![](\"https:\/\/spaceweekly.com\/wp-content\/uploads\/2019\/12\/Phobos_phase_angles_explained_card_full.png\")
<\/p>\n<\/p>\n
ESA\u2019s Mars Express<\/a> recently tracked the small martian moon Phobos as it flew past the spacecraft, capturing detailed views of the pockmarked, irregularly shaped body at different angles and stages of the flyby.<\/p>\n This image sequence nicely demonstrates the concept of \u2018phase angle\u2019: the angle between a light source (in this case, the Sun) and the observer (Mars Express\u2019 HRSC), as viewed from the target object itself (Phobos). The initial phase angle is 17 degrees, drops to almost 0 degrees mid-way through (when Phobos is at its brightest), and then rises to 15 degrees by the end of the animation.<\/p>\n Phase angle, and how it corresponds to what we see, is represented in the animation to the right of the image sequence. The movie comprises 41 images taken by the High Resolution Stereo Camera\u2019s Super Resolution Channel<\/a> on 17 November 2019 during orbit 20 076, when Phobos passed Mars Express at a distance of roughly 2400 km. The images have a resolution of 21 m\/pixel.<\/p>\n