Since it is such a good High-temperature lubricant. It rely's on its one Property to protect it from over heating.
Dmitri mendeleev arranged elements in order of increasing atomic masses. He considered chemical properties of the elements, their oxides and nitrides.
No, nitrides are bases
Your answer is invalid, because the plants return the nitrogen back in to the air. I think what you're trying to ask is what forms of nitrogen is taken by the plants. The answer is nitrides, and nitrates. Nitrides are formed by decomposers in the soil and further nitrogen fixation causes nitrides into nitrates. You can notice this through their equation: nitrides (n3) nitrates (no3).
Examples are nitrates and nitrides.
Fe3+ N3- . Note this is compound does not exist. iron nitrides are insoluble solids with metallic properties.
Generally -3 in its compounds (as in nitrides)
Louis E. Toth has written: 'Transition metal carbides and nitrides' -- subject(s): Refractory transition metal compounds, Transition metal carbides, Transition metal nitrides
it reacts with metals to liberate nitrides and hydrolyses with water to form ammonia
Extensive properties rely on the amount of substance involved. Mass is and extensive property. For example, if I had 5 grams of Iron then someone gave me more iron, the mass would no longer be 5 grams. Intensive properties rely solely on the type of material involved. Iron is affected by magnets. If I had 5 grams of Iron then someone gave me more iron, it would still be affected by magnets.
Examples are: nitrates, nitrites, nitrides, amides, amines, ammonia, carbamates, etc.
An extensive property is one that relies on the amount of the substance. An intensive property is one that does not have to rely on the amount of substance present. Some examples of extensive properties are mass and volume, because both rely on the amount of substance present in order to be calculated.
Mn3 N2 i think its actually Mn(NO3)2 This is a nitrate ! ------- The general formula of manganese nitrides is MnxN where x is between 2 and 4. Ex.: Mn2N