Because the soda has dissolved carbon dioxide at greater than atmospheric pressure, some bubbles (fizz) will inevitably escape when a bottle is opened, and if the bottle was full of liquid, it would likely spill.
A liquid expands to fill the container completely because the particles in the liquid are in constant motion and have enough kinetic energy to overcome the forces of attraction between them. This allows the liquid to flow and spread out evenly to occupy all available space within the container.
Solids: they have fixed shape and fixed volume. They cannot be compressed much. They cannot flow. They do not fill their container completely. They have high density. They are heavy. Liquids: they have fixed volume but not fixed shape they take the shape of their container. They cannot be compressed much. They can flow. They do not fill their container completely. They have moderate to high density. Gases: they do not have fixed shape and volume. They can be compressed easily. They can flow. They fill their container completely. They have very low density.
Yes, a gas will always fill the container that it is in.
The sample is likely a liquid. Liquids have the ability to take the shape of their container while maintaining a constant volume, which allows them to fill both the cylindrical and spherical containers completely. If the sample were a gas, it would expand to fill the entire volume of the container, regardless of the shape. Thus, the fact that the sample fills both containers suggests it is a liquid.
If a fixed volume of gas is placed in a container, it will expand or contract to match the volume of the container. This is because gases have the ability to fill the entire volume of their container, assuming no other forces are applied. As the container size changes, the gas molecules will adjust by moving closer together or farther apart to occupy the new volume.
they do not have a set volume, thus they completely fill any container that they are in.
they do not have a set volume, thus they completely fill any container that they are in.
maintain their own shape and do not take the shape of their container.
Yes, liquids can fill containers as long as the container can hold the volume of the liquid. The shape and size of the container will determine how the liquid fills it. Liquids will take the shape of the container they are poured into.
No, small amounts of liquids do not fill a large container. The volume of the liquid stays the same, regardless of the size of the container it is placed in.
A liquid, as liquids take the shape of their container but do not necessarily completely fill it.
I'm assuming you mean state. Solids have a definite shape, unlike liquids, which take the shape of their container, and gases, which completely fill their container.
A 10 ML of liquid can't fill a 20 ML container because although liquids do not have a definite shape they have a definite volume.
A liquid expands to fill the container completely because the particles in the liquid are in constant motion and have enough kinetic energy to overcome the forces of attraction between them. This allows the liquid to flow and spread out evenly to occupy all available space within the container.
Solids: they have fixed shape and fixed volume. They cannot be compressed much. They cannot flow. They do not fill their container completely. They have high density. They are heavy. Liquids: they have fixed volume but not fixed shape they take the shape of their container. They cannot be compressed much. They can flow. They do not fill their container completely. They have moderate to high density. Gases: they do not have fixed shape and volume. They can be compressed easily. They can flow. They fill their container completely. They have very low density.
It will completely fill the container.
Gravity. The gravitational pull of the Earth will exert a force on anything with a mass and pull it towards the centre of the Earth. As we're essentially standing on the surface of a sphere, the centre of the Earth is pretty much straight down and gravity will pull liquids to the bottom of any container.