually decreases during its descent due to this gravitational force.

Understanding the DOPA Gravitational Theory

The DOPA (Drag On Particles in the Atmosphere) Gravitational Theory presents a novel explanation for gravity. This theory was published in 2018 by Russet Publishing in a book called "GRAVITY - How Gravity is Created". It proposes that gravity is not an actual force but an indirect effect of gravitational waves.

The theory suggests that the initial Big Bang created fundamental hydrogen-type atoms, time, and gravitational waves. These waves interact with atomic nuclei to create a "drag force" that we perceive as gravity. Here’s how it works:

Creation of Matter: During the Big Bang, matter was formed, including fundamental atoms. It is these atoms that interact with gravitational waves. Gravitational Waves: These waves are not electromagnetic (EM) but rather a form of wave that can interact with matter to create a drag force. Accumulation of Matter: The DOPA theory explains how matter accumulates, coalesces, and forms structures like planets and stars. This is due to the gravitational waves acting on atomic nuclei, creating a minuscule drag that drives the accumulation of matter.

The theory further postulates that these gravitational waves must have existed since the beginning of the universe to enable the coalescence of matter into the structures we observe. Without these waves, there would be no force pulling matter together into the complex structures of the universe.

Key Insights from the DOPA Theory

One of the key insights from the DOPA theory is that gravitational waves are not the only waves created in the early universe. Electromagnetic (EM) waves, while important for phenomena like the light we see from stars, are a by-product of the stars themselves and not an inherent property of the early universe.

Conclusion

The DOPA Gravitational Theory offers a novel and intriguing way to understand the nature of gravity and its role in the formation of the universe. While more research and empirical evidence are needed, this theory provides a framework for rethinking one of the most fundamental forces in our universe. The next time you see an apple fall from a tree, you might be reminded of the profound mysteries of the cosmos that continue to unfold.

References

Russet Publishing. (2018). GRAVITY - How Gravity is Created. Available at Russet Publishing.