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If you could create an apparatus that would allow oxygen to be introduced from the bottom of a container filled with water, and allowed the oxygen to displace the water, pushing the water out of a valve of some sort at the bottom, you would prevent any air from mixing with the oxygen (picture an upside down flask). It would take some engineering, but the theory is sound.
In a chemical plant it would be a blend tank or reactor. In a laboratory it would be a reaction flask or beaker
Boiling liquids - to contain liquids, powders or granules - it is used in volumetry as a flask for the solution to be analyzed - it is used to collect the liquid from a filtration - to realize chemical experiments - etc.
You add water to the container then you stir, the water and salt would form a solution and sand would settle on the bottom of the container. You get another container and place on a filter paper then you pour the water into it, which would lead to the sand staying in the filter paper and the solution, which is made of salt and water, would be left. Finally, you place the container on a source of heat which will cause the water to evaporate and salt staying in the container. Now weigh the residue and find the percentage.
A flat bottom flask would be an Ehrlemeyer flask, which is used quite a lot by chemists.anf
If you could create an apparatus that would allow oxygen to be introduced from the bottom of a container filled with water, and allowed the oxygen to displace the water, pushing the water out of a valve of some sort at the bottom, you would prevent any air from mixing with the oxygen (picture an upside down flask). It would take some engineering, but the theory is sound.
In a chemical plant it would be a blend tank or reactor. In a laboratory it would be a reaction flask or beaker
All the salt water fish would die and there would be no sea salt
Boiling liquids - to contain liquids, powders or granules - it is used in volumetry as a flask for the solution to be analyzed - it is used to collect the liquid from a filtration - to realize chemical experiments - etc.
You add water to the container then you stir, the water and salt would form a solution and sand would settle on the bottom of the container. You get another container and place on a filter paper then you pour the water into it, which would lead to the sand staying in the filter paper and the solution, which is made of salt and water, would be left. Finally, you place the container on a source of heat which will cause the water to evaporate and salt staying in the container. Now weigh the residue and find the percentage.
I the flask was sealed, the air inside of the flask would take up less space and as a result, cause a drop in pressure inside the flask.
The volume of air would remain the same but the pressure of the air increased.
A flat bottom flask would be an Ehrlemeyer flask, which is used quite a lot by chemists.anf
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.
We wouldn't have any clouds or precipitation!
This container could hold up to 3,949.71 US gallons of water.
A vacuum would retain the heat best, hence a thermos flask has a vacuum around it =-)