Charles Buhler, a seasoned NASA engineer and co-founder of Exodus Propulsion Technologies, claims his company’s propellantless propulsion drive defies the laws of physics. The NASA veteran states that the propulsion drive is capable of generating enough thrust to counteract Earth’s gravity without expelling mass

New claims of propellant-free space travel

Buhler and his team set out to explore propellantless propulsion concepts more than two decades ago. Their propulsion drive is based on a novel approach that takes advantage of asymmetry in electrostatic pressure to propel the drive forward.

The team presented their drive concept at a recent Alternative Propulsion Energy Conference (APEC). There, Buhler detailed his team’s progress over the years. 

From 2016 to 2020, for example, the team’s best devices were producing a little over one hundred thousandth of a gravity. Ultimately, though, they set out to achieve “unity,” Buhler told The Debrief in a recent interview. Unity refers to the moment the drive produces enough thrust to lift itself in Earth’s gravity.

A veteran of such storied programs as NASA’s Space Shuttle, the International Space Station (ISS), The Hubble Telescope, and the current NASA Dust Program, Buhler and his colleagues believe their discovery of a fundamental new force represents a historic breakthrough that will impact space travel for the next millennium

Unveiling their discovery at the Alternative Propulsion Energy Conference (APEC), Dr. Buhler shared insights into their journey. Despite initial skepticism, their pursuit led them to electrostatics, a field in which Dr. Buhler is an eminent authority.

Collaborating with a diverse team from prestigious institutions and industries, their collective expertise culminated in a breakthrough that defied conventional expectations

Detailing their methodology, Dr. Buhler explained the significance of their tests conducted in a custom-made vacuum chamber simulating deep space conditions. These experiments validated their propulsion drive’s efficacy, eliminating alternative explanations and solidifying their patent

Despite their pioneering success, Dr. Buhler acknowledged the existence of competing concepts like the EM Drive and Quantum Drive. While these initiatives showcase potential, Exodus Propulsion Technologies’ breakthrough offers a unique perspective

Reflecting on the broader implications, Dr. Buhler emphasized the role of science in dissecting their discovery’s implications. While their experiments provide empirical evidence, understanding the underlying principles remains a collective endeavor. He remains optimistic that their findings could illuminate profound scientific inquiries, challenging conventional understanding

Most famous propellantless methods are the gravity assist maneuver or gravitational slingshot of a spacecraft accelerating at the expense of the momentum of the planet it orbits, through the gravitational field, or beam-powered propulsion and solar sailing, using the radiation pressure of electromagnetic waves from a …

What are the propellants in space?

The most promising propulsion systems are based on cryogenic liquids and use hydrogen or methane as fuel and oxygen as oxidizer. For the development of a lunar economy and for human missions to Mars, refueling in orbit will be necessary

Is electric propulsion possible in space?

An electric propulsion spacecraft, once it’s in space, is out for a cross-country drive, limited only by the gas in the tank. The initial thrust is quite low, but it can continue accelerating for months or even years, and it can also slow down and change direction. NASA’s Dawn mission is a perfect example.

What is the next propulsion technology?

Design and Performance. The NEXT engine is a type of solar electric propulsion in which thruster systems use the electricity generated by the spacecraft’s solar panel to accelerate the xenon propellant to speeds of up to 90,000 mph (145,000 km/h or 40 km/s)

How fast does space propulsion go?

Propulsion and Speed in Space

This was mostly achieved with a chemical rocket but also with a gravitational slingshot. The Juno, Helios I and Helios II spacecraft reached speeds in the 150,000 mph range using gravitational boosts. The recently launched Parker Solar Probe will reach 430,000 mph using the Sun’s gravity

nuclear propulsion possible in space?

Nuclear thermal propulsion has been on NASA’s radar for more than 60 years. Nuclear thermal propulsion could be an enabling technology for future crewed missions to Mars, largely due to its performance advantages over conventional chemical propulsion systems.

