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3.5: Diatomic Molecules
https://chem.libretexts.org/Workbench/Username%3A_marzluff@grinnell.edu/CHM363_Chapter/03%3A_Chemical_Bond/3.5%3A_Diatomic_Molecules
Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adj...Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adjacent atoms are the same, in both cases the mathematical sum corresponds to a π (bonding) molecular orbital. (b) In contrast, in both cases, the mathematical difference corresponds to a π* (antibonding) molecular orbital, with a nodal plane of zero probability density perpendicular to the internucl…
3.5: Diatomic Molecules
https://chem.libretexts.org/Workbench/Username%3A_marzluff@grinnell.edu/Unit_3%3A_Kinetics/3%3A_Chemical_Bond/3.5%3A_Diatomic_Molecules
Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adj...Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adjacent atoms are the same, in both cases the mathematical sum corresponds to a π (bonding) molecular orbital. (b) In contrast, in both cases, the mathematical difference corresponds to a π* (antibonding) molecular orbital, with a nodal plane of zero probability density perpendicular to the internucl…
3.5: Diatomic Molecules
https://chem.libretexts.org/Workbench/Username%3A_marzluff@grinnell.edu/Unit_1%3A_Quantum_Chemistry%2C_Spectroscopy_and_Bonding/3%3A_Chemical_Bond/3.5%3A_Diatomic_Molecules
Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adj...Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adjacent atoms are the same, in both cases the mathematical sum corresponds to a π (bonding) molecular orbital. (b) In contrast, in both cases, the mathematical difference corresponds to a π* (antibonding) molecular orbital, with a nodal plane of zero probability density perpendicular to the internucl…
3.5: Diatomic Molecules
https://chem.libretexts.org/Courses/Knox_College/Chem_321%3A_Physical_Chemistry_I/03%3A_Chemical_Bond/3.05%3A_Diatomic_Molecules
Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adj...Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adjacent atoms are the same, in both cases the mathematical sum corresponds to a π (bonding) molecular orbital. (b) In contrast, in both cases, the mathematical difference corresponds to a π* (antibonding) molecular orbital, with a nodal plane of zero probability density perpendicular to the internucl…
3.5: Diatomic Molecules
https://chem.libretexts.org/Workbench/Username%3A_marzluff@grinnell.edu/Unit_2%3A_Gases_and_Boltmann/3%3A_Chemical_Bond/3.5%3A_Diatomic_Molecules
Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adj...Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adjacent atoms are the same, in both cases the mathematical sum corresponds to a π (bonding) molecular orbital. (b) In contrast, in both cases, the mathematical difference corresponds to a π* (antibonding) molecular orbital, with a nodal plane of zero probability density perpendicular to the internucl…
3.5: Diatomic Molecules
https://chem.libretexts.org/Under_Construction/Purgatory/CHM_363%3A_Physical_Chemistry_I/03%3A_Chemical_Bond/3.05%3A_Diatomic_Molecules
Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adj...Figure $\PageIndex{3}$ : Formation of π Molecular Orbitals from np x and np y Atomic Orbitals on Adjacent Atoms.(a) Because the signs of the lobes of both the np x and the np y atomic orbitals on adjacent atoms are the same, in both cases the mathematical sum corresponds to a π (bonding) molecular orbital. (b) In contrast, in both cases, the mathematical difference corresponds to a π* (antibonding) molecular orbital, with a nodal plane of zero probability density perpendicular to the internucl…

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