Because glass is a smooth surface. Worms move by using microscopic hairs on their bodies to provide traction so they can pull themselves forward.
the brain is essential for the movement of the earthworm. If the brain of the earthworm is removed, the earthworm will move continuously without stop
earthworms move by it body shape when earthworms extension of body rear part Rolex the backer part of body then they move forward
Setae are bristles or hair-like structures that help attach the earthworm to the ground and create friction so if an earthworm is going down a hill, it would slide down but actually continue to move through hydrostatic pressure.
Last time I check they moved faster on smooth ground
They don't actually like the dark, but they like being in the soil. There, birds can not find them there, and the dirt is damp. If they are above ground, the sun dries out their slime, which they need to move. That is why worms come out when it is raining and it is wet.
the brain is essential for the movement of the earthworm. If the brain of the earthworm is removed, the earthworm will move continuously without stop
It use their side's mussel to move.
enough to move.
earthworm moves by the hair like projections called setae .
Yes they can they use there muscles in there back
the slither or glide as it as no bone.
the slither or glide as it as no bone.
This is because the earthworm takes in oxygen through its skin and releases CO2 through it's skin as well using diffusion
No, but they have cartilage. That's what makes the Earthworm move!
little brissils that holed on to the dirt where it can move there it
Glass is an insulator, which means it does not conduct electricity well. This suggests that electrons are held tightly within the structure of glass, making it difficult for them to move and carry electrical current.
Electrons find it most difficult to flow through insulating materials like rubber, glass, and plastic. These materials have very high resistance to the flow of electric current, which makes it harder for electrons to move through them.