2VdV + 2PdP + 3T2dT (this is an expression, not an equation because there is no equals sign)
volume is to a cube volume is to a cube
It is 4.5*(Volume of Cube).
The volume of Cube B is 216 cm3
The volume of a cube is determined by cubing the length of one edge, so the cube root of the volume will give you the length of an edge. (In a cube, all of the edges are the same length)
What you need to know to work this out is that:- Moles of gases at standard temperature pressure (With P and T constant) are proportional to the volume they occupy, divided by their specific gas constant.
The standard for concrete cube testing is to put the cube under increased pressure. The pressure is increased until the cube breaks and determines the cubes compression strength.
centimetre cube(CC)
The specific volume of gold is around 0.001 m³/kg at room temperature and pressure. This means that 1 kilogram of gold occupies 0.001 cubic meters of space.
This depends on the size and temperature of the ice cube and the ordinary water's temperature and volume.
If pressure is applied to a cube until its volume is halved, the density will increase by a factor of 2, since density is equal to mass divided by volume. As the volume decreases by half, the mass of the cube remains the same, leading to a doubling of density.
At normal temperature and pressure, it is 767921 kg, approx.The "equivalence" between the volume and mass was scrapped in the 1960s. Besides, the density of water varies by more than 4% over the range of temperatures where it is liquid at normal pressure.
The volume of carbon dioxide can vary depending on its temperature, pressure, and state (solid, liquid, gas). At standard temperature and pressure (0°C and 1 atm), the volume of 1 mole of carbon dioxide gas is approximately 22.4 liters.
2VdV + 2PdP + 3T2dT (this is an expression, not an equation because there is no equals sign)
volume is to a cube volume is to a cube
Mercury is a liquid at room temperature, so it cannot hold a fixed shape like a solid material. It would simply flow and take the shape of its container, making it impossible to create a stable cube out of Mercury.
That would depend on the temperature of the cube and the water along with the volume of water and the mass of the ice cube and its area.