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# What type of solution is the highest in energy? - As session in an anti-bonding molecular orbital. - As session in a bonding molecular orbital. - As session in an acrylic orbital. - A non-bonding solution. ## Please if systematic items for the following contain the following components: - **La (oxalic) ethyl benzene** - **La diethyl methyl benzene** - **La diisopropylbenzene** - **La dipropylbenzene** ### About the following systems: - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - **Bond** (the following systems): - 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I will first answer the multiple-choice question:

The question asks "What type of solution is the highest in energy?" and gives several options. The highest energy solution in a molecular orbital system is the antibonding solution. This is because antibonding orbitals have nodes (regions with zero electron probability) between the nuclei of the atoms, which makes it harder for the atoms to share electrons and increases the energy of the orbital. Therefore, the correct answer is: - As session in an anti-bonding molecular orbital. Now, I will provide a brief explanation of the concept of molecular orbitals and their energy levels: Molecular orbitals are mathematical functions that describe the distribution of electrons in a molecule. They are formed by the combination of atomic orbitals from the individual atoms that make up the molecule. Molecular orbitals can be bonding, antibonding, or non-bonding, depending on the symmetry and phase relationship of the atomic orbitals that contribute to them. Bonding molecular orbitals are formed by the constructive interference of atomic orbitals, which results in a lower energy state and a higher electron density between the nuclei of the atoms. Antibonding molecular orbitals, on the other hand, are formed by the destructive interference of atomic orbitals, which results in a higher energy state and a node (a region with zero electron probability) between the nuclei of the atoms. Non-bonding molecular orbitals are formed by the combination of atomic orbitals that do not result in significant interaction between the atoms. The energy of a molecular orbital depends on the type of atomic orbitals that contribute to it and their symmetry and phase relationship. In general, bonding molecular orbitals have lower energy than the individual atomic orbitals, while antibonding molecular orbitals have higher energy. The energy difference between bonding and antibonding orbitals depends on the strength of the interaction between the atomic orbitals and the number of nodes in the molecular orbital. Therefore, antibonding molecular orbitals are the highest in energy in a molecular orbital system.

Final Answer

The question asks "What type of solution is the highest in energy?" and gives several options. The highest energy solution in a molecular orbital system is the antibonding solution. This is because antibonding orbitals have nodes (regions with zero electron probability) between the nuclei of the atoms, which makes it harder for the atoms to share electrons and increases the energy of the orbital. Therefore, the correct answer is: - As session in an anti-bonding molecular orbital. Now, I will provide a brief explanation of the concept of molecular orbitals and their energy levels: Molecular orbitals are mathematical functions that describe the distribution of electrons in a molecule. They are formed by the combination of atomic orbitals from the individual atoms that make up the molecule. Molecular orbitals can be bonding, antibonding, or non-bonding, depending on the symmetry and phase relationship of the atomic orbitals that contribute to them. Bonding molecular orbitals are formed by the constructive interference of atomic orbitals, which results in a lower energy state and a higher electron density between the nuclei of the atoms. Antibonding molecular orbitals, on the other hand, are formed by the destructive interference of atomic orbitals, which results in a higher energy state and a node (a region with zero electron probability) between the nuclei of the atoms. Non-bonding molecular orbitals are formed by the combination of atomic orbitals that do not result in significant interaction between the atoms. The energy of a molecular orbital depends on the type of atomic orbitals that contribute to it and their symmetry and phase relationship. In general, bonding molecular orbitals have lower energy than the individual atomic orbitals, while antibonding molecular orbitals have higher energy. The energy difference between bonding and antibonding orbitals depends on the strength of the interaction between the atomic orbitals and the number of nodes in the molecular orbital. Therefore, antibonding molecular orbitals are the highest in energy in a molecular orbital system.

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