It remains the same.
The atomic number does not change when gamma radiation is emitted.
An atom's mass does not change when it emits gamma radiation. Gamma radiation is a type of electromagnetic radiation with no mass or charge, so the total mass of the atom remains constant. The energy and momentum carried by the gamma radiation may cause the atom to recoil, but the mass of the atom itself does not change.
There is no change in atomic number with the emission of gamma radiation. Unlike alpha or beta radiation, it does not have any kind of particles. It's emission results only when an excited nuclei goes to an unexcited state by emitting these.
Yes, gamma decay emits energy in the form of gamma radiation, which is a high-energy electromagnetic wave. Gamma decay does not emit any particles, only electromagnetic radiation.
It depends on what caused the gamma event in the first place.Strictly speaking, gamma radiation is caused by the de-excitation of the nucleus, so the atomic number (and Atomic Mass) does not change during a gamma event.However, the gamma event is usually precipitated by some other event, such as a beta or alpha decay that does change the configuration of the nucleus. An alpha event reduces the atomic number by 2 (and reduces the atomic mass by 4), while the beta event increases the atomic number by 1 (and does not change the atomic mass very much).Its actually more complex than that, but the answer to the original question is that nothing really happens to the atomic number during a gamma event.
No, gamma decay does not change the atomic number of an atom. Gamma decay involves the release of high-energy electromagnetic radiation (gamma rays) from the nucleus of an atom, but it does not affect the number of protons in the nucleus, which determines the atomic number.
detonation of an atomic bomb? I believe it is gamma radiation.Fallout emits large amounts of gamma.It is neutrons.
Technetium primarily emits gamma radiation, which is a type of electromagnetic radiation with high energy and penetrating power. Additionally, technetium-99m, a common radioisotope of technetium used in medical imaging, emits low-energy gamma radiation suitable for imaging purposes.
Yes, the sun emits gamma rays as part of its electromagnetic radiation spectrum.
Molybdenum-99 mainly emits gamma radiation. This radiation is used in nuclear medicine for diagnostic imaging procedures, as well as in research applications.
don't know
When the nucleus emits an alpha or beta particle, it is in the exited state. To return to the ground state, it has to emit energy. It emits this energy in the form of gamma rays. There is no change in the atomic no or the mass no when it emits gamma rays, but it does decrease the energy in the nucleus when gamma rays are emitted