RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @erinthevenusian: New paper from Navarro et al. in @NatureGeosci suggests atmospheric gravity waves above topographic highs -'mountain w…
RT @NatureGeosci: NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @to…
RT @NatureGeosci: NGeo: Interplay between the Venusian atmosphere and mountain topography modifies the solid planet’s rotation rate https:/…
RT @NatureGeosci: NGeo: Interplay between the Venusian atmosphere and mountain topography modifies the solid planet’s rotation rate https:/…
RT @NatureGeosci: NGeo: Interplay between the Venusian atmosphere and mountain topography modifies the solid planet’s rotation rate https:/…
NGeo: Interplay between the Venusian atmosphere and mountain topography modifies the solid planet’s rotation rate https://t.co/arTVV4Q9iq https://t.co/e75S47agej
Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate #AstroLit https://t.co/NzWo4NPI3W
RT @erinthevenusian: New paper from Navarro et al. in @NatureGeosci suggests atmospheric gravity waves above topographic highs -'mountain w…
RT @erinthevenusian: New paper from Navarro et al. in @NatureGeosci suggests atmospheric gravity waves above topographic highs -'mountain w…
RT @NatureGeosci: NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @to…
Las montañas de Venus crean olas atmosféricas tan fuertes que varían el día en 2 minutos (ING) https://t.co/udGKCqYr0o
RT @NatureGeosci: NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @to…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
New paper from Navarro et al. in @NatureGeosci suggests atmospheric gravity waves above topographic highs -'mountain waves' - on Venus could contribute to changes in the planet's rotation rate by as much as 2 minutes/day! https://t.co/Ye5UskxJm8
RT @themadstone: Have my climate/geo nerds heard about Venus? It’s like a globally-warmed Earth on steroids, where the oceans are in the at…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @themadstone: Have my climate/geo nerds heard about Venus? It’s like a globally-warmed Earth on steroids, where the oceans are in the at…
RT @NatureGeosci: NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @to…
"Улыбка" Венеры помогла объяснить феномен "непостоянного дня" второй планеты https://t.co/nUdvWYxNiy 📄"Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate" https://t.co/DcrWYCxVFH https://t.co/I5RVR2o4Tx
RT @themadstone: Have my climate/geo nerds heard about Venus? It’s like a globally-warmed Earth on steroids, where the oceans are in the at…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
Have my climate/geo nerds heard about Venus? It’s like a globally-warmed Earth on steroids, where the oceans are in the atmosphere, the surface melts lead, and towering mountains slow the entire planet’s rotation. Artwork by the amazing @jtuttlekeane F ht
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @to…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @to…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
NGeo: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate assessed by @totoplaneto https://t.co/arTVV4yxTQ https://t.co/f6QdLyghaw
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
Pretty! https://t.co/3ML8SUQVDG
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @LucaPlanets: The Venus paper that had its Behind the scenes blog entry in our Astronomy Community has also its sketch by @jtuttlekeane…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @LucaPlanets: The Venus paper that had its Behind the scenes blog entry in our Astronomy Community has also its sketch by @jtuttlekeane…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @jtuttlekeane: My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s cha…
RT @LucaPlanets: The Venus paper that had its Behind the scenes blog entry in our Astronomy Community has also its sketch by @jtuttlekeane…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
My new #GeoSketchUp—giant gravity waves on Venus! Atmospheric drag against Venus’s mountains may help explain Venus’s changing spin period. https://t.co/SBN13JHBwi
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @LucaPlanets: The Venus paper that had its Behind the scenes blog entry in our Astronomy Community has also its sketch by @jtuttlekeane…
The Venus paper that had its Behind the scenes blog entry in our Astronomy Community has also its sketch by @jtuttlekeane :) https://t.co/3parNjtw6K
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @emulenews: Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate. Stationary gravity wave…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
@radioskylab_es esto puede interesaros https://t.co/e7wvPMSXgc
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
RT @NatureGeosci: Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains…
Hooray, a pretty new #GeoSketchUp from @jtuttlekeane! Venus torqued by atmospheric gravity waves launched above mountains https://t.co/W4NGEDKdLJ Read the full paper here https://t.co/sFJZiUYulV https://t.co/1ZMNPuZm3N
La interacción entre las montañas de Venus y su atmósfera crea olas lo suficientemente fuertes como para cambiar la duración de un día venusiano en hasta dos minutos https://t.co/WNirl3URYi #astronomy #astrophysics #Venus #Akatsuki @totoplaneto @UCLA @Akat
Atmospheric mountain wave generation on Venus and its influence on the solid planet’s rotation rate. Stationary gravity waves over topographic highs—or mountain waves https://t.co/ZIDLs2aUtQ