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NASA
NASA is the National Aeronautical Space Administration, which oversees all the space travel in the United States. Its most famous project is the Apollo moon missions.
2,535 Questions
How many days did it take for the Apollo 11 to get to the moon?
The Apollo 11 mission took about 3 days to travel from Earth to the moon. The spacecraft launched on July 16, 1969, and landed on the moon on July 20, 1969.
The space shuttle Atlantis launched the Magellan and Galileo planetary probes, as well as the Compton Gamma Ray Observatory.
What is the three schools Mae Jemison went to?
Three schools that Mae Jemison went to school at are Standford University,medical school, and high school.
What does NASA's robot urbie do?
Urbie is a rover that was created by NASA. Its major function is to assist emergency workers and rescue personnel in dangerous situations. This robot is small and very lightweight allowing it to be transportable and placed in small areas.
NASA has played a significant role in advancing space exploration and technology, providing benefits such as satellite communication, weather forecasting, and Earth observation. They have also contributed to scientific discovery, technological innovation, and inspiring the next generation of scientists and engineers.
What does the insulated features of a spacesuit layers designed to do what dont answer?
The insulated features of a spacesuit are designed to regulate the temperature inside the suit by preventing heat loss or gain in the harsh environment of space. This helps protect the astronaut from extreme temperatures and maintain a comfortable internal temperature.
No, NASA is not part of the Department of Defense (DOD). NASA is a civilian space agency responsible for the United States' civilian space program and for aeronautics and aerospace research. The DOD is a separate federal department responsible for the military of the United States.
What types of technology are on the International Space Station?
The International Space Station is equipped with advanced technologies such as solar panels for power generation, communication systems for staying in contact with mission control, scientific instruments for experiments, life support systems for the crew, and robotic arms for maintenance and operations. Additionally, it has various modules for living quarters, laboratories, and storage.
NASA explores space using a variety of methods, including robotic spacecraft, telescopes, orbiters, and human missions. Robotic spacecraft are often sent to explore planets, moons, and asteroids, while telescopes are used to observe distant galaxies and stars. Orbiters are used to study planets and moons within our solar system, and human missions enable astronauts to conduct research and experiments in space.
Why do NASA doesn't launch from Galveston?
NASA does not launch rockets from Galveston because the city is located near a densely populated area and near the coast, presenting potential safety hazards in the event of a launch failure. NASA's launch facilities are purposefully located in more remote areas, such as Cape Canaveral in Florida and Wallops Island in Virginia, to minimize risks to the public.
What does NASA in English mean?
NASA stands for the National Aeronautics and Space Administration. It is the United States government agency responsible for the nation's civilian space program and for aeronautics and aerospace research.
What was the first lunar lander launched by the US?
The first lunar lander launched by the US was the Surveyor 1, which landed on the Moon on June 2, 1966. Its primary mission was to assess the feasibility of soft landings on the Moon in preparation for the Apollo missions.
Why did Sally Ride joined into the NASA?
Sally Ride joined NASA because she was a skilled physicist and her expertise was valuable in the astronaut program. She became the first American woman in space as a result of her hard work and dedication to her field. Ride's passion for space exploration and breaking barriers for women in STEM also motivated her decision to join NASA.
Where does astronauts get rid of garbage in space?
Astronauts usually store their garbage aboard the spacecraft until it can be taken back to Earth for proper disposal. Some waste can be jettisoned into space, but this is regulated to minimize space debris. There are also recycling systems on the International Space Station to minimize waste production.
What day did Apollo 13 launch from Kennedy space center?
Apollo 13 launched from Kennedy Space Center on April 11, 1970.
When is the last shuttle launch scheduled?
The last shuttle launch was STS-135, which took place on July 8, 2011, and marked the final mission of the Space Shuttle program. There are no plans for further shuttle launches as NASA has shifted its focus to other space exploration initiatives.
How the Saturn v rocket works?
