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You would measure the length width and heighth. Then you would multiply them all together. <><><> A better means would be to have a container that the rock will fit in, and fill it full of water. Place the rock in the container, which will overflow. Then remove the rock, and measure the volume of water you have to pour into the container to make it full again. The volume of the water will equal the volume that was displaced by the rock.
This is not well-worded. The smaller the cubes the more you'd need to fill a container, and the more completely they'd fill it. One large cube would not fill a round container but there might not be room for more than one.
A sample of size 100.
The number of cubes that would fill a container is called the volume of the container. Volume is a measurement of the amount of space an object occupies in three-dimensional space. It is typically measured in cubic units, such as cubic centimeters or cubic meters, depending on the size of the container.
Since water has a density of 1 gram per cubic centimetre, then the container would need to be 800 cubic centimetres. if this container were a perfect cube, then the length of the side of the container would be equal to the cube-root of 800, which is approximately 9.28 cm to a side, or 3.65 inches to a side. good answer! i had that question for hw and couldn't figure it out so thanks.
The container would need to be 800 milliliters or 800 cubic centimeters, because there is one gram of mass in one cubic centimeter of water. Remember that one milliliter equals one cubic centimeter. (If you are not positive that this answer is correct, it was found from an 8th grade science worksheet.)
Immerse the object in water and measure the volume of water that is displaced. One way would be to fill a container, large enough to hold the object, with water until it is just about to overflow. The container and water would need to be inside another container that could capture the displaced water. Submerge the object in the water and then measure the volume (or weight) of the water that overflows
A very small amount - a pinch in a large container - would be enough. why would you want to do that though?
Saturn's average density is lower than that of water, which means it would float in water if a large enough container were available for it to be placed in.
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Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.
Yes, water would still be able to move freely within the container regardless of the air pressure, as long as the container can withstand it. The movement of water would not be restricted by the air pressure in this scenario.
To heat water with a Bunsen burner, you would need a Bunsen burner, a heat-resistant container to hold the water such as a beaker or flask, a tripod or wire gauze to support the container over the flame, and a source of water to be heated. Optional equipment could include a thermometer to monitor the temperature of the water.
There is a type of truck called a cement mixer, which carries a large, rotating container in which cement or concrete can be mixed. That's what I would use, if I needed to mix 3000 pounds of concrete. Alternatively, to mix by hand, I would put it in a large container and stir it with a canoe paddle. But that would be very strenuous. Also, it is a lot easier to pour, if it has been mixed in a cement mixer. If you mix it in some other container, pouring it is going to be a major challenge.
Saturn has a density less than water, so it would float if there was a large enough container of water to hold it. Saturn is made mostly of hydrogen and helium, which are less dense than water.