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Antares and Nature blast off for space and the space station.
The Northrop Grumman Antares rocket,
with Cygnus resupply spacecraft onboard, launches from Pad-0A, Wednesday, April
17, 2019 at NASA's Wallops Flight Facility in Virginia. Northrop Grumman's 11th
contracted cargo resupply mission for NASA to the International Space Station
will deliver about 7,600 pounds of science and research, crew supplies and
vehicle hardware to the orbital laboratory and its crew. Credit: Ken
Kremer/kenkremer.com/SpaceUpClose.com
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Ken
Kremer -- SpaceUpClose.com &
RocketSTEM – 17 April 2019
NASA WALLOPS FLIGHT FACILITY, VA – Huge crowds enjoyed todays (April 17)
beautiful afternoon blastoff of the Northrop Grumman Antares rocket from NASA
Wallops launch base on the Virginia shore – successfully delivering nearly 4
tons of new science and supplies to orbit aboard the commercial Cygnus supply
vessel bound for the International Space Station (ISS).
40 micetronauts, a robotic astronaut helper, 63 thinsat free flying experiments from over 250 students and a wide array of research is on its way to the ISS primed for rendezvous and docking just a day and a half later early Friday morning, April 19.
The biggest crowd ever gathered for an Antares launch witnessed the flawless performance put on by NASA’s commercial cargo partner Northrop Grumman as the rocket soared in its upgraded 230 configuration at 4:46 p.m. EDT (2046 GMT) Wednesday, April 17 from seaside Launch Pad 0A at the Virginia Space Mid-Atlantic Regional Spaceport (MARS) at NASA’s Wallops Flight Facility in Virginia.
Enjoy our gallery of Space UpClose imagery of the launch.
Check back as the story and gallery grows from my cameras ringing the launch pad as I’m in transit at the moment.
40 micetronauts, a robotic astronaut helper, 63 thinsat free flying experiments from over 250 students and a wide array of research is on its way to the ISS primed for rendezvous and docking just a day and a half later early Friday morning, April 19.
The biggest crowd ever gathered for an Antares launch witnessed the flawless performance put on by NASA’s commercial cargo partner Northrop Grumman as the rocket soared in its upgraded 230 configuration at 4:46 p.m. EDT (2046 GMT) Wednesday, April 17 from seaside Launch Pad 0A at the Virginia Space Mid-Atlantic Regional Spaceport (MARS) at NASA’s Wallops Flight Facility in Virginia.
Enjoy our gallery of Space UpClose imagery of the launch.
Check back as the story and gallery grows from my cameras ringing the launch pad as I’m in transit at the moment.
 |
The Northrop
Grumman Antares rocket, with Cygnus resupply spacecraft onboard, launches from
Pad-0A, Wednesday, April 17, 2019 at NASA's Wallops Flight Facility in
Virginia. Northrop Grumman's 11th contracted cargo resupply mission for NASA to
the International Space Station will deliver about 7,600 pounds of science and
research, crew supplies and vehicle hardware to the orbital laboratory and its
crew. Credit:
Ken
Kremer/kenkremer.com/SpaceUpClose.com
|
The massive and record
breaking crowd of well over 10,000 people trekked to the Wallops area for an up
close view - and they were not disappointed as the rockets engines roared to
life right on time.
4500 people alone gathered at the NASA Wallops Visitor Center which reached capacity several hours before liftoff with roads clogged and backed up for many miles around. Many thousand more lined streets and watched from several nearby parks in the Chincoteague local area.
Further details and
photos to follow as I’m in transit for the moment.
The 14 story tall commercial expendable Antares launch vehicle is launching in the upgraded and more powerful re-engined 230 configuration rocket compared to the original version.
4500 people alone gathered at the NASA Wallops Visitor Center which reached capacity several hours before liftoff with roads clogged and backed up for many miles around. Many thousand more lined streets and watched from several nearby parks in the Chincoteague local area.
 |
The Northrop
Grumman Antares rocket, with Cygnus resupply spacecraft onboard, launches from
Pad-0A, Wednesday, April 17, 2019 at NASA's Wallops Flight Facility in
Virginia. Northrop Grumman's 11th contracted cargo resupply mission for NASA to
the International Space Station will deliver about 7,600 pounds of science and
research, crew supplies and vehicle hardware to the orbital laboratory and its
crew. Credit:
Ken
Kremer/kenkremer.com/SpaceUpClose.com
|
‘Late load items were
also packed aboard Cygnus for the first time as a result on upgraded capabilities
introduced for the first time this mission.
