What is this spaceship-shaped cloud?












5















This tweet from the European Space Agency (ESA)'s Spanish account show a striking photo of a round, flat, "space-ship-shaped" cloud in an otherwise completely clear sky. The stars are out so I assume this is at night, possibly with a Moon.



Could this be real? If so, what kind of cloud is it? and how can it appear out in the open?



enter image description here










share|improve this question


















  • 1





    For people in the northern hemisphere, the stars to the right of the cloud is what the constellation Orion looks like from the southern hemisphere.

    – Fred
    2 days ago











  • @uhoh - earthscience.stackexchange.com/questions/8375/…

    – gansub
    2 days ago











  • @gansub hadn't even noticed the mountain, "...and how can it appear out in the open?" I know funny things happen at the tops of mountains but this (at first) seemed to come out of nowhere. Thanks!

    – uhoh
    2 days ago













  • Yes indeed, that's another reason I may have been distracted.

    – uhoh
    2 days ago






  • 1





    @uhoh your next question ought to be - why is this lenticular cloud so much higher than the peak of that mountain ? This one on the other hand is touching the mountain peak - earthscience.stackexchange.com/questions/8375/…

    – gansub
    yesterday


















5















This tweet from the European Space Agency (ESA)'s Spanish account show a striking photo of a round, flat, "space-ship-shaped" cloud in an otherwise completely clear sky. The stars are out so I assume this is at night, possibly with a Moon.



Could this be real? If so, what kind of cloud is it? and how can it appear out in the open?



enter image description here










share|improve this question


















  • 1





    For people in the northern hemisphere, the stars to the right of the cloud is what the constellation Orion looks like from the southern hemisphere.

    – Fred
    2 days ago











  • @uhoh - earthscience.stackexchange.com/questions/8375/…

    – gansub
    2 days ago











  • @gansub hadn't even noticed the mountain, "...and how can it appear out in the open?" I know funny things happen at the tops of mountains but this (at first) seemed to come out of nowhere. Thanks!

    – uhoh
    2 days ago













  • Yes indeed, that's another reason I may have been distracted.

    – uhoh
    2 days ago






  • 1





    @uhoh your next question ought to be - why is this lenticular cloud so much higher than the peak of that mountain ? This one on the other hand is touching the mountain peak - earthscience.stackexchange.com/questions/8375/…

    – gansub
    yesterday
















5












5








5


2






This tweet from the European Space Agency (ESA)'s Spanish account show a striking photo of a round, flat, "space-ship-shaped" cloud in an otherwise completely clear sky. The stars are out so I assume this is at night, possibly with a Moon.



Could this be real? If so, what kind of cloud is it? and how can it appear out in the open?



enter image description here










share|improve this question














This tweet from the European Space Agency (ESA)'s Spanish account show a striking photo of a round, flat, "space-ship-shaped" cloud in an otherwise completely clear sky. The stars are out so I assume this is at night, possibly with a Moon.



Could this be real? If so, what kind of cloud is it? and how can it appear out in the open?



enter image description here







identification-request clouds






share|improve this question













share|improve this question











share|improve this question




share|improve this question










asked 2 days ago









uhohuhoh

2,092630




2,092630








  • 1





    For people in the northern hemisphere, the stars to the right of the cloud is what the constellation Orion looks like from the southern hemisphere.

    – Fred
    2 days ago











  • @uhoh - earthscience.stackexchange.com/questions/8375/…

    – gansub
    2 days ago











  • @gansub hadn't even noticed the mountain, "...and how can it appear out in the open?" I know funny things happen at the tops of mountains but this (at first) seemed to come out of nowhere. Thanks!

    – uhoh
    2 days ago













  • Yes indeed, that's another reason I may have been distracted.

    – uhoh
    2 days ago






  • 1





    @uhoh your next question ought to be - why is this lenticular cloud so much higher than the peak of that mountain ? This one on the other hand is touching the mountain peak - earthscience.stackexchange.com/questions/8375/…

    – gansub
    yesterday
















  • 1





    For people in the northern hemisphere, the stars to the right of the cloud is what the constellation Orion looks like from the southern hemisphere.

    – Fred
    2 days ago











  • @uhoh - earthscience.stackexchange.com/questions/8375/…

    – gansub
    2 days ago











  • @gansub hadn't even noticed the mountain, "...and how can it appear out in the open?" I know funny things happen at the tops of mountains but this (at first) seemed to come out of nowhere. Thanks!

