There is a easy way. Just bubble it in water.
It would not be possible, Ammonia (NH3) is constantly associating and disassociating with Hydrogen (H) to make positively charged NH4. Meaning a pure Ammonia solution will always have extra H molecules there with it.
The boiling point of ammonia is -33.34C. The cheapest, almost-no-equipment way to do it I can think of is to put the mixture into a container, set the container in dry ice until all the ammonia condensed out of the mixture, then either capture or release into the atmosphere the hydrogen. The freezing point of ammonia and the sublimation point of dry ice are within a degree Celsius of each other, so if you leave it in there long enough the ammonia will freeze solid.
The decomposition of 10g of ammonia releases 6300 cal of energy. To form 10g of ammonia from hydrogen and nitrogen gases would require the same amount of energy, 6300 cal, but in the reverse process.
A mixture of hydrogen and oxygen would consist of separate H2 and O2 molecules. The hydrogen and oxygen would retain their own properties. The most common compound of hydrogen and oxygen is water. In it the two elements are combined into molecules of H2O, which has its own set of properties distinct from those of hydrogen or oxygen.
In electrolysis, oxygen and hydrogen gas are produced at different electrodes (oxygen at the anode and hydrogen at the cathode). Since these electrodes do not have to be in close proximity, the hydrogen and oxygen will bubble upwards into separate collection vessels. If you needed to separate hydrogen and oxygen once mixed, the easiest way I can think of would be to cool the mixture to ~60K. At this point the oxygen would condense and leave hydrogen gas.
To produce 525 grams of ammonia (NH3), you would need 25 moles of ammonia. Since the balanced chemical equation for the reaction between hydrogen and nitrogen to form ammonia is 3H2 + N2 -> 2NH3, you would need 75 moles of hydrogen molecules (H2) to produce 525 grams of ammonia. This is equivalent to 4,500 molecules of hydrogen.
The number of hydrogen atoms is 14,290540253661.10e23.
A homogeneous mixture would be the hardest to separate because the components are evenly distributed at a molecular level, making it difficult to physically separate them.
One appropriate process to separate a mixture is chromatography. In chromatography, the mixture is dissolved in a solvent and then passed through a stationary phase where components separate based on their affinity for the stationary phase. This allows for the individual components of the mixture to be identified and collected.
No. That would be a mixture. If you were to burn that mixture you would get water as a product. Water is a compound.
A mixture of hydrogen and oxygen would consist of separate H2 and O2 molecules. The hydrogen and oxygen would retain their own properties. The most common compound of hydrogen and oxygen is water. In it the two elements are combined into molecules of H2O, which has its own set of properties distinct from those of hydrogen or oxygen.
boling it