The shoe box.
Cubic yards.
The volume of the swimming pool in cubic feet would be 800 cubic feet: length x width x height = volume 10 feet x 10 feet x 8 feet = 800 cubic feet (10 x 10 = 100; 100 x 8 = 800)
The cubic volume occupied by a shipment in Cubic Meters is referred to as the shipments cbm. Note, it is cubic volume occupied, not the volume that would be displaced if placed in a water bath. An odd shaped package would occupy a much larger volume than its pure cubic volume.
1000 cubic centimeters is a measure of volume; the only "exact equivalant in volume" possible would be in another measure of volume, such as cubic inches, cubic feet, cubic meters, etc.
Yes. The units of volume would be cubic feet or cubic meters.
The cubic volume occupied by a shipment in Cubic Meters is referred to as the shipments cbm. Note, it is cubic volume occupied, not the volume that would be displaced if placed in a water bath. An odd shaped package would occupy a much larger volume than its pure cubic volume.
cubic metres
The volume would be 9 cubic centimeters. If you meant to ask the density, that would be 4 grams per cubic centimeter.
You would measure the swimming pools length, width and depth to determine how many cubic feet of water is in the swimming pool. Length x Width x depth = cubic feet. Then measure the mass of 1 cubic foot of water by building a box 1'x1'x1'. Once you know the mass of 1 cubic foot of water - you'll know the mass of the water in the swimming pool.
You would use the cubic meter (m^3) to express the volume of a textbook in SI units.
FINA sets the standards for the size of Olympic pools. The volume of an Olympic-size swimming pool is 660,430 gallons or 88,287 cubic feet.
The base unit of volume is the cubic metre.