    – uhoh
    2 days ago













  • Yes indeed, that's another reason I may have been distracted.

    – uhoh
    2 days ago






  • 1





    @uhoh your next question ought to be - why is this lenticular cloud so much higher than the peak of that mountain ? This one on the other hand is touching the mountain peak - earthscience.stackexchange.com/questions/8375/…

    – gansub
    yesterday










1




1





For people in the northern hemisphere, the stars to the right of the cloud is what the constellation Orion looks like from the southern hemisphere.

– Fred
2 days ago





For people in the northern hemisphere, the stars to the right of the cloud is what the constellation Orion looks like from the southern hemisphere.

– Fred
2 days ago













@uhoh - earthscience.stackexchange.com/questions/8375/…

– gansub
2 days ago





@uhoh - earthscience.stackexchange.com/questions/8375/…

– gansub
2 days ago













@gansub hadn't even noticed the mountain, "...and how can it appear out in the open?" I know funny things happen at the tops of mountains but this (at first) seemed to come out of nowhere. Thanks!

– uhoh
2 days ago







@gansub hadn't even noticed the mountain, "...and how can it appear out in the open?" I know funny things happen at the tops of mountains but this (at first) seemed to come out of nowhere. Thanks!

– uhoh
2 days ago















Yes indeed, that's another reason I may have been distracted.

– uhoh
2 days ago





Yes indeed, that's another reason I may have been distracted.

– uhoh
2 days ago




1




1





@uhoh your next question ought to be - why is this lenticular cloud so much higher than the peak of that mountain ? This one on the other hand is touching the mountain peak - earthscience.stackexchange.com/questions/8375/…

– gansub
yesterday







@uhoh your next question ought to be - why is this lenticular cloud so much higher than the peak of that mountain ? This one on the other hand is touching the mountain peak - earthscience.stackexchange.com/questions/8375/…

– gansub
yesterday












1 Answer
1






active

oldest

votes


















8














The image shown is a lenticular cloud, a type of cloud often observed around significant topographical features such as the mountain peaks shown in the photo. Depending on the local atmospheric moisture, they can occur on their own (as in this case), apart from other cloud features.



All cloud growth depends on the condensation of water resulting from air being cooled as it is lifted vertically by some forcing mechanism. However, these clouds are an exception to more typical cloud growth, which depends on the atmosphere having a tendency (or instability) for air to continue rising - and thereby condensing more liquid water - once forced upward.



Following the initial source cited above, lenticular clouds form in environments that are stable (i.e., not conducive) to these vertical motions, so upward motion is entirely driven by air forced over an obstacle - in this case, mountain terrain. From a horizontal view, the vertical motion forced by this obstacle commonly takes the form of a persistent wave pattern: orographic waves image source



This occurs downwind of the terrain feature, with clouds forming over the portion of the wave featuring upwards vertical motion. This becomes extremely evident when viewing time-lapse videos of this phenomenon.






share|improve this answer



















  • 1





    I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

    – uhoh
    2 days ago






  • 1





    It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

    – dplmmr
    2 days ago











  • A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

    – Keith McClary
    2 days ago











Your Answer





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1 Answer
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active

oldest

votes








1 Answer
1






active

oldest

votes









active

oldest

votes






active

oldest

votes









8














The image shown is a lenticular cloud, a type of cloud often observed around significant topographical features such as the mountain peaks shown in the photo. Depending on the local atmospheric moisture, they can occur on their own (as in this case), apart from other cloud features.



All cloud growth depends on the condensation of water resulting from air being cooled as it is lifted vertically by some forcing mechanism. However, these clouds are an exception to more typical cloud growth, which depends on the atmosphere having a tendency (or instability) for air to continue rising - and thereby condensing more liquid water - once forced upward.



Following the initial source cited above, lenticular clouds form in environments that are stable (i.e., not conducive) to these vertical motions, so upward motion is entirely driven by air forced over an obstacle - in this case, mountain terrain. From a horizontal view, the vertical motion forced by this obstacle commonly takes the form of a persistent wave pattern: orographic waves image source



This occurs downwind of the terrain feature, with clouds forming over the portion of the wave featuring upwards vertical motion. This becomes extremely evident when viewing time-lapse videos of this phenomenon.






share|improve this answer



















  • 1





    I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

    – uhoh
    2 days ago






  • 1





    It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

    – dplmmr
    2 days ago











  • A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

    – Keith McClary
    2 days ago
















8














The image shown is a lenticular cloud, a type of cloud often observed around significant topographical features such as the mountain peaks shown in the photo. Depending on the local atmospheric moisture, they can occur on their own (as in this case), apart from other cloud features.



