The nucleus makes up nearly all of the mass of an atom, with over 99% of its mass concentrated in the nucleus. Within the nucleus, most of the mass is found in the protons and neutrons, while the electrons surrounding the nucleus contribute very little to the overall mass.
Very nearly all of the mass of an atom is found in the nucleus in the form of Protons and Neutrons. Electrons and "binding energy" contribute a tiny amount of additional mass.
we can not add neutron
The missing mass in the nucleus, known as mass defect, is converted into energy according to E=mc^2, where E is energy, m is mass, and c is the speed of light. This conversion is responsible for the energy released in nuclear reactions such as fission and fusion.
Most of the mass of a potassium atom is located in its nucleus, which contains protons and neutrons. The electrons in the electron cloud surrounding the nucleus have significantly less mass compared to the nucleus.
Neutrons and they are found inside the nucleus.
Almost all of an atom's mass is in the nucleus.
Since a neutron has mass, adding a neutron to an atomic nucleus increases the atom's mass.
The nucleus makes up nearly all of the mass of an atom, with over 99% of its mass concentrated in the nucleus. Within the nucleus, most of the mass is found in the protons and neutrons, while the electrons surrounding the nucleus contribute very little to the overall mass.
Very nearly all of the mass of an atom is found in the nucleus in the form of Protons and Neutrons. Electrons and "binding energy" contribute a tiny amount of additional mass.
The nucleus.
Protons and neutrons, which are found in an atom's nucleus, account for most of an atom's mass. Electrons, which orbit the nucleus, have much less mass compared to protons and neutrons.
the nucleus
Inside the nucleus.
we can not add neutron
The missing mass in the nucleus, known as mass defect, is converted into energy according to E=mc^2, where E is energy, m is mass, and c is the speed of light. This conversion is responsible for the energy released in nuclear reactions such as fission and fusion.
An atom's mass is concentrated in its nucleus, which is located in the center of the atom. Protons and neutrons within the nucleus are responsible for its mass; the electrons, which are located outside of the nucleus, don't contribute to the mass of the atom.