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21 novembre 2022 à 22:46 : MichelleD53 (discussion | contributions) a déclenché le filtre antiabus 4, en effectuant l’action « edit » sur Nasa Dart Asteroid Spacecraft: Mission To Smash Into Dimorphos Space Rock Launches - BBC News. Actions entreprises : Interdire la modification ; Description du filtre : Empêcher la création de pages de pub utilisateur (examiner)

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Nasa Dart asteroid spacecraft: Mission to smash into Dimorphos space rock launches.<br>Nasa&#x27;s Dart mission wants to see how difficult it would be to stop a sizeable space rock from hitting Earth.<br>The spacecraft will crash into an object called Dimorphos to see how much its speed and path can be altered.<br>If a chunk of cosmic debris measuring a few hundred metres across were to collide with our planet, it could unleash continent-wide devastation.<br>A Falcon 9 rocket carrying the Dart spacecraft blasted off at 06:20 GMT on Wednesday from Vandenberg Space Force Base in California.<br>It is the first attempt to deflect an asteroid for the purpose of learning how to protect Earth, though this particular asteroid presents no threat.<br>&quot;Dart will only be changing the period of the orbit of Dimorphos by a tiny amount. And really that&#x27;s all that&#x27;s needed in the event that an asteroid is discovered well ahead of time,&quot; said Kelly Fast, from Nasa&#x27;s planetary defense co-ordination office.<br>Commenting on the launch, she said: &quot;We&#x27;re not out of the woods yet, we&#x27;ve got to get out to Dimorphos, but this is a huge step along the way.&quot;<br>Asteroids are the left-over building blocks of the Solar System. In the extremely rare event that a space rock&#x27;s path around the Sun crosses that of Earth so that the two objects intersect at the same time, a collision may occur.<br>The $325m (£240m) Dart mission will target a pair of asteroids that closely orbit each other - known as a binary. The larger of the two objects, called Didymos, measures around 780m across, while its smaller companion - Dimorphos - is around 160m wide.<br>Objects of Dimorphos&#x27; size could explode with many times the energy of a typical nuclear bomb, devastating populated areas and causing tens of thousands of casualties. Asteroids with a diameter 300m and larger could cause continent-wide destruction, while those bigger than 1km would produce worldwide effects.<br>After escaping Earth&#x27;s gravity,  [https://Po.cash/smart/j9IBCSAyjqdBE7 po.cash] Dart will follow its own orbit around the Sun. It will then intercept the binary as it approaches within 6.7 million miles of Earth in September 2022.<br>Dart will smash into the &quot;moonlet&quot; Dimorphos at a speed of around 15,000mph (6.6 km/s). This should change the speed of the object by a fraction of a millimetre per second - in turn altering its orbit around Didymos. It&#x27;s a very small shift, but it could be just enough to knock an object off a collision course with Earth.<br>&quot;There are a lot more small asteroids than there are large ones and so the most likely asteroid threat we ever have to face - if we ever have to face one - is probably going to be from an asteroid around this size,&quot; said Tom Statler, the mission&#x27;s program scientist at Nasa.<br>In 2005, Congress directed Nasa to discover and  [https://Po.cash/smart/j9IBCSAyjqdBE7 Po.Cash] track 90% of near-Earth asteroids larger than 140m (460ft). No known asteroids in this category pose an immediate threat to Earth, but only an estimated 40% of those objects have actually been found.<br>Dart is carrying a camera called Draco that will provide images of both asteroids and help the spacecraft point itself in the correct direction to collide with Dimorphos.<br>About 10 days before Dart hits its target, the American spacecraft will deploy a small, Italian-built satellite called LiciaCube. The smaller craft will send back images of the impact, the plume of debris kicked up and the resulting crater.<br>The tiny change in Dimorphos&#x27; path around Didymos will be measured by telescopes on Earth. Tom Statler commented: &quot;What we really want to know is: did we really deflect the asteroid and how efficiently did we do it?&quot;<br>A binary is the perfect natural laboratory for such a test. The impact should change Dimorphos&#x27; orbit around Didymos by roughly 1%, a change that can be detected by ground telescopes in weeks or months.<br>However, if Dart were to slam into a lone asteroid, its orbital period around the Sun would change by about 0.000006%, which would take many years to measure.<br>The binary is so small that, to even the most powerful telescopes, it appears as a single point of light. However, Dimorphos blocks some of Didymos&#x27; reflected light as it passes in front, while the opposite occurs when the smaller object moves behind its bigger companion.<br>&quot;We can measure the frequency of those dimmings,&quot; explained Dart&#x27;s investigation lead Andy Rivkin, adding: &quot;That&#x27;s how we know that Dimorphos goes around Didymos with a period of 11 hours, 55 minutes.&quot;<br>After the impact, astronomers will take those measurements again. &quot;They&#x27;ll happen a little bit more frequently - maybe it&#x27;ll be two every 11 hours 45 minutes, maybe it&#x27;ll be 11 hours, 20 minutes,&quot; said Dr Rivkin, who is based at Johns Hopkins University Applied Physics Laboratory (JHUAPL) in Laurel, Maryland.<br>There&#x27;s a degree of uncertainty over how Dimorphos will respond to the impact, in part because its interior structure isn&#x27;t known. If Dimorphos is relatively solid inside, rather than full of spaces, it might produce lots of debris - which would give the object an extra push.<br>Dart&#x27;s method for dealing with a hazardous asteroid is known as the kinetic impactor technique. However, there are other ideas, including moving the asteroid more slowly over time and even detonating a nuclear bomb - an option familiar from Hollywood movies such as Armageddon and Deep Impact.

