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water
OH- as the reaction below: NH3 + H20 = NH4+ OH-
Examples are: Na+, Cl-, H+, OH-, [H3O]+.
Examples are: Na+, Cl-, H+, OH-, [H3O]+.
For the conduction of electricity, the conducting species must be charged either +ve or -Ve. In case of liquid ammonia all molecule are in NH3 form i.e. neutral so it is non electrolyte but it's aqueous solution is get dissociate as NH3 + H2O = (NH4)+ + (OH)- this ammonium and hydroxyl ions are available for conduction of current!
It is highly water soluble (hydrophillic) related to it's polarity. It is a polar molecule, meaning it has a partial negative and a partial positive side, and therefore the negative portion of ammonia (Nitrogen) would attract the positive portion of of water (hydrogen), and the positive portion of ammonia (hydrogen) would attract the negative portion of water (oxygen).
I guess SO3
Sodium/Chloride (NaCl).
The conversion of ammonia into nitrates is performed primarily by soil-living bacteria plus other nitrifying bacteria. The primary stage of nitrification, the oxidation of ammonia is performed by bacteria such as... Nitrosomonas species, which converts ammonia to nitrites.
H+ and SO4 (2-) above the 4
Ammonia can be built up in them separately or the two together. Some species of fish produce more waste and therefore more ammonia than others, for example the goldfish. Turtles are also very wast producing and turtle tanks are often high in ammonia. All fish produce ammonia. So yes.
P. Pittaway has written: 'The determination of alkyllead species and inorganic lead in aqueous environmental samples by'