I think atomic nitrogen is pretty reactive. However, if you have multiple nitrogen atoms, they generally form nitrogen molecules, which consist of two atoms of nitrogen. This molecule is not very reactive, because it has a valence shell filled with electrons. (Forms a sp3 hybridization, filling that up completely with 8 electrons and filling the remaining 1s, 1s and 2s orbitals with the remaining 6).
There are a number of possible outcomes: some of the resulting compounds are stable, others are very reactive. Common oxides of nitrogen are pollutants that are created in combustion of fuels. See link for details about oxides of nitrogen.
Quite the opposite: halides are far LESS reactive than halogens.A halide is a binary compound consisting of one halogen atom plus one atom, or radical, of "something else" that's electropositive to the halogen. (Which isn't hard to be.)Fluorine is a halogen, and it's very reactive. If you mix some sodium with it, it becomes a non-reactive halide; they put tons of this stuff in toothpaste and so far no one's reported having it cause their teeth to explode.Chlorine is also a reactive halogen, but mix it with sodium and it becomes table salt.
While our bodies do need some nitrogen, we do not obtain this from the atmosphere. Environmental nitrogen exists in a form that can't be metabolized into the correct molecules (eg. urea/amino acids). That must be obtained from nitrogen-containing compounds that we eat.Nitrogen in the air (N2) is not reactive. It is a stable molecule that has a triple bond, therefore it won't react with anything in your body when you breathe it in.
Potassium is highly reactive, even explosive in some circumstances.
Ammonia is a combination of nitrogen and hydrogen with one nitrogen atom and 3 hydrogen atoms. It can be used as a fertilizer, cleaner, refrigerant, an antimicrobial product for food products, and a couple of other uses.
False, if we look at the general trend of reactivity of the non-metallic elements on the periodic table we see that reactivity is indirectly proportionate to an elements size. A Oxygen is a smaller atom than Nitrogen therefore more reactive.
It can be by some, but in general it is non-reactive inside animal bodies.
There are a number of possible outcomes: some of the resulting compounds are stable, others are very reactive. Common oxides of nitrogen are pollutants that are created in combustion of fuels. See link for details about oxides of nitrogen.
It is very difficult to describe the bonding in nitrous oxide using a simple valency model. It consists of two nitrogen atoms and one oxygen atom. You can say that each nitrogen atom has a double bond with the other nitrogen atom, and one of the nitrogen atoms has a double bond with the oxygen atom, but that requires putting charges on some of the atoms. You need to invoke the ideas of delocalization or resonance if you wish to describe it accurately.
Nitrogen is usually quite unreactive at both standard pressure and standard temperature. Nitrogen is relatively unreactive because nitrogen molecules are joined together by triple bonds, and these bonds are some of the strongest bonds that can exist between molecules.
Quite the opposite: halides are far LESS reactive than halogens.A halide is a binary compound consisting of one halogen atom plus one atom, or radical, of "something else" that's electropositive to the halogen. (Which isn't hard to be.)Fluorine is a halogen, and it's very reactive. If you mix some sodium with it, it becomes a non-reactive halide; they put tons of this stuff in toothpaste and so far no one's reported having it cause their teeth to explode.Chlorine is also a reactive halogen, but mix it with sodium and it becomes table salt.
Organic compounds are made with carbon and some other atom. Often, this is hydrogen, oxygen, or nitrogen, but occasionally it can be some other element.
yes, as it can participate in reactions; but it is quite inert (often used as protective gas in reactions)but it is not as intert as a noble gas, which are some of the least reactive elements.
The mass number of a nitrogen atom is determined by the mass of the nucleus. As it is the relative mass, it is equal to the combined number of protons and neutrons in the nucleus of the atom. For example, the most common isotope of nitrogen contains seven protons and seven neutrons, giving it a mass number of 14. Some atoms of nitrogen have an extra neutron, which gives a mass number of 15.
A neutral atom is an atom that does not have a positive or negative charge. These ions are highly reactive and usually dont stay in their ionic form very long. Some common neutral atoms are the noble gasses which dont readily lose or gain electrons.
oxygen atoms are neutral because it has the same number of electrons and protons, which is what makes an atom neutral. oxygen does react with some substances. pure oxygen reacts with fire Oxygen atoms are not neutral they are very reactive. Oxygen molecules are less reactive than lone atoms but as still highly reactive.
Example of reactive aggression