The shape of water changed to fit the shape of the container it was poured into due to its property of taking the shape of its container.
shape or volume in different containers or when subjected to different pressures or temperatures.
One activity to demonstrate that liquids do not have a definite shape and size is to pour water from a container into different shaped containers (such as a cup, bowl, or bottle). The water will take on the shape of the new container, showing that liquids take the shape of their container. Additionally, the volume of the liquid will change based on the size of the container, further demonstrating that liquids do not have a definite size.
The volume of water must be the same in different containers to ensure a fair and accurate comparison of quantities. If the volumes were different, it would skew the results when evaluating or measuring the water based on volume. Keeping the volume consistent allows for reliable and consistent measurements to be taken.
A gas does not change shape when placed in different containers because its particles are free to move and spread out to fill the available space, regardless of the container's shape or size. This property is known as compressibility, where gases can be compressed or expanded to fit the volume of their container.
it depends upon the shape of water
Solid
Liquids and gases share the property of changing shape in different containers. Liquids take the shape of their containers due to their ability to flow and conform to the shape of the container. Gases also fill the space of their container, taking its shape as they expand to fill the available volume.
The shape of water changed to fit the shape of the container it was poured into due to its property of taking the shape of its container.
Solids. (Anything that isn't a liquid or a gas)
sold
liquids and gasses eg water filling a glass, air filling a ballon.
shape or volume in different containers or when subjected to different pressures or temperatures.
Some semi-solids might, but a solid, by definition keeps it's original shape.
Yes, water pressure at the same depth is determined by the height of the water column, not the shape of the container. As long as the depth is the same in both containers, the water pressure will be equal.
Well it depends what container.
Juice takes the shape of the container it's in due to its liquid state. It doesn't have a specific shape of its own when poured into different containers.