Новости МКС

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Запись трансляции стыковки Crew-1 с МКС (SpaceX)

Crew-1 Mission | Rendezvous and Docking

 SpaceX

Трансляция началась 10 часов назад

youtu.be/3hK540tMmvw

(10:47:14)

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https://ria.ru/20201117/mks-1584936129.html

Экипаж американского корабля Crew Dragon перешел на борт МКС
09:23 17.11.2020

ВАШИНГТОН, 17 ноя - РИА Новости. Экипаж американского корабля Crew Dragon перешел на борт Международной космической станции, НАСА ведет прямую трансляцию.

Crew Dragon совершил стыковку с МКС в 07:01 мск во вторник, корабль, созданный частной компанией SpaceX по контракту с НАСА, стартовал с космодрома на мысе Канаверал накануне.

На борту МКС экипаж Crew Dragon встречают астронавт НАСА Кейт Рубинс и двое россиян – Сергей Рыжиков и Сергей Кудь-Сверчков. Прибывшие на орбиту на борту на борту Crew Dragon астронавты НАСА Майкл Хопкинс, Виктор Грловер, Шэннон Уокер, а также японский астронавт Соити Ногути будут оставаться на МКС около полугода.

Прибытие Crew Dragon на МСККС знаменует первый регулярный рейс корабля на орбиту, первый рабочий полет американского пилотируемого корабля после завершения в 2011 году программы Space Shuttle.
...

В РИА совсем материал перестали проверять?

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Запись трансляции стыковки Crew-1 с МКС (НАСА)

Watch NASA's SpaceX Crew-1 Mission Arrive at the International Space Station

 NASA

Трансляция началась 3 часа назад

youtu.be/aT4rITutAwA

(3:31:20)

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NASA Leaders Share Update Following NASA's SpaceX Crew-1 Arrival at the International Space Station

 NASA

Трансляция началась 21 минута назад

youtu.be/eycNc4Fsrhw

(18:49)

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Текущая конфигурация станции по состоянию на 06:00 17.11.2020

[zandr]

https://ria.ru/20201117/mks-1585049747.html

Экипаж МКС заделывает трещину в российском модуле
МОСКВА, 17 ноя - РИА Новости. Экипаж Международной космической станции (МКС) заделывает заплаткой из резины и алюминиевой фольги трещину в российском модуле "Звезда", ставшую причиной утечки воздуха, следует из переговоров космонавтов с Землей, транслируемых НАСА.
Космонавт Сергей Рыжиков сообщил специалисту подмосковного центра управления полетами, что нашел заплатку, представляющую собой гибкий диск из алюминиевой фольги, в центре которого резина.
Космонавт также снял временную каптоновую ленту с трещины в промежуточной камере модуля "Звезда" и обезжирил поверхность спиртовой салфеткой. В ответ специалист центра попросил Рыжикова примерить и наклеить заплатку на трещину, выравнивая ее от центра к краям, чтобы не было складок и пузырьков воздуха.

Спойлер

Небольшая утечка воздуха на МКС была зафиксирована в сентябре 2019 года. В августе-сентябре 2020 года, после того, как ее скорость возросла в пять раз, экипаж дважды закрывал люки в модулях МКС с целью проверки их герметичности и по несколько дней был изолирован в российском сегменте станции.
Выяснилось, что место утечки находится в промежуточной камере российского модуля "Звезда". В октябре космонавты Анатолий Иванишин и Иван Вагнер с помощью чаинок обнаружили трещину длиной 4,5 сантиметра. Ее временно заклеили каптоновой лентой (термостойким скотчем).
В "Роскосмосе" сообщили РИА Новости, что трещина не угрожает МКС и экипажу, а наземные специалисты решают, как залатать ее надолго. В ноябре руководитель полета российского сегмента МКС Владимир Соловьев рассказал, что в декабре на станцию, возможно, доставят азот для пополнения атмосферы МКС и средства для окончательной герметизации трещины. Однако запуск грузового корабля "Прогресс МС-16" к МКС отложили с 11 декабря на 15 февраля 2021 года из-за необходимости проведения дополнительных проверок.
Сейчас на МКС работают российские космонавты Сергей Рыжиков и Сергей Кудь-Сверчков, американские астронавты Кэтлин Рубинс, Майкл Хопкинс, Виктор Гловер и Шэннон Уолкер, а также японец Соити Ногути.