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Nasa Dart Asteroid Spacecraft: Mission To Smash Into Dimorphos Space Rock Launches - BBC News
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Nasa Dart Asteroid Spacecraft: Mission To Smash Into Dimorphos Space Rock Launches - BBC News
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Nasa Dart asteroid spacecraft: Mission to smash into Dimorphos space rock launches.<br>Nasa&#x27;s Dart mission wants to see how difficult it would be to stop a sizeable space rock from hitting Earth.<br>The spacecraft will crash into an object called Dimorphos to see how much its speed and path can be altered.<br>If a chunk of cosmic debris measuring a few hundred metres across were to collide with our planet, it could unleash continent-wide devastation.<br>A Falcon 9 rocket carrying the Dart spacecraft blasted off at 06:20 GMT on Wednesday from Vandenberg Space Force Base in California.<br>It is the first attempt to deflect an asteroid for the purpose of learning how to protect Earth, though this particular asteroid presents no threat.<br>&quot;Dart will only be changing the period of the orbit of Dimorphos by a tiny amount. And really that&#x27;s all that&#x27;s needed in the event that an asteroid is discovered well ahead of time,&quot; said Kelly Fast, from Nasa&#x27;s planetary defense co-ordination office.<br>Commenting on the launch, she said: &quot;We&#x27;re not out of the woods yet, we&#x27;ve got to get out to Dimorphos, but this is a huge step along the way.&quot;<br>Asteroids are the left-over building blocks of the Solar System. In the extremely rare event that a space rock&#x27;s path around the Sun crosses that of Earth so that the two objects intersect at the same time, a collision may occur.<br>The $325m (£240m) Dart mission will target a pair of asteroids that closely orbit each other - known as a binary. The larger of the two objects, called Didymos, measures around 780m across, while its smaller companion - Dimorphos - is around 160m wide.<br>Objects of Dimorphos&#x27; size could explode with many times the energy of a typical nuclear bomb, devastating populated areas and causing tens of thousands of casualties. Asteroids with a diameter 300m and larger could cause continent-wide destruction, while those bigger than 1km would produce worldwide effects.<br>After escaping Earth&#x27;s gravity, [https://Po.cash/smart/j9IBCSAyjqdBE7 po.cash] Dart will follow its own orbit around the Sun. It will then intercept the binary as it approaches within 6.7 million miles of Earth in September 2022.<br>Dart will smash into the &quot;moonlet&quot; Dimorphos at a speed of around 15,000mph (6.6 km/s). This should change the speed of the object by a fraction of a millimetre per second - in turn altering its orbit around Didymos. It&#x27;s a very small shift, but it could be just enough to knock an object off a collision course with Earth.<br>&quot;There are a lot more small asteroids than there are large ones and so the most likely asteroid threat we ever have to face - if we ever have to face one - is probably going to be from an asteroid around this size,&quot; said Tom Statler, the mission&#x27;s program scientist at Nasa.<br>In 2005, Congress directed Nasa to discover and [https://Po.cash/smart/j9IBCSAyjqdBE7 Po.Cash] track 90% of near-Earth asteroids larger than 140m (460ft). No known asteroids in this category pose an immediate threat to Earth, but only an estimated 40% of those objects have actually been found.<br>Dart is carrying a camera called Draco that will provide images of both asteroids and help the spacecraft point itself in the correct direction to collide with Dimorphos.<br>About 10 days before Dart hits its target, the American spacecraft will deploy a small, Italian-built satellite called LiciaCube. The smaller craft will send back images of the impact, the plume of debris kicked up and the resulting crater.