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| Ultimi commenti - Curiosity and the Exploration of Gale Crater |
SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%11/%03/%23, %15.%MarPaolo C. Fienga: Ti quoto al 100% Max. Ormai lavoro e vivo (3/4 gio...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%08/%03/%23, %09.%MarUfologo: Bah .....
Faccio una riflessione personale, una...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%08/%03/%23, %09.%MarAnakin: Sì Vero Paolo, ma leggendo il tuo commento mi viene ...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%06/%03/%23, %17.%MarPaolo C. Fienga: Si Anakin: parole Tue: "Ci saremo!". In ...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%06/%03/%23, %14.%MarAnakin: tempo al tempo, ma non sarmeo io e Te, Paolo
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%05/%03/%23, %11.%MarUfologo: Sé, capirai! Se andiamo di questo passo, nemeno sull...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%04/%03/%23, %17.%MarPaolo C. Fienga: Tempo al tempo Anakin...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%03/%03/%23, %08.%MarAnakin: Sì, vero Walt. Fantastica! Ovviamente è merito di Kubr...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%02/%03/%23, %17.%Marwalthari: ragazzi questo panorama batte Hollywood 10 a zero....
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%08/%02/%23, %14.%FebPaolo C. Fienga: Pubblicata immagine del prototipo...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%07/%02/%23, %18.%FebAnakin: Non riesco a mandar giu l'idea che lo abbiano ...
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SOL3423-PIA25176-8192x2276.jpg"(Alli)Gator Back" Rocks on "Greenheugh" - Sol 3423141 visiteNASA’s Curiosity Mars rover used its Mast Camera, or MastCam, to take this 360° panorama on March 23, 2022, the 3.423th Martian Day, or Sol, of the Mission. The team has informally described the wind-sharpened rocks seen here as “gator-back” rocks because of their scaly appearance.
Wind-sharpened rocks like these are called ventifacts, and are responsible for chewing up Curiosity’s wheels earlier in the mission. Since then, rover engineers have found ways to slow wheel wear, including a traction control algorithm. They also plan rover routes that avoid driving over such rocks, including these latest ventifacts, which are made of sandstone – the hardest type of rock Curiosity has encountered on Mars.
These rocks form the Surface of the “Greenheugh Pediment,” a broad, sloping plain in the foothills of Mount Sharp. The floor of Gale Crater is visible along the edges of the mosaic. When Curiosity’s team saw the gator-back rocks, they ultimately decided to turn the rover around and take an alternative path to continue climbing Mount Sharp, a 3,4-mile-tall (approx. 5,5-Km-tall) mountain that Curiosity has been ascending since 2014. As it climbs, Curiosity is able to study different sedimentary layers shaped by water billions of years ago. These layers help scientists understand whether microscopic life could have survived in the ancient Martian Environment.MareKromium%07/%02/%23, %15.%FebUfologo: Letta; e come ti ho scritto, gli americani si dive...
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