n14 + n15
Nitrogen has three stable isotopes. Namely they are nitrogen-14, nitrogen-15 and nitrogen-16.
The most stable isotopes of nitrogen are 14N and 15N.
The most common stable isotopes of nitrogen are nitrogen-14 and nitrogen-15. Nitrogen-14 is the most abundant, making up about 99.6% of naturally occurring nitrogen, while nitrogen-15 makes up the remaining 0.4%.
2
Nitrogen has two stable isotopes: N-14 and N-15 and 14 radioactive isotopes.
The natural isotopes of nitrogen are stable; for the synthetic radioactive isotopes of nirogen see the link below.
Radioactive isotopes are not stable.
Nitrogen isotope of nitrogen are used as tracers in agricultural studies (efficiency of fertilizers), leaks detection in nuclear reactors, etc.
Stable isotopes are used as tracers.
Nitrogen has 3 isotopes. All of them have 7 protons. (That's why they're nitrogen.) Let's look at the isotopes. 13N - Nitrogen with 6 neutrons 14N - Nitrogen with 7 neutrons 15N - Nitrogen with 8 neutrons The first isotope is a synthetic one. It must be made through a nuclear process. The other two are naturally occurring isotopes. A link is provided to Wikipedia, which was the source for this information. Surf on over to mine other details.
B. Isotopes of Nitrogen. Isotopes are atoms of the same element with different numbers of neutrons. In this case, the resulting atoms will be isotopes of nitrogen because they have gained neutrons.
A stable isotope is an isotope that does not undergo radioactive decay, meaning its nucleus is stable and does not change over time. These isotopes have a constant number of protons and neutrons, making them suitable for use in scientific studies like tracing biological processes or determining the age of rocks. Examples include carbon-12, oxygen-16, and nitrogen-14.