#Mars #Exlpore_It
@physics_revives
NASA's InSight mission will look deep into the heart of Mars for clues about its past
@physics_revives
NASA's InSight mission will look deep into the heart of Mars for clues about its past
phys.org
NASA's InSight mission will look deep into the heart of Mars for clues about its past
For decades, earthlings have dispatched spacecraft to Mars to study the planet's dusty surface and its thin atmosphere. Now NASA is sending a lander to the red planet to look deep into its heart.
#Mars #Elon_Musk #βπ
β@physics_revivesβ
Sorry, Elon Musk, but it's now clear that colonising Mars is unlikely β and a bad idea
β@physics_revivesβ
Share the story!!
π
Share the story!!
π
Share the story!!
β@physics_revivesβ
Sorry, Elon Musk, but it's now clear that colonising Mars is unlikely β and a bad idea
β@physics_revivesβ
Share the story!!
π
Share the story!!
π
Share the story!!
phys.org
Sorry, Elon Musk, but it's now clear that colonising Mars is unlikely β and a bad idea
Space X and Tesla founder Elon Musk has a vision for colonising Mars, based on a big rocket, nuclear explosions and an infrastructure to transport millions of people there. This was seen as highly ambitious ...
#SpaceNEWS #Mars
β@Physics_Revivesβ
NASA's InSight will study Mars while standing still
You don't need wheels to explore Mars.
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β@Physics_Revivesβ
NASA's InSight will study Mars while standing still
You don't need wheels to explore Mars.
β@Physics_Revivesβ
phys.org
NASA's InSight will study Mars while standing still
You don't need wheels to explore Mars.
#Methane #Mars #Nature
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European-Russian Trace Gas orbiter will end a long-running debate over source of gas on Mars
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β@Physics_Revivesβ
European-Russian Trace Gas orbiter will end a long-running debate over source of gas on Mars
β@Physics_Revivesβ
Nature
Mars probe poised to solve red planetβs methane mystery
Researchers hope EuropeanβRussian Trace Gas Orbiter will end a long-running debate over source of the gas on Mars.
ββ#InSight #Mars #NASA_Live
β@Physics_Revivesβ
When NASAβs InSight descends to the Red Planet on Nov. 26, 2018, it is guaranteed to be a white-knuckle event. Rob Manning, chief engineer at NASAβs Jet Propulsion Laboratory, explains the critical steps that must happen in perfect sequence to get the robotic lander safely to the surface.
β@Physics_Revivesβ
View minute by minute details and events here.
β@Physics_Revivesβ
When NASAβs InSight descends to the Red Planet on Nov. 26, 2018, it is guaranteed to be a white-knuckle event. Rob Manning, chief engineer at NASAβs Jet Propulsion Laboratory, explains the critical steps that must happen in perfect sequence to get the robotic lander safely to the surface.
β@Physics_Revivesβ
View minute by minute details and events here.
NASAβs Mars Exploration Program
InSight Landing on Mars
Rob Manning explains the critical steps that must happen in perfect sequence for InSight to land safely on the surface of Mars.
ββ#InSight #Mars #NASA #Exclusive
β@Physics_Revivesβ
PASADENA, Calif. β NASA's newest Mars robot has already captured a photo of its rusty, dusty home.
The Insight Lander touched down on the Red Planet yesterday (Nov. 26) just before 3 p.m. EST (2000 GMT) and beamed home its first image from the surface mere minutes later.
β@Physics_Revivesβ
β@Physics_Revivesβ
PASADENA, Calif. β NASA's newest Mars robot has already captured a photo of its rusty, dusty home.
The Insight Lander touched down on the Red Planet yesterday (Nov. 26) just before 3 p.m. EST (2000 GMT) and beamed home its first image from the surface mere minutes later.
β@Physics_Revivesβ
Space.com
Behold! Here's the 1st Photo from Mars from NASA's InSight Lander.
NASA's InSight lander touched down on the Red Planet today (Nov. 26) just before 3 p.m. EST (2000 GMT) and beamed home its first image from the surface mere minutes later.