All cloud growth depends on the condensation of water resulting from air being cooled as it is lifted vertically by some forcing mechanism. However, these clouds are an exception to more typical cloud growth, which depends on the atmosphere having a tendency (or instability) for air to continue rising - and thereby condensing more liquid water - once forced upward.



Following the initial source cited above, lenticular clouds form in environments that are stable (i.e., not conducive) to these vertical motions, so upward motion is entirely driven by air forced over an obstacle - in this case, mountain terrain. From a horizontal view, the vertical motion forced by this obstacle commonly takes the form of a persistent wave pattern: orographic waves image source



This occurs downwind of the terrain feature, with clouds forming over the portion of the wave featuring upwards vertical motion. This becomes extremely evident when viewing time-lapse videos of this phenomenon.






share|improve this answer



















  • 1





    I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

    – uhoh
    2 days ago






  • 1





    It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

    – dplmmr
    2 days ago











  • A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

    – Keith McClary
    2 days ago














8












8








8







The image shown is a lenticular cloud, a type of cloud often observed around significant topographical features such as the mountain peaks shown in the photo. Depending on the local atmospheric moisture, they can occur on their own (as in this case), apart from other cloud features.



All cloud growth depends on the condensation of water resulting from air being cooled as it is lifted vertically by some forcing mechanism. However, these clouds are an exception to more typical cloud growth, which depends on the atmosphere having a tendency (or instability) for air to continue rising - and thereby condensing more liquid water - once forced upward.



Following the initial source cited above, lenticular clouds form in environments that are stable (i.e., not conducive) to these vertical motions, so upward motion is entirely driven by air forced over an obstacle - in this case, mountain terrain. From a horizontal view, the vertical motion forced by this obstacle commonly takes the form of a persistent wave pattern: orographic waves image source



This occurs downwind of the terrain feature, with clouds forming over the portion of the wave featuring upwards vertical motion. This becomes extremely evident when viewing time-lapse videos of this phenomenon.






share|improve this answer













The image shown is a lenticular cloud, a type of cloud often observed around significant topographical features such as the mountain peaks shown in the photo. Depending on the local atmospheric moisture, they can occur on their own (as in this case), apart from other cloud features.



All cloud growth depends on the condensation of water resulting from air being cooled as it is lifted vertically by some forcing mechanism. However, these clouds are an exception to more typical cloud growth, which depends on the atmosphere having a tendency (or instability) for air to continue rising - and thereby condensing more liquid water - once forced upward.



Following the initial source cited above, lenticular clouds form in environments that are stable (i.e., not conducive) to these vertical motions, so upward motion is entirely driven by air forced over an obstacle - in this case, mountain terrain. From a horizontal view, the vertical motion forced by this obstacle commonly takes the form of a persistent wave pattern: orographic waves image source



This occurs downwind of the terrain feature, with clouds forming over the portion of the wave featuring upwards vertical motion. This becomes extremely evident when viewing time-lapse videos of this phenomenon.







share|improve this answer












share|improve this answer



share|improve this answer










answered 2 days ago









dplmmrdplmmr

53017




53017








  • 1





    I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

    – uhoh
    2 days ago






  • 1





    It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

    – dplmmr
    2 days ago











  • A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

    – Keith McClary
    2 days ago














  • 1





    I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

    – uhoh
    2 days ago






  • 1





    It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

    – dplmmr
    2 days ago











  • A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

    – Keith McClary
    2 days ago








1




1





I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

– uhoh
2 days ago





I was so fascinated by the cloud and distracted by the stars that didn't really notice the mountain in the photo until reading your answer. Yep, there it is! Thanks!

– uhoh
2 days ago




1




1





It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

– dplmmr
2 days ago





It's my favorite type of cloud, and a good example of how clouds are often indicators of some other mechanism at play, even subtle terrain features!

– dplmmr
2 days ago













A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

– Keith McClary
2 days ago





A type of Orographic clouds that develop in response to the forced lifting of air by the earth's topography.

– Keith McClary
2 days ago


















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