The minimum frequency of radiation emitted by a radioactive nucleus is proportional to its energy. This frequency is related to the energy by the equation E = hf, where E is the energy, h is Planck's constant, and f is the frequency. Therefore, the minimum frequency of radiation emitted by a radioactive nucleus depends on the specific energy released during the radioactive decay process.
The stable nuclei that are not radioactive include, for example, carbon-12, oxygen-16, and neon-20. These nuclei have a balanced composition of protons and neutrons that do not undergo radioactive decay.
Yes, gamma rays are a type of natural radiation that are generated by radioactive materials or processes such as nuclear fission. They have the shortest wavelength and highest frequency among electromagnetic waves, and can be emitted from sources like stars, supernovae, and radioactive decay.
In this analogy, the heads of the pennies could represent stable nuclei, while the tails could represent radioactive nuclei. Stable nuclei do not undergo spontaneous decay, while radioactive nuclei have the potential to decay and emit radiation over time.
Atomic nuclei that are unstable and decaying are said to be radioactive. Radioactive decay involves alpha, beta and gamma particle emissions.
Unstable nuclei are most commonly found in radioactive materials, such as uranium and radium. These materials emit radiation as the unstable nuclei undergo radioactive decay in an attempt to become more stable.
The stable nuclei that are not radioactive include, for example, carbon-12, oxygen-16, and neon-20. These nuclei have a balanced composition of protons and neutrons that do not undergo radioactive decay.
Radioactive isotopes are not stable.
Yes, gamma rays are a type of natural radiation that are generated by radioactive materials or processes such as nuclear fission. They have the shortest wavelength and highest frequency among electromagnetic waves, and can be emitted from sources like stars, supernovae, and radioactive decay.
In this analogy, the heads of the pennies could represent stable nuclei, while the tails could represent radioactive nuclei. Stable nuclei do not undergo spontaneous decay, while radioactive nuclei have the potential to decay and emit radiation over time.
Atomic nuclei are changed by nuclear reactions or radioactive disintegration.
Nuclear energy is considered the most randomized form of energy because it is generated through the random process of radioactive decay in atomic nuclei.
fission- is a process in which the nuclei of radioactive atoms are split in to two or more smaller nuclei.
its nuclei can split apart
radioactive
All atoms are nuclear, in that they all have nuclei. Some atoms have unstable nuclei, making them radioactive. I'm afraid I have no idea what you mean by "nuclear atoms," unless you meant to say radioactive atoms, in which case the answer is "they have unstable nuclei and they're radioactive."
Atomic nuclei that are unstable and decaying are said to be radioactive. Radioactive decay involves alpha, beta and gamma particle emissions.
Unstable nuclei are most commonly found in radioactive materials, such as uranium and radium. These materials emit radiation as the unstable nuclei undergo radioactive decay in an attempt to become more stable.