Sweeping Over The South Pole Of Mars | Aero-News Network
Aero-News Network
RSS icon RSS feed
podcast icon MP3 podcast
Subscribe Aero-News e-mail Newsletter Subscribe

Airborne Unlimited -- Most Recent Daily Episodes

Episode Date

Airborne-Monday

Airborne-Tuesday

Airborne-Wednesday Airborne-Thursday

Airborne-Friday

Airborne On YouTube

Airborne-Unlimited-11.25.24

Airborne-AffordableFlyers-11.26.24

Airborne-Unlimited-11.20.24

Airborne Holiday

Airborne Holiday

Sun, Sep 13, 2015

Sweeping Over The South Pole Of Mars

ESA Mars Express Makes Unusual Observation

An unusual observation by Mars Express shows a sweeping view over the planet’s south polar ice cap and across its ancient, cratered highlands.

The image was taken by the high-resolution stereo camera on ESA’s Mars Express on 25 February.

During normal scientific imaging, the camera typically takes images pointing straight down towards the surface, from around the closest point to the planet along the spacecraft’s elliptical orbit at an altitude of about 300 km.

But in this unusual observation, known as a ‘broom calibration’ image, Mars Express turned such that its camera panned over the surface far above the planet, close to its furthest point along its orbit, in this case at around 6,100 miles.

Importantly, as well as affording an unusual wide view, this allows the camera to record a range of features at the same illumination conditions, allowing essential calibration of the camera’s sensors.

Towards the bottom of the image is the south polar ice cap, comprising frozen water and carbon dioxide ice. This feature changes in size and shape with the seasons; the main image presented here was captured during the south polar summer, but during winter the ice extends into the smooth regions that can be seen surrounding it. The mid-section of the image corresponds to the planet’s ancient southern highlands – it is covered by a high density of impact craters of varying size and states of erosion, with many craters overlapping. Numerous patterns of dark, dusty dune deposits are also visible, swept up by wind and accumulating in impact craters and troughs.

Towards the top left of the image a portion of the giant Hellas basin can be seen. This feature spans more than 1,300 miles across and plunges some 5 miles below the surface.

Two prominent channels – Dao Vallis and Niger Vallis – can be seen breaching the basin rim, made out as thin, dark wiggly lines in the colour image.

Hazy patches seen in the upper part of the image are attributed to clouds, while a thin, delicate layer of atmosphere follows the curvature of the planet at the horizon.

(Image provided by ESA)

FMI: www.esa.int

Advertisement

More News

Read/Watch/Listen... ANN Does It All

There Are SO Many Ways To Get YOUR Aero-News! It’s been a while since we have reminded everyone about all the ways we offer your daily dose of aviation news on-the-go...so he>[...]

Airborne 12.02.24: Electra FG EIS, Prez Osprey Problems, Starship Wants 25

Also: EAA Ray Foundation, MagniX Records, Ruko U11MINI Drone, RCAF PC-21s Elektra Solar recently put the first aircraft from its Elektra Trainer Fixed-Gear (FG) family into service>[...]

Airborne 12.02.24: Electra FG EIS, Prez Osprey Problems, Starship Wants 25

Also: EAA Ray Foundation, MagniX Records, Ruko U11MINI Drone, RCAF PC-21s Elektra Solar recently put the first aircraft from its Elektra Trainer Fixed-Gear (FG) family into service>[...]

Aero-Biz Survival 101 (1120a): Expert Ideas To Help You Through Tough Times

Brand New! Avoid The Need For A Comeback... Get Your Marketing Right, Right Now! Some time ago, the Aero-News Network, responding to numerous requests, established a marketing and >[...]

We're Accepting Resumes -- AND Hiring! ANN Puts Out 'Help Wanted' Sign

BIG Upgrades In The Works --- ANN Is Seeking EXCEPTIONAL New Staffers The last few years have been about as challenging a time as we can recall... but we survive (yeah, we're kinda>[...]

blog comments powered by Disqus



Advertisement

Advertisement

Podcasts

Advertisement

© 2007 - 2024 Web Development & Design by Pauli Systems, LC