CO2(g)
Well, since a gas spreads to encompass its container, it should have the same volume as its container.
At STP, 1 mole of a gas will occupy 22.4 liters; or 0.5 mole will occupy 11.2 liters.
At STP, 1 mole of a gas will occupy 22.4 liters; or 0.5 mole will occupy 11.2 liters.
The volume of 1 ml. of water equals 1 cm3.
Use a container with a liquid (water). Mark the level of the liquid on the container. Insert the small solid sample. Mark the level of the liquid now on the container. compute the difference between the two marks. You can use traditional computation for calculating volume.
Placing a rock in a container does not alter the volume of the container, although it does occupy some of that volume.
The gas expand to occupy the volume of the container.
Gases do not have a fixed shape or volume; they expand to completely fill the container they occupy.
280 ml
Well, since a gas spreads to encompass its container, it should have the same volume as its container.
305 k
Liquids adopt the shape of the part of the container that they occupy. Gases adopt the entire shape and volume of their container.
At STP, 1 mole of a gas will occupy 22.4 liters; or 0.5 mole will occupy 11.2 liters.
At STP, 1 mole of a gas will occupy 22.4 liters; or 0.5 mole will occupy 11.2 liters.
This is a good working description of the gaseous phase of matter. A sample of gas will assume the shape and volume of its container, so the sample has no shape or volume of its own.
The volume of a sample of liquid is fixed, but may expand or contract with heat. The shape of a liquid is defined by its container. In the absence of gravity, liquids outside a container will assume a generally spherical shape.
The volume of 1 ml. of water equals 1 cm3.