A、NaOH+Na<sub>2sub>CO<sub>3sub> B、NaOH+NaHCO<sub>3sub> C、NaHCO<sub>3sub>+Na<sub>2sub>CO<sub>3sub> D、Na<sub>2sub>CO<sub>3sub>
A、NaOH+Na<sub>2sub>CO<sub>3sub> B、NaOH+NaHCO<sub>3sub> C、NaHCO<sub>3sub>+Na<sub>2sub>CO<sub>3sub> D、Na<sub>2sub>CO<sub>3sub>
A、Na<sub>2sub>CO<sub>3sub> B、NaHCO<sub>3sub> C、Na<sub>2sub>S<sub>2sub>O<sub>3sub>
A、强酸性溶液中Na<sub>2sub>S<sub>2sub>O<sub>3sub>会分解,而且I-也易被空气中氧所氧化 B、强碱性溶液中I<sub>2sub>易挥发 C、强碱性溶液中会吸收CO<sub>2sub>引起Na<sub>2sub>S<sub>2sub>O<sub>3sub>分解 D、强碱性溶液中I<sub>2sub>与Na<sub>2sub>S<sub>2sub>O<sub>3sub>会发生副反应
A、Na<sub>2sub>S<sub>2sub>O<sub>3sub>滴定液可用直接法配制 B、配制时应加入少许Na<sub>2sub>C<sub>2sub>O<sub>3sub> C、配制时应用新沸的冷纯化水溶解和稀释 D、配制好的Na<sub>2sub>S<sub>2sub>O<sub>3sub>溶液应及时标定,以免浓度改变 E、应用棕色瓶保存Na<sub>2sub>S<sub>2sub>O<sub>3sub>溶液,因为日光能促使Na<sub>2sub>S<sub>2sub>O<sub>3sub>分解
A、KMnO<sub>4sub>法测定H<sub>2sub>O<sub>2sub> B、溴酸盐法测定苯酚 C、间接碘量法测定Cu<sup>2+sup> D、用已知准确浓度的Na<sub>2sub>S<sub>2sub>O<sub>3sub>溶液标定I<sub>2sub>
A、H<sub>2sub>SO<sub>4sub>Na<sub>2sub>CO<sub>3sub>BaCl<sub>2sub>HCl B、HClH<sub>2sub>SO<sub>4sub>Na<sub>2sub>CO<sub>3sub>BaCl<sub>2sub> C、Na<sub>2sub>CO<sub>3sub>H<sub>2sub>SO<sub>4sub>HClBaCl<sub>2sub> D、BaCl<sub>2sub>HClNa<sub>2sub>CO<sub>3sub>H<sub>2sub>SO<sub>4sub>
A、中和Na<sub>2sub>S<sub>2sub>O<sub>3sub>的酸性 B、增强Na<sub>2sub>S<sub>2sub>O<sub>3sub>的还原性 C、除去酸性杂质 D、作抗氧剂 E、防止微生物生长和Na<sub>2sub>S<sub>2sub>O<sub>3sub>分解
A、NaHCO<sub>3sub>、NaH<sub>2sub>PO<sub>4sub> B、Na<sub>2sub>CO<sub>3sub>、NaH<sub>2sub>PO<sub>4sub> C、NaHCO<sub>3sub>、Na<sub>2sub>HPO<sub>4sub> D、Na<sub>2sub>CO<sub>3sub>、Na<sub>2sub>HPO<sub>4sub>
A、CO<sub>2sub>+H<sub>2sub>S→CS<sub>2sub>+2H<sub>2sub>O B、CO<sub>2sub>+2S→CS<sub>2sub>+O<sub>2sub> C、CO<sub>2sub>+2H<sub>2sub>S→CS<sub>2sub>+H<sub>2sub>O D、CO<sub>2sub>+2H<sub>2sub>S→CS<sub>2sub>+2H<sub>2sub>O
A、NaOH+Na<sub>2sub>CO<sub>3sub> B、NaHCO<sub>3sub> C、Na<sub>2sub>CO<sub>3sub>+NaHCO<sub>3sub> D、Na<sub>2sub>CO<sub>3sub>