[свернуть]

[zandr]

https://ria.ru/20201117/mks-1585074626.html

"Роскосмос" рассказал об устранении утечки в российском модуле МКС
МОСКВА, 17 ноя - РИА Новости. Экипаж Международной космической станции (МКС) установил заплатку на трещину в российском модуле "Звезда", которая позволит прекратить утечку воздуха, сообщил РИА Новости представитель пресс-службы "Роскосмоса".
Ранее из переговоров экипажа с Землей стало известно, что космонавт Сергей Рыжиков заделывает трещину заплаткой из резины и алюминиевой фольги.
"Члены российского экипажа МКС установили новую заплатку на предполагаемое место утечки атмосферы в модуле "Звезда", - сказал представитель пресс-службы "Роскосмоса".
По его словам, планируется, что в результате контрольных замеров уровня атмосферы и на основе данных, переданных экипажем специалистам на Земле, "причину утечки можно будет устранить".

Спойлер

Небольшая утечка воздуха на МКС была зафиксирована в сентябре 2019 года. В августе-сентябре 2020 года, после того, как ее скорость возросла в пять раз, экипаж дважды закрывал люки в модулях МКС с целью проверки их герметичности и по несколько дней был изолирован в российском сегменте станции.
Выяснилось, что место утечки находится в промежуточной камере российского модуля "Звезда". В октябре космонавты Анатолий Иванишин и Иван Вагнер с помощью чаинок обнаружили трещину длиной 4,5 сантиметра. Ее временно заклеили каптоновой лентой (термостойким скотчем).
В "Роскосмосе" сообщили РИА Новости, что трещина не угрожает МКС и экипажу, а наземные специалисты решают, как залатать ее надолго. В ноябре руководитель полета российского сегмента МКС Владимир Соловьев рассказал, что в декабре на станцию, возможно, доставят азот для пополнения атмосферы МКС и средства для окончательной герметизации трещины. Однако запуск грузового корабля "Прогресс МС-16" к МКС отложили с 11 декабря на 15 февраля 2021 года из-за необходимости проведения дополнительных проверок.
Сейчас на МКС работают российские космонавты Сергей Рыжиков и Сергей Кудь-Сверчков, американские астронавты Кэтлин Рубинс, Майкл Хопкинс, Виктор Гловер и Шэннон Уолкер, а также японец Соити Ногути.

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[zandr]

https://www.militarynews.ru/story.asp?rid=1&nid=541899&lang=RU

Российские космонавты выйдут в открытый космос для подготовки к прибытию модуля "Наука"
18.11.2020 0:00:06
       Москва. 18 ноября. ИНТЕРФАКС - Российские члены экипажа Международной космической станции Сергей Рыжиков и Сергей Кудь-Сверчков в среду выйдут в открытый космос на 5,5 часов для подготовки к прибытию нового модуля "Наука".
       Как сообщали в "Роскосмосе", космонавтам предстоит проверить герметичность люка модуля "Поиск", заменить сменную панель регулятора расхода жидкости на модуле "Заря", а также провести очистку остекления иллюминатора №8 "Звезда".
       Им также предстоит переустановить антенну со стыковочного модуля "Пирс", который отработал свой ресурс и в будущем будет отстыкован от МКС, на корпус модуля "Поиск". Также будет выполнен ряд работ в рамках научных экспериментов.
      "Пирс" будет заменен новым российским лабораторным модулем "Наука", который готовится к запуску на МКС с Байконура.
       Как сообщали в NASA, американский астронавт Кэтлин Рубинс поможет им облачиться в скафандры и будет следить за их работой
       Всего космонавтам предстоит пробыть в открытом космосе 5 часов 33 минуты. Выход в космос впервые будет осуществлен через модуль "Поиск". Всего нынешнему экипажу МКС предстоит два выхода в открытый космос. Второй предварительно запланирован на февраль. Всего для интеграции модуля "Наука" потребуется около 10 выходов в космос.
       Последний раз российские космонавты выходили в открытый космос 29 мая 2019 года. Тогда работы с внешней стороны МКС выполняли космонавты Олег Кононенко и Алексей Овчинин, они провели в открытом космосе около шести часов.

