It is approx 65.83 cubic centimetres per Newton.
The answer will depend on shape in question.
Other things (the volume and shape) being equal, a greater weight would cause a greater terminal velocity.
This cannot be sensibly answered. Milliliters (mL or ml) and liters (L) are measures of volume. Grams (g), kilograms (kg) and milligrams (mg) are measures of weight or mass.
The ratio of output force to input force.
If the ratio is 1 to 2024, than the answer is simply 1/2024. However, if the ratio is 20 to 24 than the answer is 5/6.
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.
It is the ratio of an object's weight to its volume. Alternatively it can be said, it is the weight of the object per unit of volume.
Specific gravity.
Weight (divided by) Volume
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 the ratio of volume of unit weight of intact material to the volume of broken material
Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material. Specific gravity usually means relative density with respect to water.
This is called the weight density. Weight density of water, for instance, is 62.4 lb/ft^3
the ratio of surface area to volume (weight) of the body
Everything is measured differently according to it's weight/volume ratio