The Saturn V launch vehicle, a complex beast with some 3 million parts, had three stages:
Stage I (SI-C) held five rocket engines that used liquid oxygen and kerosene to produce a total of 7.5 million pounds (33,375,000 newtons or N) of thrust. When the Saturn V reached an altitude of about 36 miles (57.9 km), traveling at 9,030 feet (2,752 meters) per second, the explosive bolts that connected the SI-C to the rocket were detonated, and SI-C fell into the Atlantic Ocean.
The stage II (S-II) engines, with their 1,125,000 pounds (5,006,250 N) of thrust, accelerated the vehicle to 22,746 feet per second (6,932 meters per second), and at the height of 101 miles (1,562.5 km), explosive bolts again detonated, causing the S-II to be jettisoned.
The stage III (S-IVB) single J-2 rocket engine provided 225,000 pounds (1,001,250 N) of thrust. While the spacecraft orbited the Earth a few times, the engine shut down. When the spacecraft was aligned with the moon, the engine reignited and pushed the Apollo toward our silvery satellite. The S-IVB was then discarded.
Along with its stage sequences, another interesting facet of how the Saturn V worked was the "help" it took advantage of when maneuvering its way up, up and away. With a payload to orbit of 285,000 pounds (129,300 kilograms), the Saturn V was not exactly light on its feet [source: Smithsonian National Air and Space Museum]. As any physicist can tell you, a significant amount of energy is needed to boost that kind of weight into space and then on its intended trajectory. Therefore, scientists design rocket flight plans to take advantage of any natural assistance available. One such trick is to turn the rocket east while it is launching and moving into orbit. Because the Earth rotates to the east, the rotational velocity of the planet itself gives the rocket a natural boost of energy. The strength of the Earth's boost depends on where the rocket is launched -- the Earth's rotational velocity is greatest at the Equator, so the nearer to the Equator the launch site, the more the rocket will benefit.
Did tv stations air their brodcasts from space?
No, TV stations do not broadcast their programs directly from space. Satellite communication technology is used to transmit signals from Earth to satellites in space, which then retransmit the signals to users on the ground.
Is NASA still sending astrounauts into space?
Yes, NASA is still sending astronauts into space through their partnership with private companies like SpaceX. They use the Crew Dragon spacecraft to transport astronauts to the International Space Station.
Who is Prof Cyril Ponnamperuma NASA Scientist?
Cyril Ponnamperuma (16 October 1923-20 December 1994) was a scientist in the fields of chemical evolution and the origin of life.
BiographyCyril Ponnamperuma was born in Galle, Sri Lanka on 16 October 1923. After completing his early education with flying colours at St. Aloysius' College, Galle and subsequently at St. Joseph's College, Colombo, Ponnamperuma proceeded to India and in 1948 obtained a Bachelor of Arts degree in philosophy from the University of Madras.Later he moved to the United Kingdom and enrolled at Birkbeck, University of London, where he obtained a Bachelor of Science degree in chemistry in 1959. At the same time he had the opportunity to work with Professor J. D. Bernal, a pioneering scientist engaged in research on the origin of life. Afterwards he proceeded to the United States, where in 1962 he received a doctorate in chemistry from the University of California, Berkeley under the direction of the Nobel Laureate Melvin Calvin.
In 1962, he was honoured with a National Academy of Science resident associateship with NASA at Ames Research Center. In 1963 he joined NASA's Exobiology Division and take over the helm of the Chemical Evolution Division. He was selected as the principal investigator for analysis of lunar soil brought to earth by Project Apollo.
Thereafter, he was closely involved with NASA in the Viking and Voyager programmes and was offered membership in both the Space Science Advisory Council and Life Sciences Advisory Council of NASA.
According to Arthur C. Clarke, "No other scientist of Sri Lankan origin was internationally known and respected as he was". He produced over 400 scientific publications and held a number of prestigious academic posts during his rather short lifespan.
His studies focused mainly towards the origin of life, but only after he was selected for the analysis of the moon dust in the 'Apollo Programme' his name and photo appeared on the cover-pages of world class newspapers and magazines such as Time and Newsweek.
