Concept explainers
(a)
Interpretation:
In the given figure, every region of constructive interference and destructive interference between the HOMO and LUMO is to be labeled.
Concept introduction:
The HOMO-LUMO orbital interaction concept is used to know how the reacting species interact. The electron-rich species is HOMO while the electron-deficient species is LUMO; they determine substantial net overlap in the transition state. When these two orbitals overlap with the same phases, the constructive interference occurs and the reaction is likely to be allowed. When these two orbitals overlap with the opposite phases, the destructive interference occurs and the reaction is likely to be not allowed (or forbidden).
(b)
Interpretation:
In the given figure, every region of constructive interference and destructive interference between the HOMO and LUMO is to be labeled.
Concept introduction:
The HOMO-LUMO orbital interaction concept is used to know how the reacting species interact. The electron-rich species is HOMO while the electron-deficient species is LUMO; they determine substantial net overlap in the transition state. When these two orbitals overlap with the same phases, the constructive interference occurs and the reaction is likely to be allowed. When these two orbitals overlap with the opposite phases, the destructive interference occurs and the reaction is likely to be not allowed (or forbidden).
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Chapter D Solutions
Get Ready for Organic Chemistry
- Can the target compound at right be efficiently synthesized in good yield from the unsubstituted benzene at left? ? starting material target If so, draw a synthesis below. If no synthesis using reagents ALEKS recognizes is possible, check the box under the drawing area. Be sure you follow the standard ALEKS rules for submitting syntheses. + More... Note for advanced students: you may assume that you are using a large excess of benzene as your starting material. C :0 T Add/Remove step Garrow_forwardThe following equations represent the formation of compound MX. What is the AH for the electron affinity of X (g)? X₂ (g) → 2X (g) M (s) → M (g) M (g) M (g) + e- AH = 60 kJ/mol AH = 22 kJ/mol X (g) + e-X (g) M* (g) +X (g) → MX (s) AH = 118 kJ/mol AH = ? AH = -190 kJ/mol AH = -100 kJ/mol a) -80 kJ b) -30 kJ c) -20 kJ d) 20 kJ e) 156 kJarrow_forwardA covalent bond is the result of the a) b) c) d) e) overlap of two half-filled s orbitals overlap of a half-filled s orbital and a half-filled p orbital overlap of two half-filled p orbitals along their axes parallel overlap of two half-filled parallel p orbitals all of the abovearrow_forward
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Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning