Simulated lunar gravity of blue origins in the latest new Shepherd flight

On Tuesday morning, Blue Origin will launch its 29th new Shepherd Mission from West Texas. The mission has become quite mediocre, but this time the company was able to spin up the capsule and simulate the lunar gravity of the payload it carried.

At 10am on CT, at a launch site in western Texas, Blue Origin launched its new Shepherd NS-29 mission. Suborbital and non-black and white flights were carried with 30 payloads from NASA and other research institutes. The capsule also carries thousands of postcards that are part of Club for the Future, a nonprofit organization of Blue Origin.

Of these 30 payloads, 17 were sponsored by NASA as part of the Flight Opportunities Program. This works with both Blue Origin and Virgin Galactic in Suborbital Research Missions. The majority of the NASA payload dealt with the moon. This is because the agency is still operating under the previous directive to return to the moon as part of the Artemis program.

To better deal with these missions, Blue Origin was able to use the spacecraft’s reaction-controlled thruster to rotate up to 11 spins per minute. This simulated the lunar gravity successfully simulated at the midpoint of the new Shepherd’s cargo locker.

This is the first time a new Shepherd has performed this operation, and when this becomes a regular offering by the company, new options are opened to researchers looking to test the theory of monthly operations. He threatens to move his vision to Mars.

Check out Blue Origin NS-29

NS-29 payload

There are some payloads I found interesting that I flew on Blue Origin’s NS-29.

Electrodynamic Regolith Conveyor (ERC)

Researchers at NASA’s Kennedy Space Center use dynamic electric fields generated by placing alternating high voltages on electrodes on the conveyor surface to move lunar regolith particles rather than traditional rotating or vibrational actuation. We evaluate the technology designed to This dust resistance technology is designed to enable the future of the lunar-SITU resource utilization operations. The technology is supported by NASA’s Game Change Development Program (see below) and received technical support from the University of Central Florida (UCF).

Honey bubble excitation experiment (H-bee)

Honeybee Robotics tests a system for assessing the physics of transporting particulate materials into foams formed within viscous materials. Using honey as a viscosity simulation of molten regoliths and compressed gas for evolved oxygen, researchers aim to improve current methods of extracting oxygen from the lunar’s key oxygen source, Regolith It’s there. The goal is to test the extraction method with lunar gravity using a safe, simple and cost-effective platform.

Inflammatory properties of materials: Lunar-G burning investigation (Luci)

Researchers at NASA’s Glen Research Center and Voyager Technologies also assess the flammability of solid materials during lunar gravity. Observing the front of flames of multiple samples with various gravity accelerations, payload recording flame speed images, radiation emissions, temperature, and product gas concentration. These moderate-term flammability tests aim to provide guidance to assess the many materials expected to be used within the lunar crew space. This increases crew safety. The goal is to determine conditions in which a reduced gravity moon may create a more dangerous environment in terms of fire safety. This project is supported by the Moon to Mars program office within NASA’s Exploration Systems Development Mission Mission Directrate.