Previous versions used monochrome text. The -NEW PDF uses high-definition color gradients to represent the complex shapes of atomic orbitals (spherical s-orbitals, dumbbell p-orbitals, cloverleaf d-orbitals, and the intricate f-orbitals). Each element block is color-coded by its azimuthal quantum number (l=0,1,2,3).
| No. | Elemento | Símbolo | P. Atómico | Config. Electrónica | n | l | m_l | m_s | Bloque | Radio (Å) | Ionización |
|-----|----------|----------|-------------|----------------------|----|---|-----|-----|--------|------------|-------------|
| 1 | Hidrógeno | H | 1.008 | 1s¹ | 1 | 0 | 0 | +½ | s | 1.20 | 1312 |
| 2 | Helio | He | 4.0026 | 1s² | 1 | 0 | 0 | -½ | s | 0.90 | 2372 |
| 3 | Litio | Li | 6.94 | [He] 2s¹ | 2 | 0 | 0 | +½ | s | 1.52 | 520 | i--- Tabla Cuantica De Los Elementos Quimicos Pdf 14 -NEW
In a Quantum Table, the position of an element is determined by four quantum numbers: Previous versions used monochrome text
$l$ (Azimuthal Quantum Number): Represents the subshell (shape of the orbital). In a Quantum Table, the position of an
$m_l$ (Magnetic Quantum Number): Determines the specific orbital within the subshell ($p_x, p_y, p_z$, etc.).
$m_s$ (Spin Quantum Number): The spin of the electron ($+\frac12$ or $-\frac12$).