The period of an element in the periodic table can be determined by the number of electron shells or energy levels that the element's atoms have. Each period on the periodic table corresponds to the number of electron shells occupied by the elements within that period.
An element with the electron configuration Ne3s^23p^5 is in period 3 of the periodic table. The electron configuration indicates that the element has 3 energy levels, with the last electron being in the 3p subshell.
The electronic configuration of an atom is related to its position in the periodic table because elements in the same group have similar electronic configurations due to having the same number of valence electrons. Elements in the same period have varying electron configurations as atomic number increases across the period. This organization helps predict elements' chemical properties and behaviors.
the element belongs to 4th period, 9th group, it is a d block element. the element is cobalt
This electron configuration represents the element Selenium, with 34 electrons. It is located in the fourth period of the periodic table, in Group 16. The configuration includes filled sublevels up to the 4p orbital.
Germanium in the 4th period has 4 valence electrons.It has electronic configuration of 2 8 18 4.
The period of an element is determined by electronic configuration.Period is same as the number of energy levels of the element.
The element is titanium and is in 4th period, group 4.
The period of an element in the periodic table can be determined by the number of electron shells or energy levels that the element's atoms have. Each period on the periodic table corresponds to the number of electron shells occupied by the elements within that period.
An element with the electron configuration Ne3s^23p^5 is in period 3 of the periodic table. The electron configuration indicates that the element has 3 energy levels, with the last electron being in the 3p subshell.
The electronic configuration of an atom is related to its position in the periodic table because elements in the same group have similar electronic configurations due to having the same number of valence electrons. Elements in the same period have varying electron configurations as atomic number increases across the period. This organization helps predict elements' chemical properties and behaviors.
the element belongs to 4th period, 9th group, it is a d block element. the element is cobalt
ns1, where n is the number of the period in which the element is present
Period 3. In the periodic table of elements you can decipher which period does an element belong by looking by the number of ROWS and which number is your element included in.
This electron configuration represents the element Selenium, with 34 electrons. It is located in the fourth period of the periodic table, in Group 16. The configuration includes filled sublevels up to the 4p orbital.
Electron configuration is the arrangement of elements according to their increasing atomic numbers whiles period is the arrangement of elements according to the increasing number of valence electrons.
The electronic configuration of sodium is [Ne]3s1. Sodium has one valence electron. And it belongs to group 1. The valence electron is in 3s orbitals and it tells that sodium is a s-block element and is in period 3.