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https://blogs.nasa.gov/spacestation/2020/11/17/new-crew-sleeps-as-cosmonauts-prep-for-wednesday-spacewalk/

New Crew Sleeps as Cosmonauts Prep for Wednesday Spacewalk

Mark Garcia
Posted Nov 17, 2020 at 2:08 pm


The four Commercial Crew astronauts (front row from left) Shannon Walker, Victor Glover, Michael Hopkins and Soichi Noguchi are welcomed aboard the station. In the back row from left are, NASA astronaut Kate Rubins and cosmonauts Sergey Ryzhikov and Sergey Kud-Sverchkov.

The Expedition 64 crew expanded to seven members overnight after four Commercial Crew astronauts docked the SpaceX Crew Dragon to the International Space Station. Now two cosmonauts are gearing up for a spacewalk set to start Wednesday at 9:30 a.m. EST.

The newest station crew members are asleep today following a 27-hour-and-half trip from NASA's Kennedy Space Center to the Harmony module's forward-facing port. Commander Michael Hopkins and Pilot Victor Glover, alongside Mission Specialists Shannon Walker and Soichi Noguchi, docked on Monday at 11:01 p.m. The hatches were opened two hours later, and the quartet entered the station to begin a six-month research mission.

All seven crewmembers gathered in the Harmony module for a welcoming ceremony and congratulations from NASA and JAXA (Japan Aerospace Exploration Agency) mission officials. Afterward, safety briefings were given to the new quartet showing potential lab hazards, emergency equipment locations and escape routes.

This is the first long-duration crew comprised of seven members in space station history. The station has hosted up to 13 visitors before but only for a few days at a time during crew swap operations.

Today, NASA Flight Engineer Kate Rubins helped Commander Sergey Ryzhikov and Flight Engineer Sergey Kud-Sverchkov get ready for their first spacewalk. The Russian duo will spend about five-and-a-half hours servicing external station hardware and science experiments. Their prime task will be to prepare the station's Russian segment for the new Nauka mini-research module due to arrive in 2021.

NASA TV coverage of the spacewalk will begin Wednesday at 8:30 a.m. This will be the first spacewalk for the duo and the first spacewalk staged from the Poisk module. The Pirs docking compartment is being decommissioned to make room for the Nauka module.

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 Sergey Kud-Sverchkov @KudSverchkov 3 ч. назад

У станции пополнение! Сегодня рано утром пристыковался #CrewDragon с @Astro_illini, @AstroVicGlover, @Astro_Soichi и Шэннон Уолкер. Конечно, хотелось увидеть стыковку, но перед ВКД важно соблюдать режим дня. Зато к открытию люков мы уже были готовы встречать вновь прибывших!

