The elements which falls under the group 16 has 4 electrons in its outer p orbital...
The electrons in beryllium occupy a total of four orbitals. Beryllium has 4 electrons, which fill the 1s, 2s, and 2p orbitals.
Lead has 82 electrons. It also has four valence electrons, two s- electrons and two p- electrons in its orbitals.
Yes. Two of the electrons will go into the carbon's outer s shell (2s) to completely fill it (s orbitals can contain up to two electrons) and the remaining two will go into its outer p shell (2p).
Silicon has three orbitals in its valence shell: one 3s orbital and two 3p orbitals. This gives it a total of four valence electrons.
There can be a maximum of 8 electrons in four separate orbitals, with each orbital accommodating up to 2 electrons following the Pauli exclusion principle.
Be (beryllium) has four electrons total: the first orbital, the 1s orbital, has two, which leaves two electrons in the outer shell.
Carbon has four electrons in its outer shell. The electron configuration of carbon is 1s² 2s² 2p², where the two electrons in the inner shell (1s) are not counted toward the outer shell. Therefore, in the outer shell (2s and 2p), carbon has a total of four electrons.
Carbon has 6 total electrons: 2 located in the 1s orbital, 2 located in the 2s orbital, and 2 in 2p orbitals. 2+2+2=6.
In theory all elements have all the orbitals. Zinc has electrons in four of them.
The configuration 1s² 2s² 2p² describes an atom with four electrons in its outer shell. According to Hund's Rule, electrons will occupy degenerate orbitals (like the three 2p orbitals) singly before pairing up. In this case, if the two electrons in the 2p subshell occupy separate orbitals rather than pairing in one, it would be consistent with Hund's Rule. Therefore, whether it's following Hund's Rule depends on how those 2p electrons are distributed across the orbitals.
Carbon has four electrons in its outer shell and needs four more electrons to complete its octet.
Selenium has four half-filled orbitals - the 4s, 4p_x, 4p_y, and 4p_z orbitals. This is because selenium has four electrons in its 4th energy level.