It all worked out well - details to follow soon.
 |
The Northrop
Grumman Antares rocket, with Cygnus resupply spacecraft onboard, launches from
Pad-0A, Wednesday, April 17, 2019 at NASA's Wallops Flight Facility in
Virginia. Northrop Grumman's 11th contracted cargo resupply mission for NASA to
the International Space Station will deliver about 7,600 pounds of science and
research, crew supplies and vehicle hardware to the orbital laboratory and its
crew. Credit:
Ken
Kremer/kenkremer.com/SpaceUpClose.com
|
The 14 story tall commercial expendable Antares launch vehicle is launching in the upgraded and more powerful re-engined 230 configuration rocket compared to the original version.
 |
Engines Up Close. The Northrop
Grumman Antares rocket, with Cygnus resupply spacecraft onboard, launches from
Pad-0A, Wednesday, April 17, 2019 at NASA's Wallops Flight Facility in
Virginia. Northrop Grumman's 11th contracted cargo resupply mission for NASA to
the International Space Station will deliver about 7,600 pounds of science and
research, crew supplies and vehicle hardware to the orbital laboratory and its
crew. Credit:
Ken
Kremer/kenkremer.com/SpaceUpClose.com
|
They produce about 860,000 pounds of thrust, roughly 100,000 more thrust than the original Antares 100 configuration. They are throttled down at Max Q to maintain core integrity.
The second stage comprises the Castor 30XL solid rocket motor producing approximately107,000 pounds of thrust. It burns for about 156 seconds.
The two stage Antares measures 139 feet (42.5 m) tall and 13 feet (3.9 m) in diameter.
It has a payload capacity of 18,000 pounds (8,000 kg) to low Earth orbit (LEO).
This delivery, Northrop Grumman’s 11th cargo flight to the space station under NASA’s Commercial Resupply Services contract, will support dozens of new and existing investigations. Here are details about some of the scientific investigations Cygnus is delivering to the space station:
Models for growing increasingly complex
materials
Advanced Colloids Experiment-Temperature-10 (ACE-T-10) will test gels in a microgravity environment. This research could aid in the development of increasingly complex materials that may serve as the building blocks for a range of applications on Earth including foods, drugs, and electronic devices. The process also may provide an efficient method to build new materials and equipment in space.
Advanced Colloids Experiment-Temperature-10 (ACE-T-10) will test gels in a microgravity environment. This research could aid in the development of increasingly complex materials that may serve as the building blocks for a range of applications on Earth including foods, drugs, and electronic devices. The process also may provide an efficient method to build new materials and equipment in space.
Better life science research in a few drops
Although the space station is well equipped for health and life sciences research, the equipment available for cellular and molecular biology still is limited compared to capabilities found in laboratories on Earth. To address this limitation, CSA designed Bio-Analyzer, a new tool the size of a video game console that astronauts on station easily can use to test body fluids such as blood, saliva, and urine, with just a few drops. It returns key analyses, such as blood cell counts, in just two to three hours, eliminating the need to freeze and store samples.
Although the space station is well equipped for health and life sciences research, the equipment available for cellular and molecular biology still is limited compared to capabilities found in laboratories on Earth. To address this limitation, CSA designed Bio-Analyzer, a new tool the size of a video game console that astronauts on station easily can use to test body fluids such as blood, saliva, and urine, with just a few drops. It returns key analyses, such as blood cell counts, in just two to three hours, eliminating the need to freeze and store samples.
Analyzing aging of the arteries in astronauts
The Vascular Aging investigation uses ultrasounds, blood samples, oral glucose tolerance tests, and wearable sensors to study aging-like changes that occur in many astronauts during their stay on the space station. It’s one of three Canadian experiments exploring the effects of weightlessness on the blood vessels and heart, and the links between these effects and bone health, blood biomarkers, insulin resistance, and radiation exposure. Increased understanding of these mechanisms can be used to address vascular aging in both astronauts and the aging Earth population.
The Vascular Aging investigation uses ultrasounds, blood samples, oral glucose tolerance tests, and wearable sensors to study aging-like changes that occur in many astronauts during their stay on the space station. It’s one of three Canadian experiments exploring the effects of weightlessness on the blood vessels and heart, and the links between these effects and bone health, blood biomarkers, insulin resistance, and radiation exposure. Increased understanding of these mechanisms can be used to address vascular aging in both astronauts and the aging Earth population.
Testing immune response in space
Spaceflight is known to have a dramatic influence on an astronaut’s immune response, but there is little research on its effect following an actual challenge to the body’s immune system. The rodent immune system closely parallels that of humans, and Rodent Research-12: Tetanus Antibody Response by B cells in Space (TARBIS) will examine the effects of spaceflight on the function of antibody production and immune memory. This investigation aims to advance the development of measures to counter these effects and help maintain crew health during future long-duration space missions. On Earth, it could advance research to improve the effectiveness of vaccines and therapies for treating diseases and cancers.
