At Exodus Propulsion Technologies, we are creating groundbreaking technology that will change the way we explore space. Our team of expert engineers is dedicated to developing the most advanced propulsion systems in the world.
How to build a new "old stock design" T-blade thruster from raw materials. This T-blade design is straight out of our patent and will make 125 uN of continious thrust in any direction it is pointed.
New build "old stock design" T-blade thruster sitting on a precision scale shows 6 mg of weight loss as it is charged up and thrusts UPWARD away from the scale surface. When the voltage is removed, the weight returns to the value it was at the start of the test.
Traditional spacecraft generate propulsion using a chemical reaction to force mass at high velocity out through a nozzle, making the rocket move in the opposite direction. Like a fire extinguisher, when it runs out of propellant, the spacecraft too becomes useless without fuel to support its maneuvering capabilities.
But what if a rocket motor worked more like a light bulb than a fire extinguisher?
Like chemical rockets, Exodus propulsion devices create momentum for a spacecraft's motion. However, Exodus' platform uses the interaction of electrostatic fields to harness the momentum found in electricity rather than in a chemical reaction.
The process of generating the Exodus Effect(TM) is repeatable, predictable, published and well-understood. After being released from a 2-year national security hold, the first patent describing the Exodus Effect(TM) has finally been issued by the USPTO. Both acceleration and thrust (Newtons) are quantifiable and supported by 3rd-party validations. These facts are what separate Exodus from the pack.