Is warp drive possible

Warp drive, a fictional propulsion system that allows spacecraft to travel faster than the speed of light, is not considered possible with modern science. In Star Trek, warp drive works by warping or distorting spacetime. To travel faster than light, a warp drive would need to expand space behind a spacecraft and contract space in front, creating a warp bubble that surrounds the vessel. However, according to accepted laws of science, nothing can travel faster than light

According to writer Robert Low, it’s impossible to construct a warp drive without exotic matter. Astrophysicist Jamie Farnes has proposed a theory that unifies dark energy and dark matter into a single dark fluid, which could be testable by the Square Kilometre Array around 2030. 

While we’re still far from achieving warp drive, AI can assist in theoretical simulations, helping scientists understand the complexities and challenges associated with such speeds

Star Trek, warp speeds are a multiple of the speed of light (C), but the exact speeds vary depending on the source material. For example, the USS Voyager can reach a maximum speed of warp 9.975, which is 5126c. Warp one is the speed of light, and warp 6 is about 400 times the speed of light. The USS Enterprise-T’s normal operating speed is warp 6

IVo Quantam drive

The IVO Quantum Drive is a pure electric propulsion system for spacecraft that uses electricity to move spacecraft. It’s based on the Quantized Inertia (QI) theory, which was proposed in 2007 by physicist Mike McCulloch. The Quantum Drive has the following features: 

• Thrust: 52 millinewtons (mN) of thrust from one watt of electricity 
• Weight: 300 grams 
• Energy efficiency: Higher than Hall-Effect thrusters, which are also known as ion thrusters 
• Configuration: Patent pending configuration that has been tested on Earth’s surface

The Quantum Drive is part of the Transporter 9 mission, launched by U.S. wireless power company IVO Ltd.. IVO believes that their Quantum Drive could: 

• Produce up to 52 millinewtons (mN) of thrust from a single watt of electricity 
• Defy the laws of motion 
• Tackle the space industry’s carbon footprint

Some say that quantum drives are a “Hollywood” concept and not science, as they have no scientific explanation. Others say that the Quantum Drive is a fringe theory that challenges Isaac Newton’s Laws of Motion. The theory, known as Quantized Inertia (QI), is based on the idea that spacecraft can move without fuel and without violating Newton’s laws of motion

What is quantum drive?

Quantum Drive. A quantum drive is a type of engine that generates a Chan-Eisen field, enabling spacecraft to travel at approximately 20% of the speed of light

Are EM drive possible

The EmDrive is still a laboratory prototype, and it’s unclear if it can produce thrust. While some say the EmDrive is scientifically possible, others say it’s inconsistent with Newton’s conservation of momentum. In international tests, the EmDrive has failed to produce the amount of thrust expected, and in one test, it didn’t produce any thrust at all

The EmDrive was first proposed in 2001, but there’s no official design for the device. Neither person who claims to have invented it has explained how it could operate as a thruster or what elements define it

Is magnetic propulsion possible

Yes, magnetic propulsion is possible in space as long as momentum is conserved. Magnetic propulsion systems are already used as orbital microthrusters in near-Earth space. They use electromagnetic fields to accelerate charged exhaust gasses. For example, Hall thrusters use magnets to push ionized gases, and plasma magnet thrusters do similar things to rarified gases in space

Electromagnetic propulsion is also used in transportation systems to minimize friction and maximize speed over long distances. For example, high-speed rail systems use a linear induction motor to power trains by magnetic currents. Maglev trains also use this technology

The present state of modern technology allows the use of magnetic propulsion systems as orbital microthrusters in the near-to-earth space. The current thrust-to mass ratios of these systems are relatively low

Please like subscribe comment your precious thoughts on universe discoveries

Full article source google

Best electronic toys on heavy discount on Amazon

https://4e029dqh81xrcse6jok99nsq51.hop.clickbank.net

Best woman and men wear on heavy discount on Amazon