C-H Bond RH2C-H R2 HC-H H2C=HC-H RHC=HC-H R2C-HC-H RC C-H Ar = aromatic BDE (kJ/

Question

C-H Bond RH2C-H R2 HC-H H2C=HC-H RHC=HC-H R2C-HC-H RC C-H Ar = aromatic BDE (kJ/mol) 422 414 464 464 464 556 BDE (kJ/mol) 372 372 372 372 472 376 376 C-H Bond C-H Bond H3C-H C2H5-H BDE (kJ/mol) 439 422 (H3C)2HC-H 414 (H3C)3C-H 405 405 556 H2C-HC-H2C-H RHC-HC-RHC-H RHC-RC-RHC-H Roc-RC-RHC-H Ar-H Ar-H2C-HH Ar(H3C)HC-H CR3-H R = alkyl Use the above table to estimate the bond dissociation enthalpy (BDE) of each indicated bond in the compound below: CH3 Give the bond energies in kJ/mol Previous BDE A BDE B: 556 BDE C

Explanation / Answer

BDE A: 464

BDE B: 556

BDE C: 376

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