<br>The tiny change in Dimorphos&#x27; path around Didymos will be measured by telescopes on Earth. Tom Statler commented: &quot;What we really want to know is: did we really deflect the asteroid and how efficiently did we do it?&quot;<br>A binary is the perfect natural laboratory for such a test. The impact should change Dimorphos&#x27; orbit around Didymos by roughly 1%, a change that can be detected by ground telescopes in weeks or months.<br>However, if Dart were to slam into a lone asteroid, its orbital period around the Sun would change by about 0.000006%, which would take many years to measure.<br>The binary is so small that, to even the most powerful telescopes, it appears as a single point of light. However, Dimorphos blocks some of Didymos&#x27; reflected light as it passes in front, while the opposite occurs when the smaller object moves behind its bigger companion.<br>&quot;We can measure the frequency of those dimmings,&quot; explained Dart&#x27;s investigation lead Andy Rivkin, adding: &quot;That&#x27;s how we know that Dimorphos goes around Didymos with a period of 11 hours, 55 minutes.&quot;<br>After the impact, astronomers will take those measurements again. &quot;They&#x27;ll happen a little bit more frequently - maybe it&#x27;ll be two every 11 hours 45 minutes, maybe it&#x27;ll be 11 hours, 20 minutes,&quot; said Dr Rivkin, who is based at Johns Hopkins University Applied Physics Laboratory (JHUAPL) in Laurel, Maryland.<br>There&#x27;s a degree of uncertainty over how Dimorphos will respond to the impact, in part because its interior structure isn&#x27;t known. If Dimorphos is relatively solid inside, rather than full of spaces, it might produce lots of debris - which would give the object an extra push.<br>Dart&#x27;s method for dealing with a hazardous asteroid is known as the kinetic impactor technique. However, there are other ideas, including moving the asteroid more slowly over time and even detonating a nuclear bomb - an option familiar from Hollywood movies such as Armageddon and Deep Impact.
Diff unifié des changements faits lors de la modification (edit_diff)
@@ -1,1 +1,1 @@ - +Nasa Dart asteroid spacecraft: Mission to smash into Dimorphos space rock launches.<br>Nasa&#x27;s Dart mission wants to see how difficult it would be to stop a sizeable space rock from hitting Earth.<br>The spacecraft will crash into an object called Dimorphos to see how much its speed and path can be altered.<br>If a chunk of cosmic debris measuring a few hundred metres across were to collide with our planet, it could unleash continent-wide devastation.<br>A Falcon 9 rocket carrying the Dart spacecraft blasted off at 06:20 GMT on Wednesday from Vandenberg Space Force Base in California.<br>It is the first attempt to deflect an asteroid for the purpose of learning how to protect Earth, though this particular asteroid presents no threat.<br>&quot;Dart will only be changing the period of the orbit of Dimorphos by a tiny amount. And really that&#x27;s all that&#x27;s needed in the event that an asteroid is discovered well ahead of time,&quot; said Kelly Fast, from Nasa&#x27;s planetary defense co-ordination office.<br>Commenting on the launch, she said: &quot;We&#x27;re not out of the woods yet, we&#x27;ve got to get out to Dimorphos, but this is a huge step along the way.&quot;<br>Asteroids are the left-over building blocks of the Solar System. In the extremely rare event that a space rock&#x27;s path around the Sun crosses that of Earth so that the two objects intersect at the same time, a collision may occur.<br>The $325m (£240m) Dart mission will target a pair of asteroids that closely orbit each other - known as a binary. The larger of the two objects, called Didymos, measures around 780m across, while its smaller companion - Dimorphos - is around 160m wide.