Isotone

Isotopes and half-life

NuclideMap stitched

Isotone refers to one of several concepts in physics and chemistry, depending on the context in which it is used. In the most common usage within nuclear physics, isotones are nuclei that have the same number of neutrons but differ in the number of protons. This characteristic makes them distinct from isotopes, which have the same number of protons but may have different numbers of neutrons, and isobars, which have the same mass number (the total number of protons and neutrons) but differ in their numbers of protons and neutrons.

Overview[edit | edit source]

The term isotone comes from the Greek roots iso- meaning "same" and -tone implying "tension" or "stretch", in this context referring to the neutrons being the same. Isotones do not necessarily have similar chemical properties, as these are largely determined by the number of protons, which defines an element's place in the Periodic Table. However, isotones may exhibit similarities in nuclear properties, such as nuclear stability and types of radioactive decay.

Examples[edit | edit source]

For instance, consider the nuclei with 20 neutrons: Calcium-40 (20 protons), Potassium-41 (19 protons), and Argon-40 (18 protons) are all isotones. They share the same number of neutrons but have different numbers of protons, placing them as different elements on the Periodic Table.

Significance in Nuclear Physics[edit | edit source]

In nuclear physics, the study of isotones is important for understanding the nuclear force and the stability of nuclei. The concept of isotones is used in the development of nuclear models and in the prediction of nuclear reactions, including those that occur in nuclear reactors and stellar nucleosynthesis. Isotones can also provide insight into the process of beta decay, where the number of neutrons and protons in a nucleus changes, transforming one element into another.

Isotone Lines in the Chart of Nuclides[edit | edit source]

The Chart of Nuclides is a graphical representation of all known nuclei, with the number of protons plotted on one axis and the number of neutrons on the other. Isotones are represented by lines of constant neutron number that run parallel to the axis representing the number of protons. This chart is a crucial tool in nuclear physics for visualizing the structure of atomic nuclei and understanding the relationships between different types of nuclei, including isotones.

See Also[edit | edit source]

• Isotope
• Isobar
• Nuclide
• Nuclear shell model