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SpaceX's CRS-21 Mission to the Space Station: What's On Board

 NASA

17 нояб. 2020 г.

youtu.be/Dcy4yZb13fE

(9:59)

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https://www.nasa.gov/mission_pages/station/research/news/spacex-21-research-highlights

Nov. 17, 2020

Hearts, Airlocks, and Asteroids: New Research Flies on 21st SpaceX Cargo Mission

The 21^st SpaceX cargo resupply mission that launches from NASA's Kennedy Space Center in Florida carries a variety of critical research and technology demonstrations to the International Space Station. The mission represents the first on an upgraded version of the company's Dragon cargo spacecraft designed to carry more science payloads to and from the space station.[/size]

Highlights of the payloads on this mission include:

Microbial meteorite miners

A mixture of meteorite samples and microbes are headed to the space station. Certain microbes form layers on the surface of rock that can release metals and minerals, a process known as biomining. A previous investigation from ESA (European Space Agency), BioRock, examined how microgravity affects the processes involved in biomining. ESA follows up on that work with BioAsteroid, which examines biofilm formation and biomining of asteroid or meteorite material in microgravity. Researchers are seeking a better understanding of the basic physical processes that control these mixtures, such as gravity, convection, and mixing. Microbe-rock interactions have many potential uses in space exploration and off-Earth settlement. Microbes could break down rocks into soils for plant growth, for example, or extract elements useful for life support systems and production of medicines.

Examining changes in hearts using tissue chips


3D engineered heart tissue beats within a tissue chip. Engineered heart tissues will be used in the Cardinal Heart investigation to model pathological processes involved in heart failure. What researchers learn may contribute to discovery of novel therapeutic targets for clinical application.
Credits: Stanford/BioServe

Microgravity causes changes in the workload and shape of the human heart, and it is still unknown if these changes could become permanent if a person lived more than a year in space. If that were to happen, it is possible it may take the returning astronaut many months to readjust to Earth's gravity. Cardinal Heart studies how changes in gravity affect cardiovascular cells at the cellular and tissue level. The investigation uses 3D engineered heart tissues (EHTs), a type of tissue chip. Results could provide new understanding of heart problems on Earth, help identify new treatments, and support development of screening measures to predict cardiovascular risk prior to spaceflight.

Counting white blood cells in space


Preparation of the HemoCue white blood cell analyzer and associated hardware for its flight to the space station.
Credits: ZIN Technologies, Inc.

HemoCue tests the ability of a commercially available device to provide quick and accurate counts of total and differentiated white blood cells in microgravity. Doctors commonly use the total number of white blood cells and counts of the five different types of white blood cells to diagnose illnesses and monitor a variety of heath conditions on Earth. Verification of an autonomous capability for blood analysis on the space station is an important step toward meeting the health care needs of crew members on future missions.

Building with brazing

SUBSA-BRAINS examines differences in capillary flow, interface reactions, and bubble formation during the solidification of brazing alloys in microgravity. Brazing is a type of soldering used to bond together similar materials, such as an aluminum alloy to aluminum, or dissimilar ones such as aluminum alloy to ceramics, at high temperatures. The technology could serve as a tool for constructing human habitats and vehicles on future space missions as well as for repairing damage caused by micrometeoroids or space debris.

A new and improved door to space


Technicians work on the Nanoracks Bishop Airlock inside the Space Station Processing Facility at NASA's Kennedy Space Center in Florida on Sept. 29, 2020, preparing the facility for its flight to the International Space Station. The first commercially funded airlock for the space station provides payload hosting, robotics testing, satellite deployment, and more.
Credits: NASA/KSC

Launching in the trunk of the Dragon capsule, the Nanoracks Bishop Airlock is a commercial platform that can support a variety of scientific work on the space station. Its capabilities include deployment of free-flying payloads such as CubeSats and externally-mounted payloads, housing of small external payloads, jettisoning trash, and recovering external Orbital Replacement Units (ORUs). ORUs are modular components of the station that can be replaced when needed, such as pumps and other hardware. Roughly five times larger than the airlock on the Japanese Experiment Module (JEM) already in use on the station, the Bishop Airlock allows robotic movement of more and larger packages to the exterior of the space station, including hardware to support spacewalks. It also provides capabilities such as power and Ethernet required for internal and external payloads.

