No. Hydrogen is in group 1 (along with alkali metals) and nitrogen is in group 15.
The following four elements make up 90 percent of the mass of living things: Oxygen - 65% Carbon - 18.5% Hydrogen - 9.5% Nitrogen - 3.2%
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.
The question makes no sense. There's no such thing as a "nitrogen bond". If you mean "nitrogen atoms", then there are no hydrogen bonds between nitrogen atoms. If you mean "hydrogen bonds between a hydrogen and a nitrogen", then they break like any other hydrogen bond; they aren't really "bonds", just relatively strong electrostatic forces.
There are only two elements. They are hydrogen and nitrogen.
There will be three hydrogen atoms per nitrogen atom, forming the compound ammonia with formula NH3.
Hydrogen and nitrogen are both elements. That means that neither of them are made up of other elements. A hydrogen molecule is just two atoms of hydrogen. Nitrogen is just atoms of nitrogen.
Carbon, Hydrogen, Nitrogen, Oxygen
the usual state of both hydrogen and nitrogen are gas.
NH3 (ammonia)
Nitrogen and Hydrogen.
Polar covalent bond between nitrogen and hydrogen atoms Polar covalent bond between nitrogen and hydrogen atoms.
The following four elements make up 90 percent of the mass of living things: Oxygen - 65% Carbon - 18.5% Hydrogen - 9.5% Nitrogen - 3.2%
Nitrogen, has a atomic weight roughly 14 times heavier then that of hydrogen.
hydrogen-1g nitrogen-14g oxygen-16g
Oxygen is the most abundant element in the human body, followed by Carbon, Hydrogen and Nitrogen. Calcium is abundant, as well.
Ammonia's chemical name is NH3, so the eleents found in it are 1 atom of Nitrogen & 3 atoms of Hydrogen. Hope that hepls! :P And ammonia is used for cleaning...
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.