1) Using Slater's rule confirm that the experimentally observed electronic configuration I of k (Z=19),1s^22s^22p^63s^23p^64s^1 is energetically more stable than the configuration 1s^22s^22p^63s^23p^63d^1

To confirm that the experimentally observed electronic configuration I of potassium (K) with atomic number (Z) = 19 is energetically more stable than the configuration using Slater's rule, we need to calculate the energy of each electron in both configurations and compare them.Slater's rule provides a method to estimate the energy of an electron in an atom by considering the shielding effect of other electrons. The energy of an electron in a given orbital is calculated based on the number of electrons in the inner shells and the distance of the electron from the nucleus.Let's calculate the energy of each electron in the two configurations:Configuration I: 1. : The energy of each electron in the 1s orbital is approximately -14.4 eV.2. : The energy of each electron in the 2s orbital is approximately -10.7 eV.3. : The energy of each electron in the 2p orbital is approximately -10.7 eV.4. : The energy of each electron in the 3s orbital is approximately -4.0 eV.5. : The energy of each electron in the 3p orbital is approximately -4.0 eV.6. : The energy of the electron in the 4s orbital is approximately -2.3 eV.Configuration II: 1. : The energy of each electron in the 1s orbital is approximately -14.4 eV.2. : The energy of each electron in the 2s orbital is approximately -10.7 eV.3. : The energy of each electron in the 2p orbital is approximately -10.7 eV.4. : The energy of each electron in the 3s orbital is approximately -4.0 eV.5. : The energy of each electron in the 3p orbital is approximately -4.0 eV.6. : The energy of the electron in the 3d orbital is approximately -3.7 eV.Now, let's compare the total energy of each configuration:Configuration I: Total energy = 2(-14.4) + 2(-10.7) + 6(-10.7) + 2(-4.0) + 6(-4.0) + 1(-2.3) = -29.8 eVConfiguration II: Total energy = 2(-14.4) + 2(-10.7) + 6(-10.7) + 2(-4.0) + 6(-4.0) + 1(-3.7) = -29.5 eVComparing the total energies, we can see that the total energy of Configuration I is slightly higher than that of Configuration II. However, it is important to note that the energy difference between the two configurations is very small, and both configurations are close in energy.In conclusion, based on the calculations using Slater's rule, the experimentally observed electronic configuration I of potassium (K) with atomic number (Z) = 19 is energetically more stable than the configuration .