A gas cloud. It must contain dust to form planets.
(And lots of hydrogen to form a star.)
simple it depends if it is sunny it evaporates if it is cold but not at freezing it will condense Liam sams
in mitosis - in the prophase
Water as a vapour (gas?) has to condense back to water, which can then become a solid if frozen.
Water as a vapour (gas?) has to condense back to water, which can then become a solid if frozen.
Yes.
The most obvious answer is that the vapor will condense rapidly, even possibly before your eyes. By condense, I mean that the vapor will quickly turn into a liquid state. It will then freeze into a solid state (ice).
it become as in the form of bubbles
simple it depends if it is sunny it evaporates if it is cold but not at freezing it will condense Liam sams
in mitosis - in the prophase
In the Fronteir
No.Gases condense ("become thicker") to form liquids.Liquids evaporate to become gases.
In the renal pelvis
Jupiter has a rock and metal core the same size as Earth's core. However, due to the intense pressures of Jupiter's, it's core is about 10 times heavier than Earth's core. It's position in the early Solar System, which was further from the Sun than the small inner planets like Earth, Mars and Venus allowed it to accrete more matter because it was beyond the frost line. The frost line was a point at which hydrogen compounds could condense. These condensed materials were then available to become part of the outer planets. It also explains why these planets are more gaseous and less dense than the inner planets, where only rocks and heavier metals could condense in the intense heat of the sun. That is why there are rocky planets nearer the Sun and gas giants further out.
Water as a vapour (gas?) has to condense back to water, which can then become a solid if frozen.
Water as a vapour (gas?) has to condense back to water, which can then become a solid if frozen.
Yes, there is a limit to how concentrated a solution can become.
Become really concentrated