#hydrostatic — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #hydrostatic, aggregated by home.social.
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About #Pluto and other #planets. Yes, I said it, Pluto is indeed a #planet.
Taxonomical alignment with geological complexity is the most useful scientific taxonomy for planets.
That is, all Solar System bodies in #hydrostatic equilibrium should be labelled planets, regardless of what they orbit.
Solar System therefore has 36 planets including 8 primary planets, 9 dwarf planets, and 19 secondary planets we typically refer to as #moons.
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About #Pluto and other #planets. Yes, I said it, Pluto is indeed a #planet.
Taxonomical alignment with geological complexity is the most useful scientific taxonomy for planets.
That is, all Solar System bodies in #hydrostatic equilibrium should be labelled planets, regardless of what they orbit.
Solar System therefore has 36 planets including 8 primary planets, 9 dwarf planets, and 19 secondary planets we typically refer to as #moons.
-
About #Pluto and other #planets. Yes, I said it, Pluto is indeed a #planet.
Taxonomical alignment with geological complexity is the most useful scientific taxonomy for planets.
That is, all Solar System bodies in #hydrostatic equilibrium should be labelled planets, regardless of what they orbit.
Solar System therefore has 36 planets including 8 primary planets, 9 dwarf planets, and 19 secondary planets we typically refer to as #moons.
-
About #Pluto and other #planets. Yes, I said it, Pluto is indeed a #planet.
Taxonomical alignment with geological complexity is the most useful scientific taxonomy for planets.
That is, all Solar System bodies in #hydrostatic equilibrium should be labelled planets, regardless of what they orbit.
Solar System therefore has 36 planets including 8 primary planets, 9 dwarf planets, and 19 secondary planets we typically refer to as #moons.
-
About #Pluto and other #planets. Yes, I said it, Pluto is indeed a #planet.
Taxonomical alignment with geological complexity is the most useful scientific taxonomy for planets.
That is, all Solar System bodies in #hydrostatic equilibrium should be labelled planets, regardless of what they orbit.
Solar System therefore has 36 planets including 8 primary planets, 9 dwarf planets, and 19 secondary planets we typically refer to as #moons.
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Researcher uses #hydrostatic pressure to understand #RNA dynamics.
https://phys.org/news/2023-06-hydrostatic-pressure-rna-dynamics.html
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Applying #hydrostatic pressure as an external stimulus, Tokyo Tech and Keio University researchers demonstrate a new way to regulate #singlet #fission (SF), a process in which two #electrons are generated from a single #photon, in #chromophores, opening doors to the design of SF-based materials with enhanced (photo)energy conversion.
#Chemistry #Physics #Technology #sflorg
https://www.sflorg.com/2023/03/chm03232302.html -
Applying #hydrostatic pressure as an external stimulus, Tokyo Tech and Keio University researchers demonstrate a new way to regulate #singlet #fission (SF), a process in which two #electrons are generated from a single #photon, in #chromophores, opening doors to the design of SF-based materials with enhanced (photo)energy conversion.
#Chemistry #Physics #Technology #sflorg
https://www.sflorg.com/2023/03/chm03232302.html -
Applying #hydrostatic pressure as an external stimulus, Tokyo Tech and Keio University researchers demonstrate a new way to regulate #singlet #fission (SF), a process in which two #electrons are generated from a single #photon, in #chromophores, opening doors to the design of SF-based materials with enhanced (photo)energy conversion.
#Chemistry #Physics #Technology #sflorg
https://www.sflorg.com/2023/03/chm03232302.html -
Applying #hydrostatic pressure as an external stimulus, Tokyo Tech and Keio University researchers demonstrate a new way to regulate #singlet #fission (SF), a process in which two #electrons are generated from a single #photon, in #chromophores, opening doors to the design of SF-based materials with enhanced (photo)energy conversion.
#Chemistry #Physics #Technology #sflorg
https://www.sflorg.com/2023/03/chm03232302.html -
Applying #hydrostatic pressure as an external stimulus, Tokyo Tech and Keio University researchers demonstrate a new way to regulate #singlet #fission (SF), a process in which two #electrons are generated from a single #photon, in #chromophores, opening doors to the design of SF-based materials with enhanced (photo)energy conversion.
#Chemistry #Physics #Technology #sflorg
https://www.sflorg.com/2023/03/chm03232302.html