22.4L
To calculate dry density from the weight of wet sediment, you need to first determine the volume of the wet sediment. You can do this by dividing the weight of the wet sediment by the bulk density of the sediment. Once you have the volume of the wet sediment, you can then calculate the dry density by dividing the weight of the wet sediment by the volume of the wet sediment.
Dry volume refers to the volume of a substance without water, while wet volume includes water content. The presence of water in a substance can occupy space and increase the overall volume. This difference is important in construction and engineering for accurately measuring and calculating materials.
It is called wet hydrogen gas because it is collected over water.
Wet hydrogen is collected over a water surface.
You stated the amount of carbon you had, but how much water (separated into its constituents by electrolysis, otherwise if you dump water on carbon you wind up with nothing more than wet carbon) is available? Let's assume you've got an excess of it and go from there.In a real-life situation you won't get any hydrogen gas. In order of reactivity are hydrogen, oxygen and carbon. One of three things will happen here.The most likely reaction is that the hydrogen and oxygen will recombine into water and, once again, you've got wet carbon...that is, unless the heat from the very exothermic 2H2 + O2 -> 2H2O reaction sets the carbon on fire, in which case it'll scavenge atmospheric O2 and you'll receive some CO2, some CO and a little free carbon, aka "soot."Under different circumstances, you might get some CH4 and some O2. And because you have 1.07 moles C, you'll wind up with 1.07 moles methane - giving you 23.968 liters of methane at STP.If you have a really nice lab that can emulate photosynthesis, you could convert the three elements into glucose. That's not too likely; you will probably wind up with the same block of carbon and glass of water that you started out with.The chemical reaction should be written as shown below : C + H2O -----> CO + H2 The balanced chemical reaction equation indicates that 1.0 mole of H2 gas is produced for each mole of carbon that reacts. Therefore you have : n H2 = (1.07 mole C ) ( 1.0 mole H2 / 1.0 mole C ) = 1.07 moles H2 At STP, there are 22.7 L per mole of ideal gas. Therefore the H2 liters at STP is given by : V H2 at STP = ( 22.7 L at STP / mole ideal gas ) ( 1.07 moles H2 ) V H2 at STP = 24.3 L of H2 at STP
To calculate dry density from the weight of wet sediment, you need to first determine the volume of the wet sediment. You can do this by dividing the weight of the wet sediment by the bulk density of the sediment. Once you have the volume of the wet sediment, you can then calculate the dry density by dividing the weight of the wet sediment by the volume of the wet sediment.
It is the mass of wet soil divided by its volume.
A wet gas is a gas that has a small amount of liquid present. This can range from a humid gas, saturated with liquid vapor, or a multiphase flow with 90% volume of gas. There is not a defined quantitative definition of a wet gas flow.
In order to calculate the volume of a rectangular wet wall, one would first measure the wall's length, width, and depth. Then, one would plug the measurements into this formula: length x width x height.
Dry volume refers to the volume of a substance without water, while wet volume includes water content. The presence of water in a substance can occupy space and increase the overall volume. This difference is important in construction and engineering for accurately measuring and calculating materials.
The density of the dry material would have to be known to calculate this. In theory there could be no difference in volume. Most foods get smaller as they loose water though. Which means the volume of the dry food will likely be much less than the wet/fresh food. A rough estimate is 1/3 to 1/4 a volume of the dry equals 1 volume of the wet/fresh.
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It is called wet hydrogen gas because it is collected over water.
Wet hydrogen is collected over a water surface.
dry , wet that's all sometimes still can be the answer
A conventional baby scale can be used to calculate urine output. Weight the diaper before putting it on your baby, and then again when it is wet.
I was told in the military if the canisters get wet then it will turn cement like