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It could be a spring or artesian well, from which water flows. Or a well in which water seeps rather than flows.
You would use the water displacement method. Place an overflow can in a container that can catch the water that flows out of the can. Fill the can completely full of water. Place the figure in the can, and collect the water that flows out of the can. Measure the water that overflowed with a graduated cylinder, and that will give you the volume of the figure in mL. Since 1mL exactly equals 1cm3, you can also know the volume of the figure in cm3.
b the volume of water that flows over time
Water, which is in rivers and bays, looks for the lowest point it can get to. That is why when you spill water it runs off the table. That and gravity. The water in rivers flows to bays for the same reason water falls from the table. Gravity is pushing it down and the water is looking for the lowest point.
Water flows down hill toward the lowest point, the sea. Water flows away from the highest point following slope to the lowest point. Example... Water on the east side of a hill will likely stay on the east side
You can use what's know as the displacemenent method. Take a beaker the has a known volume and fill to the half -way point and make a note of the volume. Put the rocks into the water and now measure the volume. The volume of the rocks is the difference between your first measurement and the second.
No
how much water does the ganges river carries
Goodness is like water to a Taoist; water always flows to the lowest point automatically; someone who is naturally good flows to the right decision automatically, without needing to think about it.
Voltage can be compared with the level to which the tap is opened. (Volume of water) Current can be compared with the speed at which water flows from tap. (Flow of water).
At 1 atmosphere of pressure, the boiling point of water is 100 degrees Celsius (Centigrade). The volume of water does not matter.