Your brain on microgravity


Brain organoids being prepared to fly to the space station for the Space Tango-Human Brain Organoids investigation.
Credits: UC San Diego/Erik Jepsen

The Effect of Microgravity on Human Brain Organoids observes the response of brain organoids to microgravity. Small living masses of cells that interact and grow, organoids can survive for months, providing a model for understanding how cells and tissues adapt to environmental changes. Organoids grown from neurons or nerve cells exhibit normal processes such as responding to stimuli and stress. Therefore, organoids can be used to look at how microgravity affects survival, metabolism, and features of brain cells, including rudimentary cognitive function.

youtu.be/Dcy4yZb13fE

Melissa Gaskill

International Space Station Program Research Office
Johnson Space Center

Last Updated: Nov. 18, 2020
Editor: Michael Johnson

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https://www.nasa.gov/press-release/nasa-highlights-science-new-airlock-on-next-space-station-resupply-mission

Nov. 17, 2020
MEDIA ADVISORY M20-128

NASA Highlights Science, New Airlock on Next Space Station Resupply Mission


NASA astronaut and Expedition 62 Flight Engineer Jessica Meir conducts cardiac research in the Life Sciences Glovebox located in the Japanese Kibo laboratory module. The Engineered Heart Tissues investigation could promote a better understanding of cardiac function in microgravity which would be useful for drug development and other applications related to heart conditions on Earth.
Credits: NASA

NASA will host a media teleconference at 1 p.m. EST Friday, Nov. 20, to discuss science investigations and a new privately funded airlock launching on SpaceX's 21st commercial cargo resupply mission for the agency to the International Space Station. It is SpaceX's first launch on its second Commercial Resupply Services contract with NASA and the company will use the upgraded version of the cargo Dragon spacecraft.

Audio of the teleconference will stream live online at:

http://www.nasa.gov/live

SpaceX is targeting 12:50 p.m. Wednesday, Dec. 2, for the launch of the Dragon on a Falcon 9 rocket from Launch Complex 39A at NASA's Kennedy Space Center in Florida.[/size]
...

David Brady, associate program scientist for the International Space Station Program at NASA's Johnson Space Center in Houston, will provide an introduction to the research and technology aboard the Dragon spacecraft.

Also participating in the briefing are:

• Charles Cockell, professor of astrobiology at the University of Edinburgh and principal investigator for the BioAsteroid experiment, and Rosa Santomartino, postdoctoral research associate. BioAsteroid aims to better understand how microbes interact with and change asteroids, information that could be used for future mining on asteroids.
• Joseph Wu, professor and director of the Stanford Cardiovascular Institute and principal investigator, and Dilip Thomas, postdoctoral research fellow for Cardinal Heart, which studies the effects of microgravity on heart tissue using tissue chips, in an effort to develop therapies on Earth and countermeasures for future space exploration.
• Benjamin Easter, deputy element scientist for exploration medical capability in the NASA Human Research Program, who will discuss HemoCue, a commercial off-the-shelf device that will be tested as a tool to provide autonomous blood analysis as an important step toward meeting the heath care needs of crew members on future missions, including for NASA's Artemis program to the Moon.
• Brock Howe, program manager for the Nanoracks Bishop Airlock, the first privately funded module to be delivered to the space station. The Bishop Airlock will support science experiments, satellite deployment, and spacewalks.
• Dusan Sekulic, professor of mechanical engineering at the University of Kentucky and principal investigator, and Sinisa Mesarovic, professor of mechanical and materials engineering at Washington State University, for SUBSA-BRAINS. This experiment looks at how liquid metals behave in microgravity as a first step toward developing techniques that could be used for construction of human space habitats, as well as to repair damage from micrometeoroids or space debris.
• Pinar Mesci, project scientist for Space Tango-Human Brain Organoids, an experiment that studies how microgravity affects small, living masses of cells as a way to understand the effects of spaceflight on the brain. This investigation could pave the way for additional exploration of changes to neurons during spaceflight, including studies of pharmacology, disease, aging, and more.

