The number of nodal surfaces passing through the nucleus of the 4 f orbitals is to be identified. Concept introduction: Nodal surfaces: the surface which passing through nucleus where there is zero chance of finding electrons. The values of l (azimuthal quantum number) when the principal quantum number is n are from 0 to ( n − 1 ) . Each value of l indicates subshell and for l = 0 , 2 and 3 represents s, d and f subshells.
The number of nodal surfaces passing through the nucleus of the 4 f orbitals is to be identified. Concept introduction: Nodal surfaces: the surface which passing through nucleus where there is zero chance of finding electrons. The values of l (azimuthal quantum number) when the principal quantum number is n are from 0 to ( n − 1 ) . Each value of l indicates subshell and for l = 0 , 2 and 3 represents s, d and f subshells.
Solution Summary: The author explains the number of nodal surfaces passing through the nucleus of the 4f orbitals.
Interpretation: The number of nodal surfaces passing through the nucleus of the 4f orbitals is to be identified.
Concept introduction:
Nodal surfaces: the surface which passing through nucleus where there is zero chance of finding electrons.
The values of l (azimuthal quantum number) when the principal quantum number is n are from 0 to (n−1). Each value of l indicates subshell and for l=0,2 and 3 represents s, d and f subshells.
(b)
Interpretation Introduction
Interpretation: The number of nodal surfaces passing through the nucleus of the 2p orbitals is to be identified.
Concept introduction:
Nodal surfaces: the surface which passing through nucleus where there is zero chance of finding electrons.
The values of l (azimuthal quantum number) when the principal quantum number is n are from 0 to (n−1). Each value of l indicates subshell and for l=0,2 and 3 represents s, d and f subshells.
(c)
Interpretation Introduction
Interpretation: The number of nodal surfaces passing through the nucleus of the 6s orbitals is to be identified.
Concept introduction:
Nodal surfaces: the surface which passing through nucleus where there is zero chance of finding electrons.
The values of l (azimuthal quantum number) when the principal quantum number is n are from 0 to (n−1). Each value of l indicates subshell and for l=0,2 and 3 represents s, d and f subshells.
5. Draw orbital diagrams for the ground states of:
(a) Terbium, Tb, a lanthanide element.
(b) The manganese(II) ion, Mn2+.
(c) The sulphide ion, S2–.
(d) Silver, Ag.
(1) What is the valence electron configuration for the helium atom? (2) What is the valence electron configuration for the gallium atom?
(1) What is the name of the element with a valence electron configuration of 3s23p2?(2) What is the name of the element with a valence electron configuration of 4s1?
What atoms have the configuration (a) 1²23²2p,
(b) 18²2s²2p63s², (c) 38²3pº? Explain.
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The Bohr Model of the atom and Atomic Emission Spectra: Atomic Structure tutorial | Crash Chemistry; Author: Crash Chemistry Academy;https://www.youtube.com/watch?v=apuWi_Fbtys;License: Standard YouTube License, CC-BY