Just a few feet away from a 70mm camera onboard the Space Shuttle Endeavour, the Russian-built control module and the U.S.-built Unity connecting module are mated in the shuttle’s cargo bay. Using Endeavour’s 50-ft. long Canadian-built Remote Manipulator System (RMS) robot arm, astronaut Nancy J. Currie working from the aft flight deck, plucked Zarya out of orbit on December 6, 1998. The craft had been orbiting Earth for a little over 16 days prior to grapple and subsequent docking to Unity. Credit: NASA
Marking 25 years since its inception, the ISS crew reflects on its achievements and continues vital research in health, aging, and the effects of microgravity.
25 years ago today, the first two modules of the
In December 1998, the crew of Space Shuttle Mission STS-88 began construction of the International Space Station, joining the U.S.-built Unity node to the Russian-built Zarya module. The crew carried a large-format IMAX® camera from which this picture was taken. Credit: NASA
The seven-member Expedition 70 crew called down to Earth today and discussed with
” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]” tabindex=”0″ role=”link”>NASA Associate Administrator Bob Cabana and International Space Station Program Manager Joel Montalbano the orbital outpost’s accomplishments since the assembly era began on December 6, 1998. Cabana was the commander of Endeavour when both modules were robotically mated and then outfitted during a series of spacewalks. Montalbano, NASA’s sixth station leader since the program’s inception, remarked today, “We want to celebrate today all the people who designed, built, and operate the International Space Station.”
![Unity Connecting Module Space Shuttle](https://scitechdaily.com/images/Unity-Connecting-Module-Space-Shuttle-777x782.jpg)
One of the STS-88 astronauts aimed a 70mm camera through Endeavour’s aft flight deck windows to record this December 5, 1998, image of the Unity connecting module as it was being put into position to be mated to Endeavour’s docking system in the cargo bay. The mating was the first link in a long chain of events that led up to the eventual deployment in Earth orbit of the connected Unity and Zarya modules later in the 11-day mission. Credit: NASA
Meanwhile, a host of space biology work continued aboard the orbital lab on Wednesday to improve human health on Earth and in space. Cargo operations and lab maintenance rounded out the day keeping the four astronauts and three cosmonauts busy during the middle of the week.
Aging studies are taking place on the orbital lab helping researchers understand space-caused accelerated aging symptoms at the molecular and cellular level. NASA Flight Engineers Loral O’Hara and Jasmin Moghbeli took turns processing liver stem samples for the Space AGE study taking place in the Kibo laboratory module. Kibo’s Life Science Glovebox is hosting the research operation that is exploring aging-like properties of immune cells and the regenerative capacity of liver cells.
![ISS Construction Unity Module](https://scitechdaily.com/images/ISS-Construction-Unity-Module-777x505.jpg)
Wires and cables on the Unity module (foreground) are telltale clues that the space-walking astronauts of STS-88 had performed their first extravehicular activity (EVA) when this 35mm frame was exposed from the aft windows of Endeavour. The Zarya module can be seen mated to the top end of Unity. Credit: NASA
Mental health and cognition are key concerns for NASA and its international partners as the space agencies plan longer human missions farther away from Earth. Commander Andreas Mogensen wore virtual reality goggles for the VR Mental Care experiment today and watched a 360-degree movie to understand its stabilizing effect on the nervous system. Flight Engineer Satoshi Furukawa took a computerized robotics test for a CIPHER investigation studying how in microgravity affects brain structure, sleep quality, stress, and immune function.
Mogensen from ESA (