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The bacteria would enter and contaminate the highly nutritious solution
In a chemical plant it would be a blend tank or reactor. In a laboratory it would be a reaction flask or beaker
Yes. The cloroplasts would have a green color.
A flat bottom flask would be an Ehrlemeyer flask, which is used quite a lot by chemists.anf
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.
Volumetric Flask
You swirl the liquids in volumetric flasks to mix them.
The bacteria would enter and contaminate the highly nutritious solution
The bacteria would enter and contaminate the highly nutritious solution
In a chemical plant it would be a blend tank or reactor. In a laboratory it would be a reaction flask or beaker
Yes. The cloroplasts would have a green color.
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 indicator would show a rising pH.
A flat bottom flask would be an Ehrlemeyer flask, which is used quite a lot by chemists.anf
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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.
By definition, a 10 molar solution contains 10 moles of the solute per liter of solution. Therefore, since 100 ml is 1/10 of a liter, 100 ml of such a solution would contain one mole of the solute. Physically, this would normally be accomplished by adding 10 grams, stated to be one mole of the solute, to a 100 ml volumetric flask, then adding pure water until the mark on the neck of the flask is reached.