an atom of an element has 4 electrons in the outermost M shell what will be the atomic number of this element name the salient find valency of the element draw a schematic diagram of this atom showing the distribution of electrons in its M shell
Answers
K shell - 2 electrons
L shell - 8 electrons
M shell - 4 electrons
Z=total no. of electrons=14=Silicon
The Valency of this element is 4.So it forms covalent bonds
Nuclear physics
NuclearReaction.svg
Nucleus · Nucleons (p, n) · Nuclear matter · Nuclear force · Nuclear structure · Nuclear reaction
Models of the nucleus[show]
Nuclides' classification[show]
Nuclear stability[show]
Radioactive decay[show]
Nuclear fission[show]
Capturing processes[show]
High energy processes[show]
Nucleosynthesis and
nuclear astrophysics[show]
High energy nuclear physics[show]
Scientists[show]
In nuclear physics and nuclear chemistry, the nuclear shell model is a model of the atomic nucleus which uses the Pauli exclusion principle to describe the structure of the nucleus in terms of energy levels.[1] The first shell model was proposed by Dmitry Ivanenko (together with E. Gapon) in 1932. The model was developed in 1949 following independent work by several physicists, most notably Eugene Paul Wigner, Maria Goeppert Mayer and J. Hans D. Jensen, who shared the 1963 Nobel Prize in Physics for their contributions.
The shell model is partly analogous to the atomic shell model which describes the arrangement of electrons in an atom, in that a filled shell results in greater stability. When adding nucleons (protons or neutrons) to a nucleus, there are certain points where the binding energy of the next nucleon is significantly less than the last one. This observation, that there are certain magic numbers of nucleons: 2, 8, 20, 28, 50, 82, 126 which are more tightly bound than the next higher number, is the origin of the shell model.
The shells for protons and for neutrons are independent of each other. Therefore, one can have "magic nuclei" where one nucleon type or the other is at a magic number, and "doubly magic nuclei", where both are. Due to some variations in orbital filling, the upper magic numbers are 126 and, speculatively, 184 for neutrons but only 114 for protons, playing a role in the search for the so-called island of stability. Some semimagic numbers have been found, notably Z=40 giving nuclear shell filling for the various elements; 16 may also be a magic number.