The amount of water in a container will affect how fast it heats up. If there is a small amount of water in a container the water will biol/heat faster. However, if there is a big amount of water it will take longer for the heat to reach all parts of the water resulting in a longer time for the water to boil/heat
If a container could be a perfect heat insulator, water would never freeze in that container. In practice, good heat conductors such as most metals will induce the fastest freezing, since the heat energy of the water can be transferred more efficiently from them to the cooling surroundings that will eventually lead to freezing.
yes it does. because if the container was bigger it would have more water taking longer for it to throughly freeze. hope that answers your question.
Yes
Yes
No it doesn't
Yes it does.
YesYes
Yes and no. The shape can affect how efficiently the water is being heated and how efficiently the evaporated water can escape a vessel. An almost completely sealed water container will show very little signs of evaporation because any water that evaporates will soon condense back into the container. The evaporation is still happening, it's just not as observable or relevant because the evaporation cannot leave the system efficiently.
A liquid takes the shape of any solid that it is contained within. For example water within a square container will appear square, but water within a triangular container will appear triangular.
When water freezes it increases in volume by %6. That pressure can destroy its' container.
Salt decreases the freezing point of water and increases the boiling point of water.
yes
YesYes
Yes and no. The shape can affect how efficiently the water is being heated and how efficiently the evaporated water can escape a vessel. An almost completely sealed water container will show very little signs of evaporation because any water that evaporates will soon condense back into the container. The evaporation is still happening, it's just not as observable or relevant because the evaporation cannot leave the system efficiently.
I need some help with some homework for my child.
Well, there is no shape to water. If you have a container the water takes on the shape of the container, but that is not the waters shape, it is the container that the water is in. So even though the water has formed into a shape, it is that containers shape and not the water's shape.
water
A liquid takes the shape of any solid that it is contained within. For example water within a square container will appear square, but water within a triangular container will appear triangular.
Something that takes the shape of the container it is in. E.g. Water takes the shape of the container which it is in.
People have known long before the invention of science that water takes the shape of its container.
Since water is a liquid, it does not have any definite shape. It takes on the shape of its container.
at room temperature, water is considered a liquid because it has a definite volume (it does not expand to fill its container like a gas) but not a definite shape (it takes the shape of its container, as opposed to a solid which keeps its shape regardless of the container it is in).
When water freezes it increases in volume by %6. That pressure can destroy its' container.