Unstable elements that decay or break down into different elements are called radioactive elements. These elements have an unstable atomic nucleus that undergoes radioactive decay, transforming into a different element and releasing energy in the process. Examples of radioactive elements include uranium, radium, and plutonium.
The number 288 does not correspond to an atom as it is not a specific element. Atoms themselves are not considered stable or unstable, but certain isotopes of elements can be unstable and undergo radioactive decay.
Isotopes with unstable nuclei are radioactive and can undergo radioactive decay to achieve a more stable state. This decay process involves the release of radiation such as alpha or beta particles. The unstable isotopes are often used in various applications, including medicine and energy production.
All elements on the periodic table after lead are unstable, meaning they decay over time. These elements generally become more unstable the further up you go. This is partly due to the fact that the large nuclei hold an enormous amount of energy, which is released by this decay. All elements heavier than iron are forged in exploding stars. However, once you get past uranium, not even a supernova has enough power to create such elements. It is only by concetrating elements and focusing energy that we are able to produce such high-energy elements.
When synthesized elements fall apart, they undergo nuclear decay or radioactive decay, which can result in the release of radiation and the formation of other elements as byproducts. This process can occur due to the unstable nature of these artificially produced elements synthesized in a laboratory.
Unstable isotopes become more stable isotopes or different elements when they decay through processes such as alpha or beta decay. The decay results in the emission of radiation in the form of alpha or beta particles and gamma rays.
Radioactive
Unstable chemical elements are disintegrated by radioactive decay.
An unstable element may break down into one or more unstable elements, so they can in turn decay. It's possible because there is no reason why it wouldn't be possible, no reason to assume that when something unstable breaks down, all pieces are stable.
The process is called decay, or sometimes nuclear decay. A link can be found below.
The elements described are said to be radioactive.
Superheavy elements are generally very unstable and quickly decay through nuclear processes like alpha decay or spontaneous fission. Their short half-lives make them difficult to study and understand.
Those elements undergo the 'decay' process which have unstable nuclei so decay is necessary to gain the stability. such elements form the smaller stable nuclei as Lead nucleus.
Synthetic elements are unstable chemical elements not naturally found on the earth. They are synthesized in the laboratory. All of them are unstable and radioactive in nature, which means they emit radiations and decay into other elements.
It means that massive nuclei break apart.
It will decay to a more stable lighter elements and release out some nuclear energy.
radioactive decay
The number 288 does not correspond to an atom as it is not a specific element. Atoms themselves are not considered stable or unstable, but certain isotopes of elements can be unstable and undergo radioactive decay.