this is why cell aren't goddamn enormors
it's the problem of surface area -to- volume ratio that mean there is no fitting between increasing of surface area and increasing of volume
Surface area to volume ratio is defined as the amount of surface area per unit volume of either a single object or a collection of objects. The calculation of this measurement is important in figuring out the rate at which a chemical reaction will proceed.
A bigger animal has a small surface area in relation to their large volume. Smaller animals have a bis surface area to volume ratio which mean heat is easier to be lost.
it means the ratio of the mass of a substance to its volume.
The chamber volume refers to the compression ratio of the external combustion of the engine.
the extent to which an event is likely to occur, measured by the ratio of the favorable cases to the whole number of cases possible
The ratio mass/volume is called density.
They both increase with increasing cell radius (if we model a cell as a sphere). However, the rate of increase of the surface area is in general slower (dA/dr = 8πr) compared to the rate of increase of the volume (dV/dr = 4πr2). This would mean that with increasing cell size, the surface area to volume ratio is becoming smaller and smaller, giving a cell less surface area for the transport of nutrients for a given unit volume.
They both increase with increasing cell radius (if we model a cell as a sphere). However, the rate of increase of the surface area is in general slower (dA/dr = 8πr) compared to the rate of increase of the volume (dV/dr = 4πr2). This would mean that with increasing cell size, the surface area to volume ratio is becoming smaller and smaller, giving a cell less surface area for the transport of nutrients for a given unit volume.
Yikes! Can you give some measurements? What do you mean by the volume - the volume of the wood used?
It means that before the compression, the volume is 71 times larger than after the compression.
That is the amount of fluid displaced by the object beneath the surface of the fluid.