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The number of equations corresponds to the heat of formation at 298K H2(g)+Br2(l)→2HBr(g)C(diamond)+2H2(g)→CH4(g) C(graphite,s)+2H2(g)+12O2(l)→CH3OH(l)H2(g)+12O2(g)→H2O(l) C(graphite, s)+3H2(g)+12O2(l)→C2H5OH(l)12N2(g)+32H2(g)→NH3(g)C(graphite.s)+O2(g)→CO2(g)C(diamond)+12O2(g)→CO(g) ___

Answer» The number of equations corresponds to the heat of formation at 298K
H2(g)+Br2(l)2HBr(g)C(diamond)+2H2(g)CH4(g) C(graphite,s)+2H2(g)+12O2(l)CH3OH(l)H2(g)+12O2(g)H2O(l) C(graphite, s)+3H2(g)+12O2(l)C2H5OH(l)12N2(g)+32H2(g)NH3(g)C(graphite.s)+O2(g)CO2(g)C(diamond)+12O2(g)CO(g) ___


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