The belt of stability is a graph which help to identify unstable isotopes.
See also this link.
The band of stability is a way of viewing which isotopes of the elements are stable. If you make a graph of number of neutrons versus number of protons of the stable isotopes, you find that the stable isotopes make a thick curved line on the graph which is called the "band of stability." The lighter elements tend to have the number of neutrons equal to number of protons. The heavier elements tend to have more neutrons than protons. The band of stability can help you to predict the behavior of unstable radioactive isotopes as well, because you can predict which decay process will move the element closer to the "band of stability" so it will have the ideal ratio of neutrons to protons.
Depending on the stability of the isotopes and what we want to use it for, I say it gives us more variety for what we want to do with it in chemistry
Through neutron bombardment. Muons produce neutrons and isotopes can be naturally stabilized via muons
It has to do with the line of stability. Isotopes are made of an extra neutron, making the atomic mass greater. If the number of protons and neutrons on the graph that has the line of stability fall anywhere that's not on the line, it is unstable.
Isotopes have same atomic number. They have different mass numbers. Their physical properties are different.
The band of stability contain stable isotopes.
The band of stability is a way of viewing which isotopes of the elements are stable. If you make a graph of number of neutrons versus number of protons of the stable isotopes, you find that the stable isotopes make a thick curved line on the graph which is called the "band of stability." The lighter elements tend to have the number of neutrons equal to number of protons. The heavier elements tend to have more neutrons than protons. The band of stability can help you to predict the behavior of unstable radioactive isotopes as well, because you can predict which decay process will move the element closer to the "band of stability" so it will have the ideal ratio of neutrons to protons.
Depending on the stability of the isotopes and what we want to use it for, I say it gives us more variety for what we want to do with it in chemistry
Through neutron bombardment. Muons produce neutrons and isotopes can be naturally stabilized via muons
A nucleus is stable if the ratio of neutrons to protons is from 1 to 1.5, meaning there will be equal or more neutrons. Google the "band of stability" for a picture of the ratios.
It has to do with the line of stability. Isotopes are made of an extra neutron, making the atomic mass greater. If the number of protons and neutrons on the graph that has the line of stability fall anywhere that's not on the line, it is unstable.
Isotopes have same atomic number. They have different mass numbers. Their physical properties are different.
a belt
Sidney Bloomenthal has written: 'Oxide band spectra of the lead isotopes' -- subject(s): Isotopes, Lead, Spectra
The band of asteroids is called (the asteroid belt)
There is no limit as to how many isotopes an element can have. It can be given as many neutrons as possible with today's technology. As for stability and natural decay, that's another issue. Some isotopes can last for milliseconds, or less.
A belt is a band worn around someone's body to secure clothing, a gun or sword, or as decoration. It can also be a band used as a restraint, a band to transfer motion or power in a machine, or a rocky celestial body.