lt forms NH3
yes
A metal more active than hydrogen in the electromotive series will react with an acid to form hydrogen gas.
The helium and liquid hydrogen won't mix. The liquid nitrogen is not cold enough to cause the helium to liquify, and the helium is an inert gas and will not react with the nitrogen.
Ozone can react with atomic hydrogen at the temperature of liquid nitrogen forming the strange oxide H2O4.
what you can do is to have it react with hydrogen peroxide at low temperature. When these react you get nitric acid: 2NO2 + H2O2 -> 2HNO3
yes
nitrogen gas and hydrogen gas
They react to form ammonia
The nitrogen and hydrogen that don't react are recycled and put through the process again.
The formation of ammonia from nitrogen may be spontaneous, but enthalpy alone can't be used to make that decision
No. Alkaloids are compounds that incorporate nitrogen into a carbon ring. Ammonia simply contains nitrogen and hydrogen. It does however react with water to form an alkali.
Nitrogen and hydrogen react to form ammonia. This is the reaction in the Haber process, in which the gases are mixed at high pressure and moderately high temperature and passed over an iron catalyst.
To form ammonia, reaction is N(2) + 3H(2) ---> 2NH(3) + H(2)O. As you can see for 1 mole of nitrogen three moles of hydrogen is required. Hence for your question, 1.13 moles nitrogen is required.
No. Hydrogen and oxygen react with each other to form water.
A metal more active than hydrogen in the electromotive series will react with an acid to form hydrogen gas.
The helium and liquid hydrogen won't mix. The liquid nitrogen is not cold enough to cause the helium to liquify, and the helium is an inert gas and will not react with the nitrogen.
We would need to know the situation to be able to answer this question.