Alga or algae
Most fungi move by passive means; their spores are carried by wind, water, or animals. Some, the chytrid fungi, have flagella and are capable of swimming in aquatic environments.
Eukaryotic flagella are quite different in structure and function to prokaryotic flagella.Bacterial flagella (as opposed to archaeal flagella - go to http://en.wikipedia.org/wiki/Flagellum#Archaeal to investigate differences between bacterial and archaeal flagella) are composed of the protein flagellin, which is coiled around into a stiff filament. Movement of a bacterial cell is generated by rotation of the filament, a bit how like a propellor works. Reversing direction of rotation can change direction of movement.In eukaryotic flagella, the structure is more complex. The base of the eukaryotic flagella houses the foundation of the structure. Nine microtubule groups, each consisting of three microtubules, form the base of the flagella. Further away from the cell, the flagella is made up of two microtubule's connected by a bridge. Radial spokes branch out to nine pairs of microtubules that form a circle around a flagella transverse section (if you chop it in half and look at the exposed inside).A eukaryotic flagella moves its cell by sliding adjacent pairs of microtubules, which causes the flagella to bend. This bending creates movement. To see a good example, watch this video: http://www.britannica.com/EBchecked/topic-video/209243/16501/Movement-of-eukaryotic-flagella-in-real-time-and-slow-motion
Flagella is located as the 'tail' part of most cells, and this enables movement throughout the cell and body. For example, a sperm cell has flagella to make the cell move quickly for fertilization.
amoeba moves by means of pseudopods which are temporary projections of eukaryotic cells which may have flagella made up of microtubules.eukaryotic cells have nucleus and is bounded within a membrane;it may also have mitochondria and golgibody in addition. I HAVE TRIED TO HELP BY GIVING A SHORTCUT ANSWER , BUT IT SHOULD NOT BE TAKEN AS A COMPLETE ANSWER.
The vasculature inside the green leaf moves a number of particles of food, water, minerals and gases.
Moving quickly with flagella or cilia takes a lot of energy, and mitochondria provide this energy.
Euglena are flagellated unicellular organisms, so they move by beating their flagella.... somewhat like a tadpole.
The peridinium moves with a flagella.
It is parasitic protozoan and moves by flagella .
This is a member of the kingdom Protista that moves using flagella.
Cilia and Flagella
Beating of those cost energy. So this energy is produced by mitochondria
Kickin incredibly dope shut since 92 thumps up
how does it move well it moves flagella, cilium, and pseudopod
how does it move well it moves flagella, cilium, and pseudopod
That doesn't make sense. There is no organ that "moves" bacteria. What do you mean by that? I think you want flagella. An organelle of bacteria.
Hair like tail, that moves the cell from one place to another