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- https://chem.libretexts.org/Courses/Earlham_College/CHEM_361%3A_Inorganic_Chemistry_(Watson)/05%3A_Solid_State_Chemistry/5.04%3A_Atomic_Orbitals_and_MagnetismThe promotion energy (+264 kJ/mol) is more than offset by the bonding energy (-410 kJ/mol), the energy released when gaseous atoms in the excited state condense to form the metallic solid. The heat of...The promotion energy (+264 kJ/mol) is more than offset by the bonding energy (-410 kJ/mol), the energy released when gaseous atoms in the excited state condense to form the metallic solid. The heat of vaporization, or the cohesive energy of a metal, is the difference between the bonding energy and the promotion energy. For Cu, Zn, and Ga, the 3d orbitals are even more contracted and the 3d band is thus more narrow, but now it is completely filled and the Fermi level is in the 4s,4p band.
- https://chem.libretexts.org/Courses/Lafayette_College/CHEM_212_213%3A_Inorganic_Chemistry_(Nataro)/05%3A_Coordination_Chemistry/5.04%3A_Bonding_with_d-orbitalsFor example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p or...For example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p orbitals is reflected in the net bonding energy.
- https://chem.libretexts.org/Courses/Williams_School/Chemistry_II/15%3A_Conductivity_and_Magnetism/15.05%3A_Atomic_Orbitals_and_MagnetismFor example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p or...For example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p orbitals is reflected in the net bonding energy.
- https://chem.libretexts.org/Courses/UW-Whitewater/Chem_260%3A_Inorganic_Chemistry_(Girard)/10%3A_Metals_and_Alloys-_Structure_Bonding_Electronic_and_Magnetic_Properties/10.07%3A_Atomic_Orbitals_and_MagnetismFor example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p or...For example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p orbitals is reflected in the net bonding energy.
- https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_4300%3A_Inorganic_Chemistry_(Mink)/07%3A_Metals_and_Alloys-_Structure_Bonding_Electronic_and_Magnetic_Properties/7.07%3A_Atomic_Orbitals_and_MagnetismFor example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p or...For example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p orbitals is reflected in the net bonding energy.
- https://chem.libretexts.org/Courses/Ripon_College/CHM_321%3A_Inorganic_Chemistry/08%3A_Solid_State_Chemistry/8.05%3A_Atomic_Orbitals_and_MagnetismThe promotion energy (+264 kJ/mol) is more than offset by the bonding energy (-410 kJ/mol), the energy released when gaseous atoms in the excited state condense to form the metallic solid. The heat of...The promotion energy (+264 kJ/mol) is more than offset by the bonding energy (-410 kJ/mol), the energy released when gaseous atoms in the excited state condense to form the metallic solid. The heat of vaporization, or the cohesive energy of a metal, is the difference between the bonding energy and the promotion energy. For Cu, Zn, and Ga, the 3d orbitals are even more contracted and the 3d band is thus more narrow, but now it is completely filled and the Fermi level is in the 4s,4p band.
- https://chem.libretexts.org/Courses/Williams_School/Advanced_Chemistry/20%3A_Conductivity_and_Magnetism/20.05%3A_Atomic_Orbitals_and_MagnetismFor example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p or...For example, Pt metal must be promoted from the 6s 1 5d 9 atomic ground state to 6s 1 5d 7 6p 2 in order to make six bonds per atom, and the energy cost of promoting electrons from the 5d to the 6p orbitals is reflected in the net bonding energy.
- https://chem.libretexts.org/Courses/Lafayette_College/CHEM_212_213%3A_Inorganic_Chemistry_(Nataro)/03%3A_Solid_state/3.05%3A_Atomic_Orbitals_and_MagnetismThe promotion energy (+264 kJ/mol) is more than offset by the bonding energy (-410 kJ/mol), the energy released when gaseous atoms in the excited state condense to form the metallic solid. The heat of...The promotion energy (+264 kJ/mol) is more than offset by the bonding energy (-410 kJ/mol), the energy released when gaseous atoms in the excited state condense to form the metallic solid. The heat of vaporization, or the cohesive energy of a metal, is the difference between the bonding energy and the promotion energy. For Cu, Zn, and Ga, the 3d orbitals are even more contracted and the 3d band is thus more narrow, but now it is completely filled and the Fermi level is in the 4s,4p band.
