The reaction equation between ethene and liquid Bromine is: CH2 = CH2 + Br2 → CH2 Br2 CH2 Br. Read more exciting novels for free
The addition reaction between ethene and pure liquid Bromine occurred. During the reaction, the weaker bond between the double bonds between ethene CH ^=CH ^was broken, and the addition of the two Bromine atoms formed CH ^Br-CH ^Br-CH ^Br1 (1,2 -dibromoether). The reaction type was the addition reaction of alkene. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
Under the effect of the laser, it was a free radical reaction. During the reaction, the ring and hydrogen would undergo homolytic cracking, producing hydrogen free radical and aromatic free radical. The hydrogen free radical would react with the ethene to form an ethvl free radical, which would then combine with the aromatic free radical to form the ethvl radical. The reaction equation was: aromatic ring (C H)+ ethene (CH Chi =CH Chi) → Sword ether (C H- CH Chi CH). The reaction phenomenon was not specifically mentioned in the information provided, so it was impossible to give an accurate answer. <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 reaction of sulfuric acid (HNO2) and soda ash (NaOx) will produce NaNO2 and water (H ^O). The chemical equation is: HNO2 + NaOx = NaNO2 +H ^O. This was a typical alkali-base neutralizing reaction. The hydrogen ions (H) from the ionisation of sulfuric acid combined with the hydrogen ions (H) from the ionisation of sulfuric acid to form water. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The chemical equation for the reaction of ethene and benz to produce methylethlene was C6H6 + CH2 = CH2 → C6H5-CH2-CH3. The least common multiple method could be used to balance the reaction equation: 1. First, find the element with the largest number of atoms on the left and right ends of the reaction formula. You can choose carbon or hydrogen atoms here. - Taking carbon atoms as an example, before the reaction, there were 6 carbon atoms in the aromatic ring, 2 carbon atoms in the ethene, and a total of 8 carbon atoms. After the reaction, there were also 8 carbon atoms in the graphene. - For the hydrogen atom, there were 6 hydrogen atoms in the aromatic ring before the reaction, 4 hydrogen atoms in the ethene, and a total of 10 hydrogen atoms. After the reaction, there were 10 hydrogen atoms in the graphene. 2. Because the number of carbon and hydrogen atoms before and after the reaction was equal, the equation had been balanced. If the odd-number mating method is used (this reaction is not very typical, but it can be analyzed according to the principle): 1. Observing the number of atoms on both sides of the equation, it was not easy to find the typical odd-numbered spouse in this reaction. - This was because the total number of carbon and hydrogen atoms on both sides of the reaction formula was an even number. - From the perspective of chemical bonds, the combination of the double bond break of ethene and the bond break on the aromatic ring was consistent with the conservation of atoms before and after the reaction from the perspective of atomic number. There was no need for complicated odd-even balancing adjustments. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
At room temperature, the reaction between liquid Bromine and carbon dioxide will produce NaBr2, carbon dioxide, and water. The reaction equation is: liquid Bromine + Na2CO3 → NaBr2 + carbon dioxide + water. The reaction process was that the Bromine ion in the liquid Bromine and the Na ion in the Na2CO3 had an ion exchange reaction to form NaBr2, the hydrogen ion in the liquid Bromine and the hydrogen ion in the Na2CO3 combined to form water, and the hydrogen ion in the Na2CO3 combined with the hydrogen ion in the liquid Bromine to form carbon dioxide. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
1. In an aluminum-Ni battery (negative pole-Al. positive pole- Ni. Electrolyte-NaCl-solution, O2), the chemical equation of the negative pole reaction is: 4Al12e- = 4Al3 +. 2. In a magnesium-aluminum battery (negative electrode-aluminum, positive electrode-aluminum, and an eletrolyte-lithium ion battery), the reaction of the negative electrode-aluminum battery was: Al3e +40H (-) = Al40H (-). <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The main reaction of tempering steel was to let carbon and oxygen react to form carbon dioxide, thereby reducing the carbon content. The chemical equation of the reaction was: C + O <2>= ignition <2>= CO. The principle was that the main difference between pig iron and steel was the carbon content. The carbon content of steel was low, and the carbon in pig iron was reduced through this reaction to refine steel. At the same time, the iron-making reaction, Fe2 O2 + 3CO2 = 3CO2 + 2Fe2, was also a process that precluded the steel-making reaction, because steel-making was carried out with pig iron as the raw material.
The reaction between ethene and ben to form ethlene was a free radical reaction under the effect of the laser. During the reaction, a homolytic crack occurred between the ben ring and hydrogen, producing hydrogen free radical and ben free radical. The hydrogen free radical reacted with ethene to form an ethvl free radical, which then combined with the ben free radical to form ethlene. The reaction equation was: C H + ethene (C H) → methylethlene (C H). Phenomenologically speaking, no hydrogen was produced during the reaction. The double bond of the ethene was opened, and one end was connected to the aromatic ring. A hydrogen was removed from the aromatic ring, and this hydrogen was connected to the other end of the ethene. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The reaction equation between aluminum and water is: 2AI +6H ^O = 2AI (Ox)+3H ^. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>