1. **硫与铁反应** - 方程式:\(Fe + S \stackrel{\triangle}{=\!=\!=} FeS\)(硫化亚铁,黑褐色) - 现象:反应剧烈,生成黑褐色固体。 2. **硫与铜反应** - 方程式:\(2Cu+S \stackrel{\triangle}{=\!=\!=}Cu_{2}S\)(硫化亚铜,黑色) - 现象:有黑色固体生成。 3. **硫与汞反应** - 方程式:\(Hg + S=\!=\!= HgS\)(硫化汞,黑色) - 现象:常温下迅速反应,生成黑色固体。 4. **硫与氢气反应** - 方程式:\(H_{2}+S \stackrel{点燃}{=\!=\!=}H_{2}S\) - 现象:有臭鸡蛋气味的气体生成。 5. **硫与氧气反应** - 方程式:\(S + O_{2}\stackrel{点燃}{=\!=\!=}SO_{2}\) - 现象:有刺激性气味的气体生成。 6. **硫与热的碱溶液反应** - 方程式:\(3S + 6NaOH \stackrel{\triangle}{=\!=\!=}2Na_{2}S+Na_{2}SO_{3}+3H_{2}O\)(离子方程式为\(3S + 6OH^{-}\stackrel{\triangle}{=\!=\!=}2S^{2 -}+SO_{3}^{2 -}+3H_{2}O\)) - 现象:无明显特殊现象(溶液中的反应,反应后溶液成分发生改变)。 点击前往免费阅读更多精彩小说
Under heating conditions, elemental sulfur and elemental sulfur can react violently and release a lot of heat. The reaction equation is: Mn + S = Mn (heating). The resulting Mn is a white or reddish-brown hexagonal crystal or powder. It can be dissolved in acid and phosphorus trichosphate. It will decompose in cold water to produce Mn (III) and Mn (III). It will decompose in hot water to produce Mn (III) and Mn (III). In cold and concentrated sulfuric acid, sulfur will be separated. In addition, when the combustion of sulfur dioxide was similar to the combustion of carbon dioxide, it would produce magnesium and elemental sulfur. However, the generated sulfur could continue to react with the combustion of sulfur to produce sulfur. The reaction condition was ignition. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
When oxygen meets sulfur, it will react and release a lot of heat. For example, when the reaction between hydrogen sulfureted and oxygen was small, it would produce sulfur and water. The chemical equation was [O2 + 2H2S = 2S +2H2O]. When the oxygen was excessive, it would produce sulfur dioxide and water. The chemical equation was [3O2 + 2H2S = 2SO2 + 2H2O]. Sulfides in the sulfurous waste water of oil refineries (usually in the form of Na salt or NH4) react with oxygen in the air as follows: <2HS^-+ O2 → SO4 ^{2 -}+ H2O>,<2S +2O2 + H2O → SO4 ^{2 -}+2Ox ^->,<SO3 ^{2 -}+ O2 + Ox ^-→ 2SO4 ^{2 -}+ H2O>. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The reaction of the reaction between the two metals was as follows: Mn + H ^SO2 = Mn ^SO2 + H ^^; the reaction of the reaction between the two metals was as follows: Mn + 2 ^H ^SO2 = Mn ^SO2 + 2 ^H ^O + Mn ^. If there is an excessive amount of copper, it will first occur as: Mn +2H ^SO2 (concentrated)= Mn ^SO2 + Mn ^O, and then as: Mn + H ^SO2 (diluted)= Mn ^SO2 + Mn ^O. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
During the reaction between the two, the original color of the solution would fade. Before the reaction, the solution may be purplish-black (elemental iodines are purplish-black crystals). Due to the oxidisation of iodines, it will undergo an oxido-reduction reaction with the reducing sodium-thionate (I <2>+2Na <2> S <2> O <2>= 2NaI+Na <2> S <2> O <2>). During the reaction, the iodines will be reduced, and the color of the solution will gradually fade until it disappears. If the solution was purplish-red due to air before the reaction, the purplish-red color would fade after the reaction. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
1. According to Markovnikov's rule, the bonus was: <CH3- CH = CH2 + B2H6> 2. Alcohol formed after the decomposition: <CH3- CH(B2H5)-CH3 + H2O> <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
Under the high temperature smelting conditions, the matte-making reaction can be expressed as: (FeS)+(Cu2O)=(FeO)+(Cu2S), the reaction's Gibbs free energy change is? G0 = -144750+13.05T (J), and the equilibrium constant lgK of the reaction at 1250 ° C is 9.86, indicating that the reaction is rapidly moving to the right at the smelting temperature. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The chemical equation for the reaction between nitrogen (N ^) and lithium (Mn ^) is: <br><br> 3 Mn + N ^<br> stack rel {ignite}{=<br>=<br>Mg₃N₂\)。 <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
1-The equation for the reaction of 2-Bromopropan in the presence of Na ethanate is: CH CH2 CH2 Br2 + EdONa → CH CH= CH2. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
When there is insufficient Cl2, the chemical equation of the reaction is: 3Cl2 + 6FeBr2 == 4FeBr2 + 2FeCl2; when there is excessive Cl2, the reaction equation is: 2FeBr2 + 3Cl2 == 2FeCl2 + 2Br2; when Cl2 and FeBr2 react at a ratio of 1:1, the chemical equation is: 6FeBr2 + 6Cl2 == 4FeCl2 + 2FeBr2 + 3Br2. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The reaction equation for the production of Butyl Acetic Acid from Butanol is: CH3COON + C4H90H → CH3COOC4H9 + H2O. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>