Question

table 1. complete the following table:

element	quantum numbers	orbital diagram of valence electrons	electron configuration
helium	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
lithium	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
beryllium	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
boron	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
carbon	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
nitrogen	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
oxygen	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
fluorine	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
neon	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$
aluminum	$n=$<br>$l=$<br>$m_l=$<br>$m_s=$

Explanation:

Step1: Define quantum number rules

• $n$ (principal): shell of valence electrons
• $l$ (azimuthal): $l=0$ for s-orbitals, $l=1$ for p-orbitals
• $m_l$ (magnetic): $m_l=0$ for s; $m_l=-1,0,+1$ for p
• $m_s$ (spin): $+\frac{1}{2}$ or $-\frac{1}{2}$ for electrons

Step2: Fill each element's data

Hydrogen (H, Z=1)

Quantum Numbers:
$n=1$, $l=0$, $m_l=0$, $m_s=+\frac{1}{2}$
Orbital diagram (valence): $\uparrow$ (1s)
Electron configuration: $1s^1$

Helium (He, Z=2)

Quantum Numbers:
$n=1$, $l=0$, $m_l=0$, $m_s=-\frac{1}{2}$ (for 2nd e⁻)
Orbital diagram (valence): $\uparrow\downarrow$ (1s)
Electron configuration: $1s^2$

Lithium (Li, Z=3)

Quantum Numbers (valence e⁻):
$n=2$, $l=0$, $m_l=0$, $m_s=+\frac{1}{2}$
Orbital diagram (valence): $\uparrow$ (2s)
Electron configuration: $1s^22s^1$

Beryllium (Be, Z=4)

Quantum Numbers (valence e⁻):
$n=2$, $l=0$, $m_l=0$, $m_s=-\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s)
Electron configuration: $1s^22s^2$

Boron (B, Z=5)

Quantum Numbers (valence e⁻):
$n=2$, $l=1$, $m_l=-1$, $m_s=+\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s) $\quad \uparrow$ (2pₓ)
Electron configuration: $1s^22s^22p^1$

Carbon (C, Z=6)

Quantum Numbers (valence e⁻):
$n=2$, $l=1$, $m_l=0$, $m_s=+\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s) $\quad \uparrow$ (2pₓ) $\uparrow$ (2pᵧ)
Electron configuration: $1s^22s^22p^2$

Nitrogen (N, Z=7)

Quantum Numbers (valence e⁻):
$n=2$, $l=1$, $m_l=+1$, $m_s=+\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s) $\quad \uparrow$ (2pₓ) $\uparrow$ (2pᵧ) $\uparrow$ (2p_z)
Electron configuration: $1s^22s^22p^3$

Oxygen (O, Z=8)

Quantum Numbers (valence e⁻):
$n=2$, $l=1$, $m_l=-1$, $m_s=-\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s) $\quad \uparrow\downarrow$ (2pₓ) $\uparrow$ (2pᵧ) $\uparrow$ (2p_z)
Electron configuration: $1s^22s^22p^4$

Fluorine (F, Z=9)

Quantum Numbers (valence e⁻):
$n=2$, $l=1$, $m_l=0$, $m_s=-\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s) $\quad \uparrow\downarrow$ (2pₓ) $\uparrow\downarrow$ (2pᵧ) $\uparrow$ (2p_z)
Electron configuration: $1s^22s^22p^5$

Neon (Ne, Z=10)

Quantum Numbers (valence e⁻):
$n=2$, $l=1$, $m_l=+1$, $m_s=-\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (2s) $\quad \uparrow\downarrow$ (2pₓ) $\uparrow\downarrow$ (2pᵧ) $\uparrow\downarrow$ (2p_z)
Electron configuration: $1s^22s^22p^6$

Aluminum (Al, Z=13)

Quantum Numbers (valence e⁻):
$n=3$, $l=1$, $m_l=-1$, $m_s=+\frac{1}{2}$
Orbital diagram (valence): $\uparrow\downarrow$ (3s) $\quad \uparrow$ (3pₓ)
Electron configuration: $1s^22s^22p^63s^23p^1$

Answer:

Element	Quantum Numbers	Orbital diagram of valence electrons	Electron configuration
Helium	$n=1$, $l=0$, $m_l=0$, $m_s=-\frac{1}{2}$	$\uparrow\downarrow$ (1s)	$1s^2$
Lithium	$n=2$, $l=0$, $m_l=0$, $m_s=+\frac{1}{2}$	$\uparrow$ (2s)	$1s^22s^1$
Beryllium	$n=2$, $l=0$, $m_l=0$, $m_s=-\frac{1}{2}$	$\uparrow\downarrow$ (2s)	$1s^22s^2$
Boron	$n=2$, $l=1$, $m_l=-1$, $m_s=+\frac{1}{2}$	$\uparrow\downarrow$ (2s) $\quad \uparrow$ (2pₓ)	$1s^22s^22p^1$
Carbon	$n=2$, $l=1$, $m_l=0$, $m_s=+\frac{1}{2}$	$\uparrow\downarrow$ (2s) $\quad \uparrow$ (2pₓ) $\uparrow$ (2pᵧ)	$1s^22s^22p^2$
Nitrogen	$n=2$, $l=1$, $m_l=+1$, $m_s=+\frac{1}{2}$	$\uparrow\downarrow$ (2s) $\quad \uparrow$ (2pₓ) $\uparrow$ (2pᵧ) $\uparrow$ (2p_z)	$1s^22s^22p^3$
Oxygen	$n=2$, $l=1$, $m_l=-1$, $m_s=-\frac{1}{2}$	$\uparrow\downarrow$ (2s) $\quad \uparrow\downarrow$ (2pₓ) $\uparrow$ (2pᵧ) $\uparrow$ (2p_z)	$1s^22s^22p^4$
Fluorine	$n=2$, $l=1$, $m_l=0$, $m_s=-\frac{1}{2}$	$\uparrow\downarrow$ (2s) $\quad \uparrow\downarrow$ (2pₓ) $\uparrow\downarrow$ (2pᵧ) $\uparrow$ (2p_z)	$1s^22s^22p^5$
Neon	$n=2$, $l=1$, $m_l=+1$, $m_s=-\frac{1}{2}$	$\uparrow\downarrow$ (2s) $\quad \uparrow\downarrow$ (2pₓ) $\uparrow\downarrow$ (2pᵧ) $\uparrow\downarrow$ (2p_z)	$1s^22s^22p^6$
Aluminum	$n=3$, $l=1$, $m_l=-1$, $m_s=+\frac{1}{2}$	$\uparrow\downarrow$ (3s) $\quad \uparrow$ (3pₓ)	$1s^22s^22p^63s^23p^1$