<br>Objects of Dimorphos&#x27; size could explode with many times the energy of a typical nuclear bomb, devastating populated areas and causing tens of thousands of casualties. Asteroids with a diameter 300m and larger could cause continent-wide destruction, while those bigger than 1km would produce worldwide effects.<br>After escaping Earth&#x27;s gravity, [https://Po.cash/smart/j9IBCSAyjqdBE7 po.cash] Dart will follow its own orbit around the Sun. It will then intercept the binary as it approaches within 6.7 million miles of Earth in September 2022.<br>Dart will smash into the &quot;moonlet&quot; Dimorphos at a speed of around 15,000mph (6.6 km/s). This should change the speed of the object by a fraction of a millimetre per second - in turn altering its orbit around Didymos. It&#x27;s a very small shift, but it could be just enough to knock an object off a collision course with Earth.<br>&quot;There are a lot more small asteroids than there are large ones and so the most likely asteroid threat we ever have to face - if we ever have to face one - is probably going to be from an asteroid around this size,&quot; said Tom Statler, the mission&#x27;s program scientist at Nasa.<br>In 2005, Congress directed Nasa to discover and [https://Po.cash/smart/j9IBCSAyjqdBE7 Po.Cash] track 90% of near-Earth asteroids larger than 140m (460ft). No known asteroids in this category pose an immediate threat to Earth, but only an estimated 40% of those objects have actually been found.<br>Dart is carrying a camera called Draco that will provide images of both asteroids and help the spacecraft point itself in the correct direction to collide with Dimorphos.<br>About 10 days before Dart hits its target, the American spacecraft will deploy a small, Italian-built satellite called LiciaCube. The smaller craft will send back images of the impact, the plume of debris kicked up and the resulting crater.<br>The tiny change in Dimorphos&#x27; path around Didymos will be measured by telescopes on Earth. Tom Statler commented: &quot;What we really want to know is: did we really deflect the asteroid and how efficiently did we do it?&quot;<br>A binary is the perfect natural laboratory for such a test. The impact should change Dimorphos&#x27; orbit around Didymos by roughly 1%, a change that can be detected by ground telescopes in weeks or months.<br>However, if Dart were to slam into a lone asteroid, its orbital period around the Sun would change by about 0.000006%, which would take many years to measure.<br>The binary is so small that, to even the most powerful telescopes, it appears as a single point of light. However, Dimorphos blocks some of Didymos&#x27; reflected light as it passes in front, while the opposite occurs when the smaller object moves behind its bigger companion.<br>&quot;We can measure the frequency of those dimmings,&quot; explained Dart&#x27;s investigation lead Andy Rivkin, adding: &quot;That&#x27;s how we know that Dimorphos goes around Didymos with a period of 11 hours, 55 minutes.&quot;<br>After the impact, astronomers will take those measurements again. &quot;They&#x27;ll happen a little bit more frequently - maybe it&#x27;ll be two every 11 hours 45 minutes, maybe it&#x27;ll be 11 hours, 20 minutes,&quot; said Dr Rivkin, who is based at Johns Hopkins University Applied Physics Laboratory (JHUAPL) in Laurel, Maryland.<br>There&#x27;s a degree of uncertainty over how Dimorphos will respond to the impact, in part because its interior structure isn&#x27;t known. If Dimorphos is relatively solid inside, rather than full of spaces, it might produce lots of debris - which would give the object an extra push.<br>Dart&#x27;s method for dealing with a hazardous asteroid is known as the kinetic impactor technique. However, there are other ideas, including moving the asteroid more slowly over time and even detonating a nuclear bomb - an option familiar from Hollywood movies such as Armageddon and Deep Impact.