Cargo resupply from U.S. companies ensures a national capability to deliver critical science research to the space station, significantly increasing NASA's ability to conduct new investigations at the only laboratory in space. The upgraded Dragon spacecraft has double the capacity for powered lockers that preserve science and research samples during transport to or from Earth.

The cargo Dragon will be the second SpaceX spacecraft parked at the orbiting laboratory, following the arrival Nov. 16 of the Crew Dragon that carried four new Expedition 64 astronauts, who will support these and other investigations as part of their six-month science mission.

The space station is a convergence of science, technology, and human innovation that demonstrates new technologies and enables research not possible on Earth. NASA recently celebrated 20 years of continuous human presence aboard the orbiting laboratory, which has hosted 242 people and a variety of international and commercial spacecraft. The space station remains the springboard to NASA's next great leap in exploration, including future human missions to the Moon and eventually to Mars.

-end-

Last Updated: Nov. 17, 2020
Editor: Sean Potter

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https://blogs.nasa.gov/stationreport/2020/11/16/iss-daily-summary-report-11-16-2020/

ISS Daily Summary Report – 11/16/2020

Cell Biology Experiment Facility-L (CBEF-L) Current Measurement Preparation:

Спойлер

The crew set up the Saibo rack and CBEF-L to prepare for current measurement activities scheduled for later this week. These activities will help ensure CBEF-L is in a good configuration to support the Space Organogenesis science arriving on SpX-21. CBEF-L provides new capabilities with additional new resources such as a Full High Definition video interface, Ethernet, 24 VDC power supply, and a larger diameter centrifugal test environment.

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ISS Experience:

Спойлер

The crew set up the ISS experience camera system in order to record the arrival of Crew-1. The International Space Station Experience (The ISS Experience) is a cinematic virtual reality (VR) series documenting life and research aboard the space station. Filmed over multiple months, the immersive VR series documents different crew activities – from science conducted aboard the station to preparation for a spacewalk.

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Sally Ride Earth Knowledge Acquired by Middle Schools (EarthKAM):

Спойлер

Following the successful conclusion of EarthKAM mission 72, the crew stowed the hardware. As of the last report, over 15,000 students form 29 countries had signed up to participate, and 4316 images had been downlinked and posted to the EarthKAM web page. EarthKAM allows thousands of students to photograph and examine Earth from a space crew's perspective. Using the Internet, the students control a special digital camera mounted on-board the ISS. This enables them to photograph the Earth's coastlines, mountain ranges and other geographic items of interest from the unique vantage point of space. The EarthKAM team then posts these photographs on the Internet for viewing by the public and participating classrooms around the world.

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T₂ Treadmill Maintenance:

Спойлер

Today, the ISS crew completed the nominal 6-month maintenance and inspection, which included performing activities such as removing and cleaning closeout panels, inspecting treadmill belt slats and screws, vacuuming inside the rack and around treadmill, cleaning the treadmill filter screen, reinstalling the close-out panels. The crew was unable to take acoustic measurements due to unexpected power complications with the T₂ Space Station Computer (SSC) receiving power from the rack. The 6-month maintenance allows the T₂ treadmill exercise device to keep operating nominally as well as making note of any wear and tear.

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Battery Stowage Assembly (BSA) Operation:

Спойлер

The crew initiated an automated Charge-Discharge-Charge (C-D-C) maintenance cycle on all Helmet Lights, PGT Batteries, and two Rechargeable EVA Battery Assemblies (REBAs) in the BSA via the Battery Charger Assembly (BCA). One REBA encountered an error during charging and will require crew corrective action in order to remediate. The charging is typically terminated 3 days after this activity as CDC maintenance may take up to 65 hours to complete.

