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PHOE-SOL107-lg31078-31079-31085-2.jpgSolar Panels and Surface - Sol 107 (Superdefinition and natural colors; credits: Dr G. Barca)56 visitenessun commentoMareKromium04/14/26 at 16:50Paolo C. Fienga: Mi è stato detto - ma non so quanto tempo fa - che...
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A-Phoenix-001.jpgThe Phoenix Lander: Hot-Fire Test Mock-Up55 visitenessun commentoMareKromium03/30/21 at 16:49MareKromium: Guardate l'immagine che segue. Galleria "...
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PHOE-SOL000-PSP_008579_9020.jpgThe Descent of Phoenix, from MRO - Sol 0 (MULTISPECTRUM; credits: Lunexit)53 visiteCaption NASA:"MRO's HiRISE camera acquired this dramatic oblique image of Phoenix descending on its parachute. Shown here is a a wider view of the full image, showing a 10 Km diameter crater informally called “Heimdall,” and an improved full-resolution image of the parachute and lander (in the inset).
Although it appears that Phoenix is descending into the crater, it is actually about 20 Km in front of it. It is difficult to believe that it is in front of the crater because it is so much smaller, but in reality it is, and that's a good thing because landing on the steep rocky slopes of the crater would have been far too exciting (or risky).
Images from the lander clearly show that it sits on a flat plain, although the rim of Heimdall may be visible on the horizon. Given the position and pointing angle of MRO, Phoenix is at about 13 Km above the surface, just a few seconds after the parachute opened.
This improved image shows some details of the parachute, including the gap between upper and lower sections. At the time of this observation, MRO had an orbital altitude of 310 Km, traveling at a ground velocity of 3,4 Km/second, and a distance of 760 Km to the Phoenix lander.
The image was rotated to a position that seems approximately parallel to the horizon based on the elongation of Heimdall Crater, but this is not exact. Thus, although Phoenix appears to hang from the parachute at an angle, as if swaying in the wind, the exact geometry has not yet been determined. The parachute image is very sharp as its apparent motion was straight down the HiRISE TDI (Time Delay Integration) columns. However, the surface of Mars was moving at an angle to the TDI columns, and thus is smeared by a few pixels, although the smear is not apparent at the reduced scale of the image shown here.
The Sun is almost directly behind HiRISE, so the parachute should be casting a shadow onto the slope of the Crater, but we cannot determine which of many dark spots is the shadow until a detailed geometric analysis has been completed". MareKromium02/24/21 at 18:08MareKromium: ...e che vuoi aggiungere se non un "no commen...
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PHOE-SOL000-PSP_008579_9020.jpgThe Descent of Phoenix, from MRO - Sol 0 (MULTISPECTRUM; credits: Lunexit)53 visiteCaption NASA:"MRO's HiRISE camera acquired this dramatic oblique image of Phoenix descending on its parachute. Shown here is a a wider view of the full image, showing a 10 Km diameter crater informally called “Heimdall,” and an improved full-resolution image of the parachute and lander (in the inset).
Although it appears that Phoenix is descending into the crater, it is actually about 20 Km in front of it. It is difficult to believe that it is in front of the crater because it is so much smaller, but in reality it is, and that's a good thing because landing on the steep rocky slopes of the crater would have been far too exciting (or risky).
Images from the lander clearly show that it sits on a flat plain, although the rim of Heimdall may be visible on the horizon. Given the position and pointing angle of MRO, Phoenix is at about 13 Km above the surface, just a few seconds after the parachute opened.
This improved image shows some details of the parachute, including the gap between upper and lower sections. At the time of this observation, MRO had an orbital altitude of 310 Km, traveling at a ground velocity of 3,4 Km/second, and a distance of 760 Km to the Phoenix lander.
The image was rotated to a position that seems approximately parallel to the horizon based on the elongation of Heimdall Crater, but this is not exact. Thus, although Phoenix appears to hang from the parachute at an angle, as if swaying in the wind, the exact geometry has not yet been determined. The parachute image is very sharp as its apparent motion was straight down the HiRISE TDI (Time Delay Integration) columns. However, the surface of Mars was moving at an angle to the TDI columns, and thus is smeared by a few pixels, although the smear is not apparent at the reduced scale of the image shown here.
The Sun is almost directly behind HiRISE, so the parachute should be casting a shadow onto the slope of the Crater, but we cannot determine which of many dark spots is the shadow until a detailed geometric analysis has been completed". MareKromium02/24/21 at 16:11walthari: no comment
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PHOE-SOL000-PSP_008579_9020.jpgThe Descent of Phoenix, from MRO - Sol 0 (MULTISPECTRUM; credits: Lunexit)53 visiteCaption NASA:"MRO's HiRISE camera acquired this dramatic oblique image of Phoenix descending on its parachute. Shown here is a a wider view of the full image, showing a 10 Km diameter crater informally called “Heimdall,” and an improved full-resolution image of the parachute and lander (in the inset).
Although it appears that Phoenix is descending into the crater, it is actually about 20 Km in front of it. It is difficult to believe that it is in front of the crater because it is so much smaller, but in reality it is, and that's a good thing because landing on the steep rocky slopes of the crater would have been far too exciting (or risky).
Images from the lander clearly show that it sits on a flat plain, although the rim of Heimdall may be visible on the horizon. Given the position and pointing angle of MRO, Phoenix is at about 13 Km above the surface, just a few seconds after the parachute opened.
This improved image shows some details of the parachute, including the gap between upper and lower sections. At the time of this observation, MRO had an orbital altitude of 310 Km, traveling at a ground velocity of 3,4 Km/second, and a distance of 760 Km to the Phoenix lander.
The image was rotated to a position that seems approximately parallel to the horizon based on the elongation of Heimdall Crater, but this is not exact. Thus, although Phoenix appears to hang from the parachute at an angle, as if swaying in the wind, the exact geometry has not yet been determined. The parachute image is very sharp as its apparent motion was straight down the HiRISE TDI (Time Delay Integration) columns. However, the surface of Mars was moving at an angle to the TDI columns, and thus is smeared by a few pixels, although the smear is not apparent at the reduced scale of the image shown here.
The Sun is almost directly behind HiRISE, so the parachute should be casting a shadow onto the slope of the Crater, but we cannot determine which of many dark spots is the shadow until a detailed geometric analysis has been completed". MareKromium02/24/21 at 15:48MareKromium: Eccolo il dj vu!!!
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/13/20 at 14:29MareKromium: ...Ci st?! Ma allora...cosa potrebbe esserci a poc...
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/13/20 at 08:46walthari: pi? che un filo d'erba potrei pensare ad un fi...
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/03/20 at 17:27Ufologo: S?, ? vero ... (Grazie per utto MareKromium; contr...
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/03/20 at 13:17MareKromium: Ed infatti ci sono, Amico Mio! Nell'archivio, ...
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/03/20 at 13:11Ufologo: ... e se fosse erba, non mancherebbero animali!
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/03/20 at 12:05MareKromium: Vero Anakin. E se fosse davvero un "filino&qu...
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PHOE-SOL137-lg39617-39618-39619-2.jpgMicroscopic Vastitas - Sol 137 (Superdefinition and possible True Colors; credits: Dr G. Barca)54 visitenessun commentoMareKromium12/03/20 at 11:05Anakin: Accidenti bellissima questa immagine. Sembra propr...
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