A large land mass that protrudes out from a continent is called a Subcontinent. One example of subcontinent is India.
Most primative form of mass communication: Shouting; before speech in primates, loud sounds that the group associated with danger.
In Limasawa Island
4
there hair was a mass of writhing snakes
Chaos
Often "Chaos" or "Mud".
An amorphous mass is a shapeless and undefined collection of substances or materials without a specific structure or form. It lacks a defined shape, making it irregular and disorganized in appearance.
No, "blob" is not considered an onomatopoeia. Onomatopoeia is a word that imitates the sound it represents, such as "buzz" or "meow." "Blob" is a descriptive term for a shapeless or amorphous mass.
A blob is a shapeless mass of material, especially of a liquid or semisolid substance, or a species of fish also known as the miller's thumb, Latin name Uranidea richardsoni.
Food normally becomes a shapeless mass as it is digested, although if you have swallowed something that you cannot digest, it will retain its shape.
A blob is a shapeless mass of material, especially of a liquid or semisolid substance, or a species of fish also known as the miller's thumb, Latin name Uranidea richardsoni.
hyperechoic is a mass that has a dark appearance.
Dark Matter.
It is not believed to be, but there is still very little known about dark matter, so maybe,
Depending on what source you use for reference, it seems somewhere between 68% and 75% of the universe is dark energy accelerating the expansion, and somewhere between 25% to 32% is matter (dark or visible) exerting gravitational force which would notionally be resisting that expansion. Note that dark energy itself has mass (per mass-energy equivalence) so one needs to be cautious if the subject in question is the overall mass of the universe or what fraction of the overall mass tends to oppose that expansion - which dark energy does not.
Neutrinos are attractive candidates for dark matter because they are known to interact weakly with other particles, making them difficult to detect. They are also abundant in the universe and have non-zero mass, which could contribute to the overall mass content of the universe. However, current evidence suggests that the combined mass of neutrinos is not enough to account for all of dark matter.