The molecular structures and 1r-bond strengths are determined using both MP2 and MCSCF + CI energies for a series of H2X=YH2 compounds, where X = Ge or Sn and Y = C, Si, Ge, or Sn. These strengths are estimated both by evaluating the rotation barriers and by investigating the appropriate thermochemical cycles. The results show that C > Si ,.., Ge > Sn in their ability to form The molecular structures and 1r-bond strengths are determined using both MP2 and MCSCF + CI energies for a series of H2X=YH2 compounds, where X = Ge or Sn and Y = C, Si, Ge, or Sn. These strengths are estimated both by evaluating the rotation barriers and by investigating the appropriate thermochemical cycles. The results show that C > Si ,.., Ge > Sn in their ability to form The molecular structures and 1r-bond strengths are determined using both MP2 and MCSCF + CI energies for a series of H2X=YH2 compounds, where X = Ge or Sn and Y = C, Si, Ge, or Sn. These strengths are estimated both by evaluating the rotation barriers and by investigating the appropriate thermochemical cycles. The results show that C > Si ,.., Ge > Sn in their ability to form π-bonds.