When parts of a gas cloud collapse, where does the material first form clumps?(1 point)
Responses
in less dense regions with more space between atoms
in denser regions with little space between atoms
in less dense regions with little space between atoms
in denser regions with more space between atoms
in denser regions with little space between atoms
When parts of a gas cloud collapse, the material first forms clumps in denser regions with little space between atoms.
When parts of a gas cloud collapses, the material first forms clumps in denser regions with little space between atoms. To understand why this is the case, we need to look at the physics behind the collapse of gas clouds.
Gas clouds in space are comprised of atoms and molecules that are constantly moving and interacting with each other. The motion of these particles creates a balance between two opposing forces: gravity, which pulls the gas cloud inward, and pressure, which pushes the gas cloud outward.
In less dense regions with more space between atoms, the gravitational force is weaker compared to the pressure force. As a result, the gas particles are able to resist collapsing and remain relatively spread out.
On the other hand, in denser regions with little space between atoms, the gravitational force is stronger than the pressure force. This means that the gas particles in these regions are more likely to be pulled inward by gravity, leading to a collapse and the formation of clumps.
It's important to note that as the collapse continues, the clumps of material may further condense and increase in density. This can eventually lead to the formation of stars or other celestial bodies.