When parts of a gas cloud collapse, where does the material first form clumps?(1 point) Responses in denser regions with more space between atoms in denser regions with more space between atoms in denser regions with little space between atoms in denser regions with little space between atoms in less dense regions with little space between atoms in less dense regions with little space between atoms in less dense regions with more 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 collapse, the material first forms clumps in denser regions with more space between atoms.
When parts of a gas cloud collapse, the material first forms clumps in denser regions with more space between atoms. To understand why this is the case, we need to consider the process of gravitational collapse.
In a gas cloud, gravity plays a fundamental role by attracting particles towards each other. As the cloud begins to collapse under its own gravitational force, the gas particles start to come closer together. However, not all parts of the cloud collapse uniformly. Due to variations in density and temperature, some regions of the cloud may have higher concentrations of gas particles than others.
Now, as the gas particles collapse, the regions that are denser will experience a stronger gravitational pull. This increased gravitational attraction causes the particles in these regions to come even closer together. As a result, clumps of material start to form in these denser regions.
Additionally, in denser regions, there is generally more space between the atoms. This is because the higher density allows the gas particles to pack closely together and form clumps. In contrast, less dense regions have fewer particles and, therefore, larger spaces between them.
Therefore, when parts of a gas cloud collapse, the material first forms clumps in denser regions with more space between atoms.