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Amoebas move by changing the shape of their body, forming pseudopods (temporary foot-like structures). The word pseudopod means "false foot."
yes they actually can. they have structures which allow them to move across. The cilia (tiny hair like structures), flagella (whip like structures), or pseudopod whoch acts like a foot.
Find the square root. For example, 25 sq. ft can be visualized as a 5 foot square, since 5 is the square root of 25. Often, you can factor the square foot dimension to help you visualize the area. For example, 32 square feet : 8 x 4 = 32 A sheet of plywood 8 feet long and 4 feet wide covers an area of 32 square feet.
a pseudopod is a "fake foot" or the movement of the cytoplasm, but it is not an actual structure. Cillia are actual external structures, and they look like hairs. They have motor proteins which cause them to move
amoeba gets around by moving in the cell. Which is only found in plant cells.
foot
Amoebas move by changing the shape of their body, forming pseudopods (temporary foot-like structures). The word pseudopod means "false foot."
In science, "pedal" typically refers to the foot or feet. It is commonly used in anatomy to describe structures or processes related to the foot in organisms.
spores
yes they actually can. they have structures which allow them to move across. The cilia (tiny hair like structures), flagella (whip like structures), or pseudopod whoch acts like a foot.
I am pretty sure a foot is a frame structure because frame structures have a skeleton of very strong material (being bones) which supports the weight of the skin.Part of the foot structure is in the form of an arch.
Pseudopod (literally: "false foot") Study the terminology!
The bones composing the arches are held in position by ligaments and tendons.
tight as you can make it,around 150 foot lbs.very tight.
i would drill a hole in one end of a watermelon. the watermelon will break and the egg should stay intact.
One common example of an abnormal movement is an excessive amount of stress placed upon the inside of the foot. This leads to friction and irritation of the involved structures.
No toes. Mucus like qualities, and they both have adaptations that allow them to move and latch onto things, for example the octopus has suction like structures on its tentacles, and I believe the snails have very small lump like structures that allow them to move and stick to surfaces that are not flat.