The ratio of dextrose to volume in D5W is 5 grams of dextrose in every 100 milliliters of IV fluid. This means the weight of dextrose is 5% of the volume of IV fluid in a D5W solution.
Without knowing the weight to volume ratio of the item in question, there is no way to convert the weight to a volume.
A lower surface area to volume ratio reduces the amount of surface area exposed to the liquid, which can decrease drag and increase stability in water. This allows objects to displace more water relative to their weight, enhancing buoyancy. Essentially, objects with a lower ratio tend to float better because they can support a greater weight with less surface area, leading to improved buoyancy in a fluid.
the ratio of surface area to volume (weight) of the body
Gel is the hydrated cement while space is volume occupied by hydrated cement+capillary pores. Hence gel/space ratio is the fraction of volume occupied by hydrated cement in the total space occupied by hydrated cement and capillary pores
This is called the weight density. Weight density of water, for instance, is 62.4 lb/ft^3
Depends what the "fluid " is - Not all fluids are same weight/volume ratio
It is the ratio between the volume of the fluid and the the volume of the pores
The density of any substance can be easily calculated knowing that it is defined as the ratio of the mass of a substance divided by the volume it occupies.
Mixed by volume and by ratio.
There is no weight ratio for height. The weight of an object depends on its the volume and density. The volume depends on the height as well as the average cross section so height, alone, cannot determine weight.
Specific gravity.
This ratio is called the specific gravity.
Without knowing the weight to volume ratio of the item in question, there is no way to convert the weight to a volume.
It is approx 65.83 cubic centimetres per Newton.
Everything is measured differently according to it's weight/volume ratio
the ratio of surface area to volume (weight) of the body
The definition doesn't require that level of complexity. Any physical sample of any solid, fluid, or gasmust have both mass and volume, and so the ratio must exist. Can you think of an exception ?As long as the sample is pure, the ratio should be independent of the size of the sample.