Flagella is the tail like structure. the other type is
Cilia - the hair like structures surrounding the cell
Euglena are flagellated unicellular organisms, so they move by beating their flagella.... somewhat like a tadpole.
Cilia (hairlike structures) and Flagella(whip-like tails) help organisms move.
Amoeba: A type of protist that moves by extending its pseudopods. Paramecium: A ciliated protist that feeds on bacteria and other small organisms. Euglena: A protist that can photosynthesize like a plant and move with a flagellum.
Unicellular organisms move in a variety of ways. Paramecia have cilia, which are tiny hairs that act like oars and propel the organism along. Bacteria move by rotating a flagellum that looks a bit like oars and propel the organism These organisms "swim" along. An amoeba moves by changing shape and forcing its cytoplasm into extensions called pseudopods. - s delacruz
Unicellular organisms move in a variety of ways. Paramecia have cilia, which are tiny hairs that act like oars and propel the organism along. Bacteria move by rotating a flagellum that looks a bit like oars and propel the organism These organisms "swim" along. An amoeba moves by changing shape and forcing its cytoplasm into extensions called pseudopods. - s delacruz
something moves back and forth
Kinetic energy moves back and forth. This is the energy associated with the motion of an object. For example, a swinging pendulum or a vibrating guitar string demonstrate kinetic energy moving back and forth.
A pendulum swings back and forth rapidly due to gravity and inertia.
Amoeba is an example of a unicellular organism that belongs to the group of protists. It is a type of protozoa that moves and feeds by using pseudopods, which are temporary projections of its cytoplasm.
Likely an amoeba, which is a type of unicellular organism that moves using pseudopodia, or temporary extensions of its cell membrane. Amoebas are known for their ability to change shape and move by extending and retracting their pseudopodia.
An organism that is multicellular and moves through sand to find food is likely a type of marine invertebrate, such as a sand dollar or a polychaete worm. These organisms are adapted to life in sandy environments, using their bodies to burrow and navigate through the substrate in search of organic matter or small prey. Their multicellular structure allows for more complex functions and interactions with their environment compared to unicellular organisms.
It is called vibrations.