There are 100 centimetres in a metre.
So, if the water can be considered as solid cubes each one centimetre along each side then a line of 100 would cover the width of the container.
A square 100 wide by 100 deep would cover the base of the container.
A further 99 layers would fill the container.
So now we have 100 x 100 x 100, or 1,000,000 cubes of water each 1 cm3 in volume
As 1 cm3 is 1 millilitre, which is 1/1000 of a litre, then 1,000 litres would fill the container.
A cubical container that is one meter (100 centimeters) on each side would have a volume of 100 cm x 100 cm x 100 cm = 1,000,000 cubic centimeters or 1,000 liters. It would require 1,000 liters of water to fill this container.
One cubic centimeter of pure water has a mass of one gram.
1 cubic centimeter and 1 milliliter are equal volumes, and may be used interchangably.
Gram.
It would take about 1,000 grains of ordinary table salt to equal one cubic centimeter or one milliliter.
It is 0.015625 millilitres.
To find the length of each edge of the cubical box, take the cube root of the volume. In this case, the cube root of 3.375 cubic meters is approximately 1.5 meters. Each edge of the box would be 1.5 meters in length.
Salt crystals are not always cubical in shape; their shape depends on how the salt was formed. Cubic shapes can form when salt crystals grow in enclosed spaces with limited room to expand in all directions. The internal arrangement of the sodium and chlorine ions in salt crystals naturally leads to a cubic shape as they pack together.
The coefficient of thermal expansion depends on the temperature and pressure. It a pressure of 1 atmosphere the coefficient of thermal expansion are:at 4 deg C : –0.1321 at 20 deg C : 0.1212 at 50 deg C : 0.4280 at 100 deg C: 0.7454.
It would take about 1,000 grains of ordinary table salt to equal one cubic centimeter or one milliliter.
If you mean a cubical container, yes - that would be exactly one liter.
the sides of the cubical box would be 7 meters
Cubical expansion refers to the increase in volume of a substance as it is heated. This expansion can be calculated using the coefficient of cubical expansion, which quantifies how the volume of a material changes with temperature.
Cubical.
creativity
"Thinking Inside the Box: Exploring a Cubical Earth"
Salt (sodium chloride) has a cubical crystal lattice. So, at any scale, it appears cubical.
Spherical ;)
96 g
No its standard form
I think it is a cubical which you shower in.