An electron
The subshell farthest from the nucleus is the outermost shell, which is also known as the valence shell. This shell contains the valence electrons of an atom and determines its chemical properties.
Electrons are not located in the nucleus of an atom.
This electron shell is near the atomic nucleus.
The shell closest to the nucleus of an atom can hold a maximum of 2 electrons, which are the negatively charged particles orbiting the positively charged nucleus. These electrons occupy the first energy level or shell. Beyond this first shell, additional shells can hold more electrons, but the innermost shell is limited to just 2 particles.
The nucleus and the electron shell
k shell is nearest to the nucleus, but it cannot be said that it shields the nucleus MOST.
True.
The K shell is closest to the nucleus and has the lowest energy level of all electron shells. Electrons in the K shell experience a stronger electrostatic attraction to the positively charged nucleus, which results in better shielding of the nucleus compared to electrons in higher energy shells.
The K shell is first shell closest to the nucleus.
Tellurium has 16 electrons in its outer shell around the nucleus.
The subshell farthest from the nucleus is the outermost shell, which is also known as the valence shell. This shell contains the valence electrons of an atom and determines its chemical properties.
Electrons are not located in the nucleus of an atom.
The nucleus of sodium has a greater pull on the electron in the outer shell compared to the nucleus of neon. This is because sodium has one less electron in its outer shell than neon, resulting in a stronger attraction between the nucleus and the remaining electron in sodium.
This is the outer shell of a nucleus.
The orbit or electron shell closest to the nucleus is the 1s sub-shell. It can hold 2 electrons before the 2s sub-shell is filled. H and He have their electrons in this shell (the 1s)
The shell closest to the nucleus of an atom can only hold up to two electrons.
The outer shell is the valence electrons and they are very loosely bound to the nucleus - less force by the nucleus on the valence electrons, so valence shell's electrons are exchanged first in any reaction.