The "Third World Academy of Sciences" (TWAS) based in Trieste, Italy elected him as its vice president in 1989 and appointed him Chairman of the International Network of Science Centres in selected developing Countries. He contributed immensely to the Third World Foundation of North America as its Chairman.
He was the first director of the "Arthur C. Clarke Centre for Modern Technologies" in Sri Lanka, and in 1984 was appointed science advisor to the President of Sri Lanka by the late President J. R. Jayewardene. He was so fortunate, indeed, as to be associated with many universities in the USA and other countries. He served as a distinguished Lecturer at the Soviet Academy of Sciences and the Chinese Academy of Sciences for a considerable period.
The Atomic Energy Commission of India offered him an assignment as a visiting Professor in 1967. UNESCO appointed him for a period covering 1970-1971 as its Director of the Programme for the development of basic research in Sri Lanka. After that, in his endeavour to widen the horizon of knowledge of the fellow human beings the distinguished Academic apex he selected was University of Maryland in USA. Since 1971 he provided his service to that University as a Professor of Chemistry as well as the Director of the laboratory of chemical evolution.
His contribution to the development of International Programmes of that University was acknowledged in deserved manner in January 1991, the first distinguished International Service Award was presented to him by that university. Among the many awards that Professor Ponnamperuma received one can mention the "Alexander Oparin Gold Medal" for the 'Best sustained Programme' on the origin of life awarded by the International Society for the study of the origin of life in 1980. In recognition of his service to Sri Lanka, he was conferred, "The Honour of Vidya Jyothy" at the 1990 National Day investiture ceremony by President Ranasinghe Premadasa.
The presence of this great son of Sri Lanka, was so conspicuous all over the world as to be nominated to the prestigious Pontical Academy of Sciences, a body represented by world-renowned scientists who excelled in the spheres of mathematical and experimental sciences.
The Academy of Creative Endeavors, Moscow, awarded him the Harold Urey Prize and the Academy Medal for his outstanding contribution to the study of the origin of life.
His participation in the Sri Lankan scientific arena began in 1984, when he became the science adviser to the late Sri Lanka President J. R. Jayewardena. Within a matter of months he was appointed Director of the Institute of Fundamental Studies. His country was fortunate to have a son so highly recognized in the world and so dedicated to many public causes. His organisational abilities and communication skills have been widely acknowledged.
He died soon after suffering a heart attack at the Laboratory of Chemical Evolution, University of Maryland USA.
The remains of Professor Cyril Ponnamperuma were flown to Colombo on January 9, 1995.
Is there constant temperature throughout space?
If by space you mean the vacuum of outer space then, as the are very few atoms, there is no temperature as such.This is because what we call temperature (heat) is caused by the vibration of atoms.
However, there may be allot of energy passing through a portion of space (electromagnetic energy) but, if this has no matter to impinge on, it does not deposit this energy.
There are however some portions of space (in nebulae) where, although there is not much matter, what matter there is, is hot an may even be radiating energy (emission nebulae).
Thus the answer to you question is:-
No there is not a constant temperature throughout space.
Did NASA send a satellite to Uranus?
No, NASA has not sent a satellite specifically to Uranus. However, the Voyager 2 spacecraft conducted a flyby of Uranus in 1986, providing the most detailed data on the planet to date. There are no current plans for a dedicated mission to Uranus.
No. Apollo 18 was an interesting movie that was well done in, but it had no basis in fact and was a made up story. The moon is a vacuum who's surface is 220+ or 230- degrees F and is bombarded by solar radiation, which makes it impossible for ANY life to exist.
What do scientists send on the International Space Station to test the effects of microgravity?
Scientists send a variety of items to the International Space Station to test the effects of microgravity, including plant seeds, bacteria, cells, and even small animals like mice. These experiments help researchers understand how living organisms respond to space conditions and how microgravity affects biological systems.
When did the space shuttle 'Challenger' crash?
The Space Shuttle Challenger disaster occurred on January 28, 1986 at 11:38 am EST, when Space Shuttle Challenger broke apart immediately after take off.
