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False - cells can differ in structure in order to perform a specific function. For example, neurons (nerve cells) are electrically excitable. These have an axon (long section that conducts impulses, and ends which branch out - called dendrite. This is an example of a cell structure unique to a certain function.
Centriole
you need an structure and each part of it has a function like an animal formated or structured by cells and each cell has to adapt to its own function
Different cells are different in structure because of their different functions (e.g. plant cells have cell walls because they don't have bones). Also, cells have different functions because they work together with other cells to create a working system (e.g. the human body)
Tissues
It's chromosome complement.
It is the basic building block of life
It is the basic building block of life
actually, there is no difference between the structure and function. The structure usually corresponds with the function. for example, red blood cells are circular shaped so they can easily move through the weins and arteries.
The structure and function relate because what the structure is made of infuences what the organ's function is. An example is that the heart is made of strong muscle cells. Therefore, it is fit to do the job of pumping blood around the body.
Function describes what cells do; in a multi-cellular organism the function is why the cell exists. And the structure makes it possible for a cell to perform its function.
False - cells can differ in structure in order to perform a specific function. For example, neurons (nerve cells) are electrically excitable. These have an axon (long section that conducts impulses, and ends which branch out - called dendrite. This is an example of a cell structure unique to a certain function.
It is the basic building block of life
In most multicellular organisms, cells are organized by their function. Brain cells, for example, have a specific structure because of their purpose.
Its structure determines the function it has. For example, red blood cells are biconcave discs, kind of thinner in the middle and thicker around the outside. As it turns out this is the ideal surface area to volume ratio for exchanging things between the inside of the cell and outside. When you consider that the function of red blood cells to carry oxygen to the cells of the body the structure of the RBC is ideally suited to its function.
Structure and Function
Function