Aboard the International Space Station, Expedition 59 Flight Engineer Anne McClain of NASA will capture the spacecraft assisted by David Saint-Jacques of the Canadian Space Agency, who will monitor Cygnus systems during its approach for capture. They will use the space station’s robotic arm to take hold of the Cygnus, dubbed the S.S. Roger Chaffee. After Cygnus’ capture, ground controllers will command the station’s arm to rotate and install it on the bottom of the station’s Unity module.
NASA Television coverage of capture has begun. Watch live online at www.nasa.gov/live
A timeline of remaining Cygnus and space station activities for the earliest capture attempt is below:
Time (EDT) Event
4:14 a.m. Cygnus within 300m of Space Station
4:21 a.m. 250m Hold Point Arrival
4:36 a.m. 250m Hold Point Departure
4:47 a.m. Cygnus within 100 meters of Space Station
5:00 a.m. 30 meters Hold Point Arrival
5:05 a.m. Earliest “Go” for Capture
5:19 a.m. Capture Point Arrival
5:24 a.m. “Go” or “No-Go” for Capture
5:30 a.m. Capture
When Cygnus, dubbed the S.S. Roger Chaffee, arrives to the space station on Friday, April 19, Expedition 59 Flight Engineer Anne McClain will use the space station’s robotic arm to take hold of the spacecraft at about 5:30 a.m. Fellow crew member David Saint-Jacques of the Canadian Space Agency will assist McClain. NASA astronaut Nick Hague will monitor Cygnus systems during its approach for capture. After Cygnus’ capture, ground controllers will command the station’s arm to rotate and install it on the bottom of the station’s Unity module for a three-month stay.
Live coverage will begin on NASA TV at 4 a.m. and return to the air at 7 a.m. for installation coverage. Watch at www.nasa.gov/live
The Cygnus space freighter is on orbit today and refining its approach to the International Space Station following its launch from Virginia Thursday afternoon. Meanwhile, the Expedition 59 crew is juggling a variety of science and maintenance activities today before Friday morning’s space shipment arrives.
Astronaut Anne McClain, with Flight Engineer David Saint-Jacques as her back up, will capture Cygnus with the Canadarm2 robotic arm around 5:30 a.m. Friday. Ground controllers will take over afterward and remotely install Cygnus to the Unity module where it will stay until the end of July.
Cygnus is packed with about 7,600 pounds of science, supplies and crew hardware to replenish the orbital lab. Among its science payloads are mice, free-flying robots and a host of other experiments and research gear. The astronauts set up hardware today that will house the rodents and enable research into how the immune system responds to microgravity. The crew will also test the ability of tiny, autonomous robots to provide assistance with routine space chores and lab monitoring.
Commander Oleg Kononenko and fellow cosmonaut Alexey Ovchinin worked throughout the day on Russian life support maintenance. Ovchinin also researched enzyme behavior in space and photographed plants for a botany investigation.
The U.S. Cygnus resupply ship from Northrop Grumman is encapsulated atop the Antares rocket and standing at its launch pad in Virginia. The Expedition 59 crew is training for its capture at the end of the week in the midst of ongoing life science aboard the International Space Station.
The duo continued sharpening their robotics skills today as they practiced Friday’s Cygnus capture maneuvers and techniques on a computer. NASA TV will broadcast the space freighter’s launch and capture activities live.
McClain started the day setting up a mouse habitat that will house rodents to gain insight into the immune system’s response to long-term spaceflight. Saint-Jacques set up the 360° camera in Tranquility module for more virtual reality filming of crew life on the station.
Flight Engineer Christina Koch started Tuesday collecting and spinning her blood samples in a centrifuge for the Myotones muscle study. She then joined NASA astronaut Nick Hague for body measurements and ultrasound scans to research how microgravity impacts the biochemical properties of muscles.
The next U.S. spaceship to deliver goods to the International Space Station rolled out to its launch pad in Virginia today. The Expedition 59 crew is training to capture the U.S. space freighter while also filming a virtual reality experience aboard the orbital lab.
Astronauts Anne McClain and David Saint-Jacques will be waiting for Cygnus’ arrival Friday morning from inside the cupola. McClain will command the Canadarm2 robotic arm to reach out and capture Cygnus about 5:30 a.m. as Saint-Jacques backs her up. Robotics controllers will take over shortly after and remotely install the Cygnus to Unity’s Earth-facing point about two hours later.
The duo, supported by NASA astronaut Nick Hague, continued reviewing procedures and practicing robotics maneuvers today as Cygnus counts down to its Wednesday launch. NASA TV will broadcast the launch and capture activities live.
More virtual reality filming continued today and has been ongoing for several months now inside the orbital complex. The crew has been filming a 360° experience depicting life on the station for future viewing by audiences on Earth.
The Expedition 59 crew continued more brain and breath research aboard the International Space Station today. Along with a variety of other life science activities, the crew also filmed a virtual reality experience inside the station.
NASA is planning longer human missions, farther out in space and having a safe spacecraft atmosphere to breathe in is vitally important. Flight Engineers Nick Hague and Anne McClain spent most of Thursday helping doctors understand what exacerbates and how to alleviate the inflammation of an astronaut’s airways. The duo worked in the Quest airlock measuring and sampling their breath at a reduced air pressure.
Astronaut Christina Koch carried on today with more brain research then closed out the neuroscientific experiment. She worked with human research gear including the Cardiolab Portable Doppler and the Continuous Blood Pressure Device. The instruments measure blood pressure waveforms in the arteries and blood flow velocity to the brain. The data will help doctors understand how the brain regulates blood flow in microgravity.