#SpaceNEWS #SpaceTourism
#Mars
β@Physics_Revivesβ
Researcher discusses space tourism, the first mission to Mars
In December 2018, Thomas Zurbuchen, associate administrator for NASA's Science Mission Directorate, visited Boston University to discuss funding opportunities with faculty and researchers. While on campus, he also gave a talk about NASA's current and future missions. Afterward, Zurbuchen sat down with BU Research to talk about the timeline for traveling to Mars and whether he thinks humans are destined to live in a galaxy far, far away.
β@Physics_Revivesβ
#Mars
β@Physics_Revivesβ
Researcher discusses space tourism, the first mission to Mars
In December 2018, Thomas Zurbuchen, associate administrator for NASA's Science Mission Directorate, visited Boston University to discuss funding opportunities with faculty and researchers. While on campus, he also gave a talk about NASA's current and future missions. Afterward, Zurbuchen sat down with BU Research to talk about the timeline for traveling to Mars and whether he thinks humans are destined to live in a galaxy far, far away.
β@Physics_Revivesβ
phys.org
Researcher discusses space tourism, the first mission to Mars
In December 2018, Thomas Zurbuchen, associate administrator for NASA's Science Mission Directorate, visited Boston University to discuss funding opportunities with faculty and researchers. While on campus, ...
#TechNEWS_MITTR #Mars
β@Physics_Revivesβ
The future of Mars exploration may rest on a glider
After Opportunity, now what? An unpowered inflatable craft using thermal updrafts to stay aloft could cost-effectively map less-documented parts of the planetβs surface to help plan lander missions.
β@Physics_Revivesβ
β@Physics_Revivesβ
The future of Mars exploration may rest on a glider
After Opportunity, now what? An unpowered inflatable craft using thermal updrafts to stay aloft could cost-effectively map less-documented parts of the planetβs surface to help plan lander missions.
β@Physics_Revivesβ
MIT Technology Review
The future of Mars exploration may rest on a glider
After Opportunity, now what? An unpowered inflatable craft using thermal updrafts to stay aloft could cost-effectively map less-documented parts of the planetβs surface to help plan lander missions.
#TechNEWS_MITTR
#Mars
β@Physics_Revivesβ
The discovery of desert βdead zonesβ desert could help find life on Mars
A new study showing the patchiness of life in one of the driest areas on Earth could help NASA plan its Mars 2020 Rover mission.
β@Physics_Revivesβ
#Mars
β@Physics_Revivesβ
The discovery of desert βdead zonesβ desert could help find life on Mars
A new study showing the patchiness of life in one of the driest areas on Earth could help NASA plan its Mars 2020 Rover mission.
β@Physics_Revivesβ
MIT Technology Review
The discovery of desert βdead zonesβ could help find life on Mars
A new study showing the patchiness of life in one of the driest areas on Earth could help NASA plan its Mars 2020 rover mission.
#SpaceNEWS
#Mars #NASA
β@Physics_Revivesβ
Life on Mars?
According to NASA, scientists are in agreement that there is no life on Mars. However, they continue to assess whether Mars ever had an environment capable of supporting microbial life. Now, researchers from Hungary have discovered embedded organic material in a Martian meteorite found in the late 1970s. The scientists were able to determine the presence of organic matter in mineralised form such as different forms of bacteria within the meteorite, suggesting that life could have existed on the Red Planet.
β@Physics_Revivesβ
#Mars #NASA
β@Physics_Revivesβ
Life on Mars?
According to NASA, scientists are in agreement that there is no life on Mars. However, they continue to assess whether Mars ever had an environment capable of supporting microbial life. Now, researchers from Hungary have discovered embedded organic material in a Martian meteorite found in the late 1970s. The scientists were able to determine the presence of organic matter in mineralised form such as different forms of bacteria within the meteorite, suggesting that life could have existed on the Red Planet.
β@Physics_Revivesβ
phys.org
Life on Mars?
According to NASA, scientists are in agreement that there is no life on Mars. However, they continue to assess whether Mars ever had an environment capable of supporting microbial life. Now, researchers ...
