Ammonia - NH3 - when mixed with water is represented as NH4+; so, therefore, yes.
Nitrogen has a valence of 3 which attracts it to get electrons from other molecules..this attraction it has to complete it's outermost layer is called electronegativity.
Its ElectroNegativity is in between H and C (both lower) and the higher E.N. of O and F
3.0
A "hydrogen bond" - a intermolecular force caused by large difference in electronegativity. [Hydrogen has a very low electronegativity whilst Fluorine, Oxygen and Nitrogen all have a very high electronegativity so an electrostatic attraction exists]
an atom with a high electronegativity, like fluorine
A hydrogen atom of an ammonia molecule has a slight positive charge, due to the high electronegativity of the nitrogen atom.
Polar
No
A "hydrogen bond" - a intermolecular force caused by large difference in electronegativity. [Hydrogen has a very low electronegativity whilst Fluorine, Oxygen and Nitrogen all have a very high electronegativity so an electrostatic attraction exists]
It electronegativity is 1.5
A small atomic radius corresponds more closely to a low electronegativity.
Sulfur has a high electronegativity.
nitrogen has the highest electronegativity
Nitrogen has the highest electronegativity.
an atom with a high electronegativity, like fluorine
A low electronegativity for metals and a high electronegativity for nonmetals.
For metals high electronegativity mean low reactivity; for halogens, C, O, N, S, etc. the meaning is high reactivity.
In compounds with elemnts with low electronegativity compounds N3-, P3- etc are found.
Electronegativity - capacity to loss electrons - is representative for the reactivity of chemical elements; for metals low electronegativity is a high reactivity.
Hydrogen has a low electronegativity while fluorine has an extremely high electronegativity.