Isotopes with a high atomic number and/or an unstable ratio of protons to neutrons are more likely to decay. Generally, isotopes further from the line of stability on the Periodic Table are more likely to undergo radioactive decay.
All the isotopes from the decay chains exist in these rocks. The most important are the dangerous isotopes of radium and radon.
absolutely. such isotopes are likely to decay by emitting positrons or by K capture, instead of by emitting electrons when they undergo beta type decay.
Stable isotopes are isotopes that do not undergo radioactive decay and have constant atomic mass. Unstable isotopes, also known as radioactive isotopes, decay over time by emitting radiation.
The process is called decay, or sometimes nuclear decay. A link can be found below.
"Daughter isotopes" are called the decay products of an radioactive isotope.
No, most isotopes are not stable. Many isotopes are radioactive and decay over time, releasing radiation in the process. Only a few isotopes are stable and do not undergo radioactive decay.
All the isotopes from the decay chains exist in these rocks. The most important are the dangerous isotopes of radium and radon.
The decay products of ununhexium (after alpha decay) are isotopes of ununquadium.
absolutely. such isotopes are likely to decay by emitting positrons or by K capture, instead of by emitting electrons when they undergo beta type decay.
Stable isotopes are isotopes that do not undergo radioactive decay and have constant atomic mass. Unstable isotopes, also known as radioactive isotopes, decay over time by emitting radiation.
The end products of uranium isotopes decay chain are the isotopes of lead.
The decay products of bohrium isotopes are dubnium isotopes.
The process is called decay, or sometimes nuclear decay. A link can be found below.
"Daughter isotopes" are called the decay products of an radioactive isotope.
Neptunium-237 decay to protactinium-233.Other isotopes of Np decay to other daughter isotopes.
See the link below for radioactive decay chains.
All isotopes of polonium can undergo alpha decay, a small number of isotopes can also undergo beta decay, K capture decay, or gamma decay.