An apple and an orange are pictured floating weightlessly in the International Space Stations cupola. The SUBSA-μgGA examination looks for to produce a superior graphene aerogel, an artificial product with high porosity and low density, in microgravity benefitting both Earth and space industries such as power storage, ecological protection, and chemical picking up. They looked for potential blood clots induced by area conditions, all while getting real-time assistance from earthbound flight surgeons.
In a carefully timed occasion, a mere 4 hours publish the Progress 85s arrival, the SpaceX Dragon crew spacecraft will raise off from the Kennedy Space. The four onboard astronauts will then begin their six-month space research study exploration.
An orange and an apple are visualized drifting weightlessly in the International Space Stations cupola. Seen outside the cupola, is the Soyuz MS-23 team ship docked to the Prichal docking module which is attached to the Nauka science module. Credit: NASA
The Expedition 69 team aboard the International Space Station pointed its research study program towards cancer treatments, vein scans, and area production on Thursday, August 17. In addition, the ISS will see a Roscosmos cargo craft and a SpaceX crew spacecraft arrive next week.
Science ventures aboard the orbital station can help physicians establish ingenious treatments for different health conditions in the world. The weightless environment can expose brand-new phenomena offering distinct insights difficult to find in labs in the world.
Stem Cell Research and Medical Scans
Flight Engineers Frank Rubio of NASA and Sultan Alneyadi from the UAE operated in the Microgravity Science Glovebox to service stem cell samples. The objective is to understand how to enhance their production in a space environment. The information from this research study is expected to elucidate the capacity of these space-grown stem cells in pioneering much better treatments for blood illness and cancer.
NASA astronaut and Expedition 69 Flight Engineer Woody Hoburg deals with physics research study inside the Destiny laboratory modules Microgravity Science Glovebox. The SUBSA-μgGA examination seeks to develop a remarkable graphene aerogel, an artificial product with high porosity and low density, in microgravity benefitting both Earth and space industries such as power storage, environmental security, and chemical noticing. Credit: NASA
Later on, Rubio collaborated with NASA Flight Engineer Woody Hoburg for vein scans. Using the Ultrasound 2 device located in the Columbus laboratory module, they analyzed their shoulder, knee, and neck areas. They looked for possible embolism induced by space conditions, all while getting real-time guidance from earthbound flight cosmetic surgeons.
Area Manufacturing and Gravity Adaptation
Earlier that day, Hoburg aided NASA Flight Engineer Stephen Bowen in exchanging graphene aerogel samples for an area production experiment. This physics research study aims to produce a consistent, remarkable material with applications in power storage, environmental preservation, and chemical detection.
Roscosmos cosmonauts Sergey Prokopyev and Andrey Fedyaev once again tried out a specialized fit on Thursday checking its ability to assist them adjust to Earths gravity. The cosmonauts are examining the lower body negative pressure suit for its potential to rearrange fluids that have pooled in the upper body due to microgravity toward the lower extremities.
Upcoming Activities and Missions
Dmitri Petelin, a Roscosmos Flight Engineer, committed his day to practicing piloting and robotic maneuvers for possible use in future planetary explorations. In addition, he invested time in catching Earth images and participating in to science devices maintenance.
The ISS Progress 83 freight craft is slated to conclude its six-month tenure at the ISS this Sunday, separating from the Zvezda service module at 7:48 p.m. EDT. Its follower, the ISS Progress 85, will presume its position on Thursday, August 24, docking with the Zvezda simply two days post-launch from the Baikonur Cosmodrome in Kazakhstan.
In a closely timed occasion, a mere 4 hours post the Progress 85s arrival, the SpaceX Dragon team spacecraft will raise off from the Kennedy Space. This Crew-7 objective is set to get in touch with the Harmony module of the ISS a day after its launch. The four onboard astronauts will then start their six-month area research study expedition.