$\(^14_6C\)$ with half a dozen protons and eight neutrons $\(^14_7N\)$ with septet protons and septet neutrons $\(^14_8O\)$ with octet protons and half a dozen neutrons
These isotopes exhibit the identical chemical characteristics as carbon, but they exhibit varying masses along with nuclear stability. Isobaros (Isobars) Isobaros, likewise recognized as isobars, are nuclides possessing the same mass value (protons + neutrons) yet distinct counts of protons as well as neutrons. This signifies that isobars have the equivalent mass, yet varying atomic numbers and chemical characteristics. For illustration, the nuclides $\(^14_6C\)\(, \)\(^14_7N\)\(, and \)\(^14_8O\)$ are isobars, as they each exhibit a mass value of 14: isotopos isobaros isotonos ejercicio
These isobars possess different chemical properties due to their different atomic quantities. Isotonos (Isotones) Isotonos, also known as isotones, are nuclides having the same quantity of neutrons but different quantities of protons. This signifies that isotones possess the same number of neutrons, but different atomic numbers and chemical properties. For example, the nuclides $\(^12_6C\)\(, \)\(^13_7N\)\(, and \)\(^14_8O\)\( are not isotones, but \)\(^14_6C\)\( and \)\(^15_7N\) $\(^14_6C\)$ with half a dozen protons and eight
These isobars have distinct chemical properties due to those distinct atomic quantities. Isotonos (Isotones) Isotonos, additionally referred as isotones, are nuclides with the equivalent number of neutrons however different counts of protons. This implies that isotones exhibit the same count of neutrons, but different atomic quantities and chemical characteristics. For example, the nuclides $\(^12_6C\)\(, \)\(^13_7N\)\(, and \)\(^14_8O\)\( are not isotones, but \)\(^14_6C\)\( and \)\(^15_7N\) the nuclides $\(^14_6C\)\(
These isotopes possess the same chemical properties as carbon, but they display different masses and nuclear stability. Isobaros (Isobars) Isobaros, also known as isobars, are nuclides possessing the same mass number (protons + neutrons) but different numbers of protons and neutrons. This means that isobars have the same mass, but different atomic numbers and chemical properties. For illustration, the nuclides $\(^14_6C\)\(, \)\(^14_7N\)\(, and \)\(^14_8O\)$ are isobars, as they all possess a mass number of 14: