Cilia and flagella are both hair-like structures found on cells, but they have some key differences. Cilia are shorter and more numerous, while flagella are longer and fewer in number. In terms of function, cilia are primarily involved in moving substances along the cell surface, while flagella are used for cell movement.
Flagella and cilia are both hair-like structures found on cells, but they differ in size and function. Flagella are longer and fewer in number, while cilia are shorter and more numerous. Flagella typically help with cell movement, such as propelling sperm, while cilia are involved in moving substances along the cell surface, like in the respiratory tract to clear mucus.
Flagella and cilia are both hair-like structures found in cells, but they have distinct differences in terms of structure and function. Flagella are longer and fewer in number, while cilia are shorter and more numerous. Flagella typically move in a whip-like motion to propel the cell, while cilia have a back-and-forth motion to move substances along the cell surface. Both structures are made up of microtubules, but the arrangement and length of these microtubules differ between flagella and cilia.
Cilia and flagella are both hair-like structures found in cells, but they have some key differences. Cilia are shorter and more numerous, while flagella are longer and usually found singly or in pairs. In terms of function, cilia are involved in moving substances along the cell surface, while flagella are typically used for cell movement.
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
In science, structure refers to the arrangement or organization of parts within a system, while function refers to the role or purpose that those parts play. Structure is about the physical characteristics that make up a system, while function is about how those characteristics work together to achieve a specific outcome.
the difference is ,a structure is where it is placed and the function is what it daos
the difference is ,a structure is where it is placed and the function is what it daos
the difference is ,a structure is where it is placed and the function is what it daos
Yes,there are differences.Eukariyotic flagellum has 9+2 structure and membrane covered.Bacterial flagella do not have those.
The rod shape(bacilus) and the sphiral(sphirily) have flagella. They both have same structure of flagela but there is a difference between gram positive and gram negative,s flagellum structure.
Flagella and cilia are both hair-like structures found on cells, but they differ in size and function. Flagella are longer and fewer in number, while cilia are shorter and more numerous. Flagella typically help with cell movement, such as propelling sperm, while cilia are involved in moving substances along the cell surface, like in the respiratory tract to clear mucus.
What is the difference between structuralism and functionalism in Psychology Schools?
Flagella and cilia are both hair-like structures found in cells, but they have distinct differences in terms of structure and function. Flagella are longer and fewer in number, while cilia are shorter and more numerous. Flagella typically move in a whip-like motion to propel the cell, while cilia have a back-and-forth motion to move substances along the cell surface. Both structures are made up of microtubules, but the arrangement and length of these microtubules differ between flagella and cilia.
What is the difference between structuralism and functionalism in Psychology Schools?
structure- body plan (how the parts are arranged) function- the job the part does
* the flagella is a project as strand while the axial filaments are spirochetes. * flagella : move cell by propeller like action , axial filaments : snake-like movement. flagella : present in gram (+)and gram (-) , while the filaments only in gram (-) . both of them have the same function
There is structural difference between xylem and phloem. This is because their function is also different. Had there been no difference in structure, how these could have performed different function?