Respuesta :
Answer:
-537.25 kJ/mol is the standard enthalpy of formation of solid glycine.
Explanation:
[tex]4C_2H_5O_2N(s) + 9O_2(g)\rightarrow 8CO_2(g) + 10H_2O(l) + 2N_2(g) ,\Delta H^{rxn} =-3896 kJ/mol[/tex]
Standard enthalpy of formation of oxygen gas= [tex]\Delta H_{f,O_2}=0[/tex]
Standard enthalpy of formation of carbon dioxide= [tex]\Delta H_{f,CO_2}=-393.5 kJ/mol[/tex]
Standard enthalpy of formation of water = [tex]\Delta H_{f,H_2O}=-285.8 kJ/mol[/tex]
Standard enthalpy of formation of nitrogen gas= [tex]\Delta H_{f,N_2}=0[/tex]
Standard enthalpy of formation of glycine = [tex]\Delta H_{f,gly}=?[/tex]
Enthalpy of the reaction = [tex]H_{rxn}=-3896 kJ/mol[/tex]
[tex]H_{rxn} =[/tex]
=[tex] 8\times \Delta H_{f,CO_2} +10\times \Delta H_{f,H_2O}+2\times \Delta H_{f,N_2} - (4\times \Delta H_{f,gly}+9\times \Delta H_{f,O_2})[/tex]
[tex]-3896 kJ/mol=8\times (-393.5 kJ/mol)+ 10\times (-285.8 kJ/mol)+0 - (4\times \Delta H_{f,gly} +0)[/tex]
On rearranging :
[tex]4\times \Delta H_{f,gly}=8\times (-393.5 kJ/mol)+ 10\times (-285.8 kJ/mol)+ 3896 kJ/mol[/tex]
[tex]\Delta H_{f,gly}=\frac{-2149 kJ/mol}{4}=-537.25 kJ/mol[/tex]
-537.25 kJ/mol is the standard enthalpy of formation of solid glycine.
