The nucleus of an atom is made of two subatomic partials called protons and neutrons; Protons are positively (+) charged. Neutrons have no charge at all, and are where most of the weight in an atom come from.
sorry if this answer is over kill or too long.
The strong force holds atomic nuclei together.
Cellular nuclei, found in eukaryotic cells, are significantly larger than atomic nuclei. A typical cellular nucleus has a diameter of about 5 to 10 micrometers, while atomic nuclei measure on the order of femtometers (10^-15 meters), making them roughly a million times smaller than cellular nuclei. This size difference highlights the vast scale of biological structures compared to atomic components.
The nucleus is primarily composed of nucleic acids (DNA and RNA) and proteins. It also contains nucleoli, which are responsible for producing ribosomal RNA, as well as other structural components like nuclear pores and the nuclear envelope.
The atomic nucleus contain protons and neutrons.
The mass of a cubic centimeter of pure atomic nuclei can vary depending on the specific nuclei present. However, on average, the mass would be roughly on the order of 10 grams.
No, atomic nuclei is not required for a chemical reaction.
Atomic nuclei (and alpha particales, but these are exactly the same as Helium nuclei)
The combination of two light atomic nuclei to form a heavier nucleus is called fusion.
The strong force holds atomic nuclei together.
The type of nuclear reaction that releases energy through the combination of atomic nuclei is called fusion. This is different from fission reactions, which involve the splitting of atomic nuclei.
Neutron
The answer is Atomic Physics. Atomic physics is the study of atomic interractions.
Fission and/or fusion of atomic nuclei.
Cellular nuclei, found in eukaryotic cells, are significantly larger than atomic nuclei. A typical cellular nucleus has a diameter of about 5 to 10 micrometers, while atomic nuclei measure on the order of femtometers (10^-15 meters), making them roughly a million times smaller than cellular nuclei. This size difference highlights the vast scale of biological structures compared to atomic components.
Atomic nuclei are changed by nuclear reactions or radioactive disintegration.
FUSION
They release some of the energy bound in atomic nuclei.