Gravitational Propulsion Technology Research

The video presented above documents an experimental gravitational test performed on a metallic prototype, representing a significant milestone in the advancement of gravitational research and technology. The objective of this experiment is to generate electromagnetic fields capable of shielding the prototype from gravitational influence. Achieving this effect would result in the prototype’s apparent weight, as recorded by a digital scale, approaching zero—indicating the effective nullification of the gravitational force acting upon it.

To date, experimental results have demonstrated a remarkable 97% reduction in weight, corresponding to a decrease of 1.88 kg from an initial 1.93 kg. This achievement marks a notable advancement in the field of gravitational manipulation.

These findings indicate an unprecedented capability to control and modulate the gravitational force acting locally on a physical object. Such control has profound implications for the development of gravitational propulsion systems and a wide range of potential applications in aerospace engineering and advanced technological systems.

Verification of the prototype’s weight reduction was conducted using a mechanical hanging scale (commonly referred to as a butcher’s scale) to ensure measurement consistency and eliminate potential electronic interference.

In the accompanying video, a second prototype is demonstrated, exhibiting a 71% reduction in weight from an initial 2.42 kg. Throughout all experimental procedures, strict grounding protocols were applied to all components, including the weighing system and the metallic shielding enclosure, to minimize external electromagnetic or static effects.

Additional tests were performed under varying configurations: one with the weight scale positioned externally to the metallic shielding enclosure, and another in the absence of the shielding enclosure. Both experimental setups produced comparable results, thereby reinforcing the validity and reproducibility of the observed weight reduction phenomenon.

Innovative Aerospace Solutions

Future Aircraft-Space vehicle Design

The innovative and revolutionary nature of gravitational engines will usher in a new paradigm of vehicle design within the aerospace and space exploration industries. This new vehicle platform will lead to advancements in a myriad of applications including: military fighters, unconventional rocket ships, space mining vehicles, satellite that self-deployment and return to Earth for maintenance, cargo ships, trains, commercial aircraft, floating platforms, drones, emergency vehicles, and much more.

Space Exploration

Currently, reusable rocket ships transport equipment and astronauts into space, relying heavily on fuel, which constitutes 93% of the total payload during each launch. As advancements in aerospace technology continue, the development of gravitational engines could eliminate the need for this substantial fuel payload. Instead, batteries or similar energy sources will power these engines, enhancing operational efficiency and reducing the risks of catastrophic explosions. Furthermore, this innovative technology will mitigate the rising costs of insurance, lower launch infrastructure costs, decrease the average costs per launch, and minimize the environmental impact associated with traditional hydrocarbon fuels. This shift will significantly benefit space exploration for many years to come.

Avionics and Integration

We look forward to developing a team that will collaborate with leading avionics and digital design manufacturers for the implementation and integration of our advanced propulsion technology solutions, including gravitational engines, for aircraft and spacecraft. From flight control systems to mission-critical software, we are at the forefront of innovation in aerospace technology, enhancing capabilities for space exploration.

Test & Evaluation

Test, evaluation, and FAA certification for this propulsion technology should take approximately 3 - 4 years. This process will include High Fidelity Field testing in real-world applications, featuring rigorous analysis of the application in different conditions: from ground testing to flight testing and evaluation.

Training & Education

We will be offering a range of training and education services to help you learn more about our aerospace technology, including innovative concepts like gravitational engines and their applications in space exploration.

Career Opportunities

Join our team of talented aerospace professionals and help us shape the future of aerospace technology, including advancements in gravitational engines and innovations for space exploration. We will be offering a range of exciting career opportunities for engineers, scientists, and other professionals.