某燃料电池的反应为 ${{\text{H}}_2}\text{(g)}+\dfrac12{{\text{O}}_2}\text{(g)}={{\text{H}}_2}\text{O(g)}$,在 时的 ${{\Delta }_{\text{r}}}{{H}_{\text{m}}}$ 和 ${{\Delta }_{\text{r}}}{{S}_{\text{m}}}$ 分别为 和 ,则该电池的电动势为( )
A.
$1.\text{2 V}$
B.
$2.\text{4 V}$
C.
$1.\text{4 V}$
D.
$2.\text{8 V}$
298.15K时,反应 (H)_(2)(O)_(2)(1)leftharpoons 2(H)_(2)O(1)+(O)_(2)(g) 的 (Delta )_(r)
Delta (H)_(1)=akJcdot (mol)^-1-|||-反应Ⅱ: (g)+(H)_(2)O(g)leftharpoons C(O)_(2)(g)+
已知298 K时反应:3 ( Fe(s)) + 4 ( H)_2(O(g)) = (Fe)_3(O)_4((s)) + 4 ( H)_2((g))Delta_(
_(2)(H)_(5)OH(g)+(H)_(2)O(g)=2(H)_(2)(g)+C(H)_(2)COOH(g) Delta (H)_(1) K-|||-Ⅱ
判断反应 _(2)(H)_(5)OH(g)=(C)_(2)(H)_(4)(g)+(H)_(2)O(g)-|||-已知 Delta (H)_(m)O(kJ/mol
_(2)(g)+dfrac (1)(2)(O)_(2)(g)=!=!= (H)_(2)O(1) Delta (H)_(2)=-285.5kJ-|||-cdot
已知:( bigcirc (1)C(H)_(5)OH(g)+dfrac (1)(2)(O)_(2)(g)=C(O)_(2)(g)+2(H)_(2)(g) De
反应 (O)_(2)(g)+NO(g)=!=!= (N)_(2)(O)_(3)(g) 的 (Delta )_(r)(H)_(m)^0=-40.5kJcdot (
2.13 已知下列反应在298K时的标准摩尔焓变:-|||-(1) (C)_(2)(H)_(2)(g)+5(O)_(2)(g)=4C(O)_(2)(g)+2(H
4、氨的合成反应可表示为 dfrac (1)(2)(N)_(2)(g)+dfrac (3)(2)(H)_(2)(g)=N(H)_(3)(g) ,在298K时,反