#SpaceNEWS
#Curiosity
#Mars
β@Physics_Revivesβ
NASA's Curiosity Mars rover finds a clay cache
NASA's Curiosity rover has confirmed that the region on Mars it's exploring, called the "clay-bearing unit," is well deserving of its name.
Two samples the rover recently drilled at rock targets called "Aberlady" and "Kilmarie" have revealed the highest amounts of clay minerals ever found during the mission. Both drill targets appear in a new selfie taken by the rover on May 12, 2019, the 2,405th Martian day, or sol, of the mission.
β@Physics_Revivesβ
#Curiosity
#Mars
β@Physics_Revivesβ
NASA's Curiosity Mars rover finds a clay cache
NASA's Curiosity rover has confirmed that the region on Mars it's exploring, called the "clay-bearing unit," is well deserving of its name.
Two samples the rover recently drilled at rock targets called "Aberlady" and "Kilmarie" have revealed the highest amounts of clay minerals ever found during the mission. Both drill targets appear in a new selfie taken by the rover on May 12, 2019, the 2,405th Martian day, or sol, of the mission.
β@Physics_Revivesβ
phys.org
NASA's Curiosity Mars rover finds a clay cache
NASA's Curiosity rover has confirmed that the region on Mars it's exploring, called the "clay-bearing unit," is well deserving of its name. Two samples the rover recently drilled at rock targets called ...
#SpaceNEWS
#Mars
β@Phytimesβ
Making methane on Mars
Among the many challenges with a Mars voyage, one of the most pressing is: How can you get enough fuel for the spacecraft to fly back to Earth?
β@Phytimesβ
#Mars
β@Phytimesβ
Making methane on Mars
Among the many challenges with a Mars voyage, one of the most pressing is: How can you get enough fuel for the spacecraft to fly back to Earth?
β@Phytimesβ
phys.org
Making methane on Mars
Among the many challenges with a Mars voyage, one of the most pressing is: How can you get enough fuel for the spacecraft to fly back to Earth?
#SpaceNEWS
#Mars
β@Phytimesβ
Planetary scientists discover evidence for a reduced atmosphere on ancient Mars
Both Earth and Mars currently have oxidising atmospheres, which is why iron-rich materials in daily life develop rust (a common name for iron oxide) during the oxidation reaction of iron and oxygen. The Earth has had an oxidising atmosphere for approximately 2.5 billion years, but before that, the atmosphere of this planet was reducingβthere was no rust.
β@Phytimesβ
#Mars
β@Phytimesβ
Planetary scientists discover evidence for a reduced atmosphere on ancient Mars
Both Earth and Mars currently have oxidising atmospheres, which is why iron-rich materials in daily life develop rust (a common name for iron oxide) during the oxidation reaction of iron and oxygen. The Earth has had an oxidising atmosphere for approximately 2.5 billion years, but before that, the atmosphere of this planet was reducingβthere was no rust.
β@Phytimesβ
phys.org
Planetary scientists discover evidence for a reduced atmosphere on ancient Mars
Both Earth and Mars currently have oxidising atmospheres, which is why iron-rich materials in daily life develop rust (a common name for iron oxide) during the oxidation reaction of iron and oxygen. The ...
#SpaceNEWS
#Mars
β@Phytimesβ
Ingenuity helicopter successfully flew on Mars: NASA
NASA's experimental Mars helicopter rose from the dusty red surface into the thin air Monday, achieving the first powered, controlled flight on another planet.
β@Phytimesβ
#Mars
β@Phytimesβ
Ingenuity helicopter successfully flew on Mars: NASA
NASA's experimental Mars helicopter rose from the dusty red surface into the thin air Monday, achieving the first powered, controlled flight on another planet.
β@Phytimesβ
phys.org
Ingenuity helicopter successfully flew on Mars (Update)
NASA's experimental helicopter Ingenuity rose into the thin air above the dusty red surface of Mars on Monday, achieving the first powered flight by an aircraft on another planet.