Koch later videotaped herself in virtual reality for a film depicting life on the station. David Saint-Jacques of the Canadian Space Agency set up the 360° camera inside the Unity module that links the station’s U.S. segment with the Russian segment. Saint-Jacques later collected his urine samples for stowage in a science freezer and later analysis.
Cosmonauts Oleg Kononenko and Alexey Ovchinin also explored an array of space phenomena today for the Roscosmos science program. The duo researched cardiovascular activity and enzyme reactions to give doctors better insight into crew health. The cosmonauts also photographed Earth landmarks to help predict catastrophes and studied how space crews relate to mission controllers on the ground.
The Expedition 59 crew is now training to capture a U.S. cargo ship when it arrives at the International Space Station next week. The orbital lab residents are also busy researching how living in space affects the human mind and body.
Fresh off their spacewalk Monday, astronauts Anne McClain and David Saint-Jacques are now practicing to capture Northrop Grumman’s Cygnus space freighter with the Canadarm2 robotic arm. McClain will be at the robotics workstation in the cupola April 19 and command the Canadarm2 to capture Cygnus around 5:30 a.m. EDT. Saint-Jacques will back her up while Flight Engineer Nick Hague monitors Cygnus’ systems during its approach and rendezvous. The commercial cargo craft is due to launch April 17 at 4:46 p.m. from Wallops Flight Facility in Virginia.
Hague started his day with more brain research in the Japanese Kibo lab module. The NASA astronaut used a Doppler device to record his arterial blood flow waveforms. The data will help doctors understand how the brain regulates blood flow in microgravity.
The astronauts also researched how the station’s atmosphere affects breathing. The experiment studies how dust, particles and exhaled breath inflames a crewmember’s airways. Observations may reveal conditions that exacerbate or alleviate airway inflammation influencing future space missions.
SpaceX has announced April 26 as the launch date for its next Dragon cargo mission. The private space freighter will blast off from Cape Canaveral in Florida arriving at the station April 28. This time Saint-Jacques will lead the robotics capture activities while Hague backs him up.
The Expedition 59 crew has switched focus from Monday’s spacewalk to microgravity science aboard the International Space Station. Soon, the orbital residents will be unpacking a pair of U.S. space freighters.
Astronauts Anne McClain of NASA and David Saint-Jacques of the Canadian Space Agency are conducting their post-spacewalk medical checkups today. The astronauts measured their temperature, blood pressure, respiration and ear condition. After the checkups, the spacewalkers had their eyes scanned with an ultrasound device by Flight Engineer Nick Hague.
The spacewalking duo along with NASA astronaut Christina Koch also had an hour-long video debrief session with specialists on the ground. The crew and mission controllers discussed lessons they learned that could inform the planning of future spacewalks.
Koch spent most of her day on maintenance replacing science hardware inside the Combustion Integrated Rack. The research device enables safe investigations of microgravity’s impacts on solid and gaseous fuel combustion aboard the orbital lab. Hague explored how blood flows to the brain for the Cerebral Autoregulation study. The brain research uses Doppler technology that measures blood flow waveforms to help doctors understand and treat space-caused lightheadedness.
With the recent series of spacewalks now complete, the crew will soon be turning its attention to the arrival of two resupply ships. Northrop Grumman’s Cygnus cargo craft and the SpaceX Dragon will each deliver science and supplies before the end of the month to replenish the space station crew. Cygnus is due to blast off for a three-month mission attached to the station’s Unity module April 17. Dragon is targeted to liftoff at the end of April for a month-long stay at the Harmony module.
Expedition 59 Flight Engineers Anne McClain of NASA and David Saint-Jacques of the Canadian Space Agency concluded their spacewalk at 2 p.m. EDT. During the six-and-a-half-hour spacewalk, the two astronauts successfully established a redundant path of power to the Canadian-built robotic arm, known as Canadarm2, and installed cables to provide for more expansive wireless communications coverage outside the orbital complex, as well as for enhanced hardwired computer network capability. The duo also relocated an adapter plate from the first spacewalk in preparation for future battery upgrade operations.
This was the third spacewalk in just under a month on the space station. The first two spacewalks installed powerful lithium-ion batteries for one pair of the station’s solar arrays. On March 22, the first spacewalk was completed by McClain and fellow NASA astronaut Nick Hague. On March 28, the second spacewalk was completed by Hague and NASA astronaut Christina Koch.
March 22 was the first spacewalk for NASA astronauts Hague and McClain. McClain became the 13th female spacewalker in history.
March 29 also was the first spacewalk for NASA astronaut Christina Koch, who became the 14th female to complete a spacewalk.
Saint-Jacques became the first Canadian Expedition astronaut to walk in space and the fourth Canadian astronaut to spacewalk overall.
Space station crew members have conducted 216 spacewalks in support of assembly and maintenance of the orbiting laboratory. Spacewalkers have now spent a total of 56 days 10 hours and 53 minutes working outside the station.
NASA astronauts Anne McClain and David Saint-Jacques have begun the third spacewalk in under a month on the exterior of the International Space Station. Today’s spacewalk will work to establish a redundant path of power to the Canadian-built robotic arm, known as Canadarm2, and install cables to provide for more expansive wireless communications coverage outside the orbital complex, as well as for enhanced hardwired computer network capability.
The spacewalkers set their spacesuits to battery power this morning at 7:31 a.m. EDT then exited the Quest airlock into the vacuum of space. The team will spend about six-and-a-half hours installing truss jumpers to provide a redundant power source for the Canadarm2 robotic arm.
This is the 216th spacewalk in support of space station assembly and maintenance. McClain will be designated extravehicular crew member 1 (EV 1), wearing the suit with red stripes. Saint-Jacques will be designated extravehicular crew member 2 (EV 2), wearing the suit with no stripes.