The planet Saturn is the least dense of all the planets.
I think this is actually about the " four spheres" on Earth.
The four "spheres" of the Earth's surface can be described as:
atmosphere, biosphere, hydrosphere, and lithosphere.
The least dense is the atmosphere.
The Troposphere.
Saturn is the least dense planet, only 0.7 g/cc on average (less than water's density). If you could put Saturn in bathwater, it would float.
Saturn is that planet. It's less dense than water so would float in theory, but it's not a very practicable idea.
because if it was square there would be a lot of cliffs and people will fall
The imaginary sphere is called the celestial sphere. It is used in astronomy to track the apparent movements of celestial objects as if they were projected onto the inside of a sphere surrounding the Earth.
The planet Saturn is the least dense of all the planets.I think this is actually about the " four spheres" on Earth.The four "spheres" of the Earth's surface can be described as:atmosphere, biosphere, hydrosphere, and lithosphere.The least dense is the atmosphere.
The Earth's crust is the least dense layer. It is made up of rocks like granite and basalt and is relatively thin compared to the other layers of the Earth.
The crust is the least dense portion of the solid Earth because it is the thinnest layer.
The least dense layer of the earth is the Crust , the mantle is second densest , whereas the core is the most dense layer of the earth
When heated, gases typically expand and become less dense. So, a gas would be least dense when heated.
The Troposphere.
The least dense liquid would be found at the top.
it depends on what the damage is if the earth sphere was completly broken we would have burn from the heat radiaion if the sphere was weak we would life our last few days in the sun hot unough to melt lead
== == == == == ==
a sphere or 3D circle
inner core
Ideally, if the earth were a perfect sphere, the gravitational potential energy would be zero. In the center of a sphere all other points within the sphere have an equal and opposite counterpoint. They work to cancel each other out. However, the earth is not a perfect sphere so there would likely be a gravitational pull towards the area with the greatest mass.