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A small cell will have a larger surface-to-volume ratio.
They grow
The respiration system adopts to the surface area to volume ratio to help the exchange of gases.
depends on the shape... if its a sphere or a prism or what. You'll get different answers because they have different surface area to volume ratios. Sphere will give you the biggest volume for a given surface area.
Plant cells overcome the issue of smaller surface-to-volume ratios with the help of the central vacuole. The vacuole pushes the organelles and other cellular materials toward the outer edges of the cell
By providing a large area in the lungs.
they have a greater surface-to-volume ratio
As the surface to volume ratio increases the rate of in exchange increases too.
A small cell will have a larger surface-to-volume ratio.
They grow
Small organisms, like a amoeba's, have large surface area : volume ratios which means the exchange can take place by diffusion through the cell wall, the same as any other single celled organsism.
The respiration system adopts to the surface area to volume ratio to help the exchange of gases.
depends on the shape... if its a sphere or a prism or what. You'll get different answers because they have different surface area to volume ratios. Sphere will give you the biggest volume for a given surface area.
The smaller the surface area, the less body heat the animal will lose. So small surface area to volume ratios are great in cold environments.
When size of cell increases ,its surface to volume ratio decreases , control of cell activities become difficult , contact area with surrounding decreases .
They have greater surface area-to-volume ratios.
Plant cells overcome the issue of smaller surface-to-volume ratios with the help of the central vacuole. The vacuole pushes the organelles and other cellular materials toward the outer edges of the cell