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О трансляции ВКД47 (Роскосмос) - адрес на ТыТрубе

youtu.be/WTQGGAvhHmI

Начало трансляции - 18 ноября 2020 г. в 14:30 UTC / 17:30 ДМВ

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Russian Spacewalk #47 Animation

 NASA Johnson

17 нояб. 2020 г.

youtu.be/ZSa5C8gX_IY

(3:21)

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https://blogs.nasa.gov/spacestation/2020/11/18/nasa-tv-broadcasts-russian-spacewalk-at-station-today/

NASA TV Broadcasts Russian Spacewalk at Station Today

Mark Garcia
Posted Nov 18, 2020 at 8:32 am


Cosmonaut Alexander Skvortsov is pictured wearing a Russian Orlan spacesuit during a spacewalk outside of the International Space Station in August of 2014.

Expedition 64 Commander Sergey Ryzhikov and Flight Engineer Sergey Kud-Sverchkov of the Russian space agency Roscosmos are preparing for their exit from the station's Poisk docking compartment airlock at approximately 9:30 a.m. EST to begin a spacewalk planned for about six hours to service the International Space Station.

The primary objective during the spacewalk will be to relocate an antenna from the Pirs docking compartment to the Poisk module, the first in a series of tasks that will prepare the Pirs module for decommissioning, undocking, and disposal. The Earth-facing Pirs module will be replaced by the new Russian Multipurpose Laboratory Module, named "Nauka," Russian for "science."

The cosmonauts will also conduct leak inspections outside the Poisk hatch, replace a fluid flow regulator on the Zarya module, retrieve hardware that measures space debris impacts, and reposition an instrument used to measure the residue from thruster firings.

Coverage of the spacewalk is now underway on NASA Television and the agency's website.

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 Intl. Space Station @Space_Station 57 с

Watching @NASA TV right now? Here is how to identify today's spacewalkers as they set up the station for a new Russian module. https://nasa.gov/live

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Наконец появились двустрочные элементы на спутники, запущенные с борта МКС 5 ноября

Код Выделить Развернуть

0 TBA - TO BE ASSIGNED
1 46921U 98067RR  20319.65407734  .00596372  00000-0  95203-2 0  9996
2 46921  51.6521 323.8688 0004690  11.1591  93.6846 15.50486734  1481

0 TBA - TO BE ASSIGNED
1 46922U 98067RS  20322.34274700  .00063753  00000-0  10864-2 0  9994
2 46922  51.6465 310.5391 0000331 221.0790 139.2081 15.50762596  1867

0 TBA - TO BE ASSIGNED
1 46923U 98067RT  20322.34334535  .00007637  00000-0  14051-3 0  9990
2 46923  51.6458 310.5509 0002453  43.5263 316.5924 15.50231823  1938

0 TBA - TO BE ASSIGNED
1 46924U 98067RU  20322.53608880  .00012711  00000-0  22726-3 0  9996
2 46924  51.6551 309.5652 0006694 357.5597   2.5323 15.50370007  1932

0 TBA - TO BE ASSIGNED
1 46925U 98067RV  20322.40785680  .00016129  00000-0  28661-3 0  9998
2 46925  51.6465 310.2297 0003379  56.3278 303.8043 15.50334287  1877

0 TBA - TO BE ASSIGNED
1 46926U 98067RW  20322.53685276 +.00015596 +00000-0 +27756-3 0  9994
2 46926 051.6460 309.5898 0002875 055.7882 304.3381 15.50319991001916

0 TBA - TO BE ASSIGNED
1 46927U 98067RX  20322.40842316  .00007970  00000-0  14663-3 0  9991
2 46927  51.6456 310.2309 0003267  58.3057 301.8252 15.50163890  1854

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К #26253

 Jonathan McDowell @planet4589 9 ч. назад

The NRCSD-19 cubesats have now got TLEs; they are catalog numbers 46921-7 in 414 x 418 km orbits. They were deployed from ISS on Nov 5.