Study guides

☆☆

Q: What is the relationship between the surface area to volume ratio of a cell and its size?

Write your answer...

Submit

Still have questions?

Related questions

As the surface to volume ratio increases the rate of in exchange increases too.

The ratio of the surface area of a cube to its volume is inversely proportional to the length of its side.

The higher the ratio, the faster the rate of diffusion

The surface-area-to-volume-ratio

The surface-to-volume ratio is a mathematical relationship between the volume of an object and the amount of surface area it has. This ratio often plays an important role in biological structures. An increase in the radius will increase the surface area by a power of two, but increase the volume by a power of three.

The relationship between the percent volume (not reached by the stain) and the surface area-to-volume ratio would be that the bigger the agar cube size (surface area to volume ratio), the bigger the percent volume. This is true because resources need to travel a farther distance through the cell ("cover more ground", so to speak) in order to be evenly distributed through the cell.

A cell is roughly spherical in shape and the relationship between surface area and volume is therefore expressed by:-The volume of a sphere of radius R is (4/3)*Pi*R3.The surface area of a sphere of radius R is 4*Pi*R2The surface area to volume ratio is therefore 3/RAs the radius R gets bigger the ratio gets smaller.

if cells surface area is 6 and its volume is 1cm then what is its ratio of surface are volume to volume

The surface area to volume ratio of a cell affects the rate of diffusion in that the higher the ratio, the faster the rate of diffusion. This is a directly proportional relationship.

which of the cells has the greatest surface to volume ratio

The relationship between the radius and surface area depends on the shape and that is why some cells are spherical while others are flattened. The greater the SAV ratio of an object, the greater the scope for surface reactions of the object with its surroundings.

Volume varies as the 1.5th power of the surface area of regular solids. With other well behave solids, this relationship applies as long as all three dimensions change in the same ratio - that is, the shapes are similar.

People also asked