Neutral isotopes of nitrogen have no charge. They differ in the number of neutrons in the nucleus.
There is no charge. Nitrogen-15 is an isotope, which refers to the number of neutrons. Neutrons do not have a charge.
The protons have a positive charge and the electrons have a negative charge, so it would be 7 + -5, so the charge is +2.
Nitrogen (the isotope 14N) has 7 neutrons.
You would need to know how many protons and neutrons are in the nucleus of a particular isotope of nitrogen. The number of protons, which is its atomic number, will always be the same, no matter which isotope is given, but the number of neutrons differs with different isotopes. For example, one isotope of nitrogen has 7 neutrons. To determine its mass number, find nitrogen on the periodic table, and you will see that its atomic number is 7. So this isotope of nitrogen has 7 protons. Now, add the 7 neutrons to the 7 protons, and you get a mass number of 14 for this isotope of nitrogen, which is called nitrogen-14. (Isotopes are named by their mass numbers.) Another isotope of nitrogen has 8 neutrons. Add the 8 neutrons to the 7 protons (atomic number), and you get a mass number of 15 for this isotope of nitrogen, called nitrogen-15.
Nickel has 28 electrons and protons; the number of neutrons is specific for each isotope. Number of neutrons in a nickel isotope = Mass number -28
There is no charge. Nitrogen-15 is an isotope, which refers to the number of neutrons. Neutrons do not have a charge.
Isotopes do not carry electrical charges, ions do.The ion formed by nitrogen is called the nitride ion (N3-) and carries a negative charge.
An atom of nitrogen-15 (15N), an isotope of regular nitrogen. It occurs naturally and is stable, but is comparatively rare, showing up in about 37 out of every 10,000 nitrogen atoms.
This question is impossible to answer properly without knowing either how many protons there are or how many neutrons there are or how many electrons there are along with the charge. However it is most likely nitrogen, because Nitrogen's most common isotope is 14.
The protons have a positive charge and the electrons have a negative charge, so it would be 7 + -5, so the charge is +2.
Nitrogen-15 would have 8 neutrons, while nitrogen-9 (if it existed) would only have 2.
nitrogen
beta decay - a neutron converts to a proton & electron via the weak force.
Nitrogen (the isotope 14N) has 7 neutrons.
Neutral atom. An atom of nitrogen will also be an isotope of nitrogen.
an isotope of nitrogen will be formed with two neutrons less compared to the starting isotope
You would need to know how many protons and neutrons are in the nucleus of a particular isotope of nitrogen. The number of protons, which is its atomic number, will always be the same, no matter which isotope is given, but the number of neutrons differs with different isotopes. For example, one isotope of nitrogen has 7 neutrons. To determine its mass number, find nitrogen on the periodic table, and you will see that its atomic number is 7. So this isotope of nitrogen has 7 protons. Now, add the 7 neutrons to the 7 protons, and you get a mass number of 14 for this isotope of nitrogen, which is called nitrogen-14. (Isotopes are named by their mass numbers.) Another isotope of nitrogen has 8 neutrons. Add the 8 neutrons to the 7 protons (atomic number), and you get a mass number of 15 for this isotope of nitrogen, called nitrogen-15.