Lignes ajoutées lors de la modification (added_lines)
Nasa Dart asteroid spacecraft: Mission to smash into Dimorphos space rock launches.<br>Nasa&#x27;s Dart mission wants to see how difficult it would be to stop a sizeable space rock from hitting Earth.<br>The spacecraft will crash into an object called Dimorphos to see how much its speed and path can be altered.<br>If a chunk of cosmic debris measuring a few hundred metres across were to collide with our planet, it could unleash continent-wide devastation.<br>A Falcon 9 rocket carrying the Dart spacecraft blasted off at 06:20 GMT on Wednesday from Vandenberg Space Force Base in California.<br>It is the first attempt to deflect an asteroid for the purpose of learning how to protect Earth, though this particular asteroid presents no threat.<br>&quot;Dart will only be changing the period of the orbit of Dimorphos by a tiny amount. And really that&#x27;s all that&#x27;s needed in the event that an asteroid is discovered well ahead of time,&quot; said Kelly Fast, from Nasa&#x27;s planetary defense co-ordination office.<br>Commenting on the launch, she said: &quot;We&#x27;re not out of the woods yet, we&#x27;ve got to get out to Dimorphos, but this is a huge step along the way.&quot;<br>Asteroids are the left-over building blocks of the Solar System. In the extremely rare event that a space rock&#x27;s path around the Sun crosses that of Earth so that the two objects intersect at the same time, a collision may occur.<br>The $325m (£240m) Dart mission will target a pair of asteroids that closely orbit each other - known as a binary. The larger of the two objects, called Didymos, measures around 780m across, while its smaller companion - Dimorphos - is around 160m wide.<br>Objects of Dimorphos&#x27; size could explode with many times the energy of a typical nuclear bomb, devastating populated areas and causing tens of thousands of casualties. Asteroids with a diameter 300m and larger could cause continent-wide destruction, while those bigger than 1km would produce worldwide effects.<br>After escaping Earth&#x27;s gravity, [https://Po.cash/smart/j9IBCSAyjqdBE7 po.cash] Dart will follow its own orbit around the Sun. It will then intercept the binary as it approaches within 6.7 million miles of Earth in September 2022.<br>Dart will smash into the &quot;moonlet&quot; Dimorphos at a speed of around 15,000mph (6.6 km/s). This should change the speed of the object by a fraction of a millimetre per second - in turn altering its orbit around Didymos. It&#x27;s a very small shift, but it could be just enough to knock an object off a collision course with Earth.<br>&quot;There are a lot more small asteroids than there are large ones and so the most likely asteroid threat we ever have to face - if we ever have to face one - is probably going to be from an asteroid around this size,&quot; said Tom Statler, the mission&#x27;s program scientist at Nasa.<br>In 2005, Congress directed Nasa to discover and [https://Po.cash/smart/j9IBCSAyjqdBE7 Po.Cash] track 90% of near-Earth asteroids larger than 140m (460ft). No known asteroids in this category pose an immediate threat to Earth, but only an estimated 40% of those objects have actually been found.<br>Dart is carrying a camera called Draco that will provide images of both asteroids and help the spacecraft point itself in the correct direction to collide with Dimorphos.<br>About 10 days before Dart hits its target, the American spacecraft will deploy a small, Italian-built satellite called LiciaCube. The smaller craft will send back images of the impact, the plume of debris kicked up and the resulting crater.<br>The tiny change in Dimorphos&#x27; path around Didymos will be measured by telescopes on Earth. Tom Statler commented: &quot;What we really want to know is: did we really deflect the asteroid and how efficiently did we do it?&quot;<br>A binary is the perfect natural laboratory for such a test. The impact should change Dimorphos&#x27; orbit around Didymos by roughly 1%, a change that can be detected by ground telescopes in weeks or months.<br>However, if Dart were to slam into a lone asteroid, its orbital period around the Sun would change by about 0.000006%, which would take many years to measure.<br>The binary is so small that, to even the most powerful telescopes, it appears as a single point of light. However, Dimorphos blocks some of Didymos&#x27; reflected light as it passes in front, while the opposite occurs when the smaller object moves behind its bigger companion.<br>&quot;We can measure the frequency of those dimmings,&quot; explained Dart&#x27;s investigation lead Andy Rivkin, adding: &quot;That&#x27;s how we know that Dimorphos goes around Didymos with a period of 11 hours, 55 minutes.&quot;<br>After the impact, astronomers will take those measurements again. &quot;They&#x27;ll happen a little bit more frequently - maybe it&#x27;ll be two every 11 hours 45 minutes, maybe it&#x27;ll be 11 hours, 20 minutes,&quot; said Dr Rivkin, who is based at Johns Hopkins University Applied Physics Laboratory (JHUAPL) in Laurel, Maryland.<br>There&#x27;s a degree of uncertainty over how Dimorphos will respond to the impact, in part because its interior structure isn&#x27;t known. If Dimorphos is relatively solid inside, rather than full of spaces, it might produce lots of debris - which would give the object an extra push.<br>Dart&#x27;s method for dealing with a hazardous asteroid is known as the kinetic impactor technique. However, there are other ideas, including moving the asteroid more slowly over time and even detonating a nuclear bomb - an option familiar from Hollywood movies such as Armageddon and Deep Impact.
Horodatage Unix de la modification (timestamp)
1669067180