size ratio is basiclly magnification.... just on a higher level. trust me im a scientist i know alot about this stuff :)
the relationship between grain size and strength can be determined by the Hall- Patch relationship of Strength of materials.
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.
Porportion
The more particle is given the less water would go through it leaving the particle wet
The ratio of a body to it's mass is less the larger the animal is. A warm blooded animal that is big can generate more heat than a smaller animal. The heat loss from their bodies is proportional to the surface of their bodies, and the heat created by their bodies is proportional to their mass. A cold blooded animal that is small can stay cool.
As you increase the magnification, the field of view decreases.
As you increase the magnification, the field of view decreases.
The change in size of an image compared with the size of an object is termed magnification. This can be calculated as the ratio of the size of the image to the size of the object. Magnification can be expressed as magnification = image size / object size.
The relationship between magnification and focal length in optical systems is that as the focal length of a lens increases, the magnification of the image produced by the lens decreases. Conversely, as the focal length decreases, the magnification increases. This relationship is important in determining the size and clarity of images produced by optical systems.
the answer on how to do a ratio problem is the relationship in quantity,amount,or size between two or more things.
Magnification in optical systems is calculated by dividing the size of the image produced by the lens by the size of the object being viewed. This ratio gives the magnification factor of the optical system.
The larger the surface area to volume ratio of a cell, the smaller its size (and vice versa).
As the magnification of the objective increases, the FOV decreases
It is a ratio of actual size and seeing it in a different size. Say my view of you is 1, but from a distance I can only see you as if you were half as small, that would make it 50% magnification.
The ratio of the surface area of a cube to its volume is inversely proportional to the length of its side.
Linear magnification in a lens is the ratio of the size of the image produced by the lens to the size of the object being viewed. It is a measure of how much larger or smaller the image appears compared to the actual object. Mathematically, linear magnification is calculated as the ratio of the image height (hi) to the object height (ho): M = hi/ho.
It is the ratio between the size of the sample and the size of the population.