${H_2}{O_{(g)}} + {C_{(s)}}\, \to \,\,C{O_{(g)}} + {H_{2(g)}}\,:\,\,\Delta H\, = \,\,131$ કિલોજૂલ $C{O_{(g)}} + \,\,\frac{1}{2}\,\,{O_{2(g)}} \to \,\,C{O_{2(g)}}\,:\,\,\Delta H\,\, = \,\, - 282$ કિલોજૂલ 

${H_{2(g)}} + \frac{1}{2}{O_{2(g)}} \to \,{H_2}{O_{(g)}}\,:\,\Delta H\,\, = \,\, - 242\,\,$ કિલોજૂલ

$C_{(g)} + O_2$$_{(g)}$ $\to$ $CO_2$$_{(g)}$ : $\Delta H = x$ કિલોજૂલ 

$2Ag_{(aq)}^ +  + c{d_{(s)}} \to cd_{(aq)}^{2 + } + 2A{g_{(s)}}$

$C _{2} H _{6} \rightarrow C _{2} H _{4}+ H _{2}$

પ્રકિયા એન્થાલ્પી  $\Delta_{ r } H =...........{ kJ\, mol ^{-1}}$.

[આપેલ : બંધ એન્થાલ્પી  $kJ$ $mol$ $^{-1}:C-C : 347, C = C : 611 ; C - H : 414, H - H : 436]$