Spaceflight is known to have a dramatic influence on an astronaut’s immune response, but there is little research on its effect following an actual challenge to the body’s immune system. The rodent immune system closely parallels that of humans, and Rodent Research-12: Tetanus Antibody Response by B cells in Space (TARBIS) will examine the effects of spaceflight on the function of antibody production and immune memory. This investigation aims to advance the development of measures to counter these effects and help maintain crew health during future long-duration space missions. On Earth, it could advance research to improve the effectiveness of vaccines and therapies for treating diseases and cancers.
Big buzz for new robot
A fleet of small robots is set to take on big jobs aboard the space station. Building on the success of SPHERES, NASA will test Astrobee, a robotic system comprised of three cube-shaped robots and a docking station for recharging; the first two are aboard Cygnus. The free-flying robots use electric fans for propulsion and cameras and sensors help them navigate their surroundings. The robots also have an arm to grasp station handrails or grab and hold items. Astrobee can operate in automated mode or under remote control from the ground as it assists with routine chores on station, and requires no supervision from the crew. This has the potential to free up astronauts to conduct more research.
A fleet of small robots is set to take on big jobs aboard the space station. Building on the success of SPHERES, NASA will test Astrobee, a robotic system comprised of three cube-shaped robots and a docking station for recharging; the first two are aboard Cygnus. The free-flying robots use electric fans for propulsion and cameras and sensors help them navigate their surroundings. The robots also have an arm to grasp station handrails or grab and hold items. Astrobee can operate in automated mode or under remote control from the ground as it assists with routine chores on station, and requires no supervision from the crew. This has the potential to free up astronauts to conduct more research.
These are just a few of the hundreds of investigations
that will help us learn how to keep astronauts healthy during long-duration
space travel and demonstrate technologies for future human and robotic
exploration beyond low-Earth orbit to the Moon and Mars. Space
station research also provides opportunities for other U.S. government
agencies, private industry, and academic and research institutions, to conduct
microgravity research that leads to new technologies, medical treatments, and
products that improve life on Earth.
…..
The Cygnus spacecraft, dubbed the SS Roger
Chaffee, will arrive at the space station Friday, April 19.
At about 5:30 a.m., Expedition 59 astronauts Anne McClain of NASA and David Saint-Jacques of the Canadian Space Agency (CSA) will use the space station’s Canadian -built robotic arm to grapple and capture Cygnus, while NASA’s Nick Hague monitors telemetry during its approach.
After capture, ground controllers will command the station’s arm to rotate and install Cygnus on the bottom of the station’s Unity module.
At about 5:30 a.m., Expedition 59 astronauts Anne McClain of NASA and David Saint-Jacques of the Canadian Space Agency (CSA) will use the space station’s Canadian -built robotic arm to grapple and capture Cygnus, while NASA’s Nick Hague monitors telemetry during its approach.
After capture, ground controllers will command the station’s arm to rotate and install Cygnus on the bottom of the station’s Unity module.
Live coverage of the grapple will begin at 4
a.m. and Cygnus installation coverage will begin at 7 a.m. April 19 on NASA
Television and the agency’s website.
The Cygnus spacecraft is scheduled to remain at the space station for about 3 months until July 23, 2019, when it will depart the station, deploy NanoRacks customer CubeSats, and then have an extended mission until December 2019 before it will dispose of several tons of trash during a fiery reentry into Earth’s atmosphere.
The Cygnus spacecraft is scheduled to remain at the space station for about 3 months until July 23, 2019, when it will depart the station, deploy NanoRacks customer CubeSats, and then have an extended mission until December 2019 before it will dispose of several tons of trash during a fiery reentry into Earth’s atmosphere.
This will be the final mission under Northrop
Grumman’s CRS-1 contract with NASA before starting the CRS-2 contract missions
in the fall of 2019. Under Northrop Grumman’s Commercial
Resupply Services contract, the company will fly 11 missions.
Watch for Ken’s continuing onsite coverage of NASA, SpaceX, ULA, Boeing, Lockheed Martin, Northrop Grumman and more space and mission reports direct from the Kennedy Space Center, Cape Canaveral Air Force Station, Florida and Wallops Flight Facility, Virginia.
Watch for Ken’s continuing onsite coverage of NASA, SpaceX, ULA, Boeing, Lockheed Martin, Northrop Grumman and more space and mission reports direct from the Kennedy Space Center, Cape Canaveral Air Force Station, Florida and Wallops Flight Facility, Virginia.
Stay tuned here for Ken's continuing Earth and
Planetary science and human spaceflight news: www.kenkremer.com –www.spaceupclose.com – twitter @ken_kremer
– email: ken at kenkremer.com
Dr. Kremer is a research scientist and journalist based in the
KSC area, active in outreach and interviewed regularly on TV and radio about
space topics.
………….
Ken’s photos are for sale and he is available for lectures and outreach events
Ken’s photos are for sale and he is available for lectures and outreach events
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| Antares NG-11 post launch briefing at NASA Wallops |
Hello,
ReplyDeleteThose pictures are incredible! I am excited about the research about life in space for astronauts.
Greetings, Tamara