The volume of a cubic box with sides of length 'S' is S3. If 'S' is measured in centimeters, then the volume of the box ... and the volume of water displaced when the box is submerged ... is 'S3' cubic centimeters. The density of water is 1 gram per cubic centimeter. So the mass required to just exactly balance the buoyancy of the box in water is 'S3' grams. Don't forget to include the mass of the empty box.
The amount of water that can fit in the given cube.
This will occur if the fulcrum is closer to the load than the effort.
1 oz of water
I cup
I gram
uhm the making of the water cube in china cost roughly 200million yuan,
does not exceed 30N/mm2
depends on the applied load
The answer will depend on the size of the cube!The answer will depend on the size of the cube!The answer will depend on the size of the cube!The answer will depend on the size of the cube!
10
2 cups
1 cubic cm of water 338.14023 fluid ounces