well an average sized mouth could fit probaly about 25 - 30ml in it (but that's just for a normal drink mouthful).i think - i estimated.
you can measure the mass by putting it on a balance and measure really quickly. the volume you can estimate an approximate answer by putting it in water and measuring its displacement.
inspiratory reserve volume= expiratory reserve volume + Tidal Volume - Vital capacity
volume after anchor was in water minus volume of water without anchor in it = the volume of the anchor
Concentration increases
Measure out a specific volume of water, such as 100mL. Determine the mass of that volume of water. Density = mass/volume, so divide the mass by the volume, and you will have the density.
The sphere's approximate volume is 523.6 cubic feet.
you can measure the mass by putting it on a balance and measure really quickly. the volume you can estimate an approximate answer by putting it in water and measuring its displacement.
19,750 US gallons = 74.76 cubic meters.
1900 US gallons = 7.19 cubic meters.
The approximate volume of a sphere with a diameter of 8 inches is 268 cubic inches.
use Archimedis' law- take a known volume of water in a vessel filled upto the brim and immerse the object that you want to measure the volume inside the vessel without giving any pressure and measure the volume of the water overflowed. that will give you the volume of the object(an approximate value)
inspiratory reserve volume= expiratory reserve volume + Tidal Volume - Vital capacity
2 miles cubed
1/4 cup, 56 grams or a medium mouthfull.
All you need to do to answer this question is divide 11,150ml by 5, which gives you the average volume for each bucket. Just remember that this is an approximate, and doesn't necessarily mean that the buckets each have this amount of water in them (the total can be spread out differently).
You calculate the volume of three-dimensional figures, not of numbers like pi.
This is actually how people approximate real volume of obscured 3D objects.