Our galaxy's most abundant type of planet could be rich in liquid water due to formative interactions between magma oceans ...
The Daily Galaxy on MSN
Scientists Just Discovered How Planets Make Water from Magma, No Comets Needed
In the early chaos of planetary formation, before crusts cooled or atmospheres settled, water might already have been ...
PRIMETIMER on MSN
Comets like 3I/ATLAS could jump-start the birth of giant planets around distant stars
Interstellar comets like 3I/ATLAS could serve as seeds for giant planet formation, potentially explaining how massive planets ...
Tests on olivine hint that water-rich exoplanets could generate H2O internally, possibly explaining ocean worlds and even some of Earth’s early water.
JWST found a carbon-atmosphere planet orbiting a pulsar, challenging current models of how planets form. Scientific progress ...
Washington, DC— Our galaxy’s most abundant type of planet could be rich in liquid water due to formative interactions between ...
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