When aluminum is in a high temperature state (for example, when aluminum is a high-temperature molten aluminum or a high-temperature melt), it comes into contact with water. Water will be decomposed into hydrogen and oxygen, and aluminum will combine with the hydrogen ions in the water to form aluminum dioxide. The reaction equation is 2AI +6H <2> O = 2AI (OR)+3H <2>. In addition, water decomposed into hydrogen and oxygen at high temperatures. When the hydrogen and oxygen reached the critical point of mixing, an explosion could occur. At the same time, aluminum had a strong chemical affinity for oxygen, and a large amount of high-temperature aluminum and oxygen could instantly combine to cause a big explosion. Read more exciting novels for free
The reaction equation of aluminum and water is: 2AI +6H2O ==(heating) 2AI (Ox)3+ 3H2 (boiling water); the reaction equation of aluminum and soda is: 2AI +2NaOx +2H2O = 2NaAlO2 + 3H2. There is also an equation for the reaction of aluminum and soda: 2AI +2NaOx +6H2O → 2Na [AI (Ox)4] +3H2. <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>
The reaction between aluminum and iron dioxide (thermit reaction) experiment was as follows: ** 1. Experimental Materials ** Materials such as aluminum powder, iron dioxide, aluminum strip, alcohol lamp, paper funnel, iron frame, etc. were required. ** 2. Experimental Steps ** 1. A small amount of dried iron dioxide and an appropriate amount of aluminum powder were evenly mixed and placed in a paper funnel. A small amount of potassium peranate solid was added to the mixture, and a piece of magnetite strip that had been polished with sandpaper was inserted in the middle (the polishing was to remove the oxide-film on the surface of the magnetite strip for ignition). 2. He ignited the magnum strip. ** 3. Experimental Phenomenon ** 1. It immediately reacted violently. 2. It gave off a dazzling light and produced a large amount of smoke. 3. The paper funnel was burnt. 4. Some red-hot liquid beads fell onto the fine sand in the evaporating dish. After the liquid beads cooled down, they turned into a black solid. ** 4. The chemical reaction equation ** Fe2 O2 + 2Al2 = high temperature = Al2 O2 + 2Fe2. This reaction was a replacement reaction and a reduction reaction. There was no catalyst involved in the reaction. ** 5. Points to note ** 1. The paper funnel inside the glass funnel should be thicker and moistened with water to prevent damage to the funnel. 2. The evaporating dish should be lined with a suitable amount of fine sand to prevent the evaporating dish from exploding and to prevent the molten liquid from splashing out and hurting people. 3. The experimental equipment should not be too close to people to prevent them from getting injured. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
Aluminiothermic reaction was a kind of oxide-reduction reaction between aluminum and metal or non-metal compounds at high temperatures. Aluminiothermic reaction was an exhaling reaction, and its heat release was very large, usually enough to heat the product above the melting point, and the reaction could generally occur locally and be self-sustaining. This characteristic also reflected the energy-saving characteristics of the reaction. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
Allergy reactions are caused by some people being overly sensitive to the substances (allergens) they come into contact with. When a sensitive individual comes into contact with a foreign, harmless substance (an allergy), the immune system will overreact and the body will produce a type of protein specific to the allergy. These IgE-bound to the high-affinity receptor on mast cells and basophils. When the allergy entered the body again and met with these bound molecules, the form of the immune receptor would change from a dimmer to a monolith. This change in form would lead to the exposure of the protein sites of the relevant signaling pathways, which would activate the downstream signaling pathways, causing allergic reactions such as vasodilation and bronchiectomy. In severe cases, it could cause allergic shock. In an allergic reaction, the affected organs or tissues will be infiltrated by a large number of inflammatory cells (especially those that are not activated), and a high concentration of IgE will appear in the serum. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The reaction between carbon and silica at high temperatures was as follows: SiO2 + 2C = high temperature = Si +2CO1. A summary of the reaction phenomenon: - From the perspective of material change, the reagents SiO2 and carbon (C) react at high temperatures to produce Si and carbon dioxide (CO) gases. - Due to the formation of gas, the phenomenon of gas escaping may be observed during the reaction process. However, the reference materials did not explicitly mention the color and state changes of the solid reagents or products during the reaction process. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The following is related to the experiment of the reaction between magnesium-aluminum and oxygen: ** 1. Reaction between Magnesium and oxygen ** 1. ** Reaction Phenomenon ** - When it burned in the air, it would release heat and emit a dazzling white light, forming a white solid. - The reaction was more intense in oxygen than in air. 2. ** chemical equation **:<2MG + O_{2}><stacking>{=<<=<<=>>>=<>>2MgO\) 3. ** Points to note in the experiment ** - Due to the intense combustion of the titanium, safety must be paid attention to during the experiment and a certain safe distance must be maintained from the titanium. - When burning, it will produce a strong light, which may cause damage to the eyes, so don't look directly at the burning magnetite. ** 2. Reaction between aluminum and oxygen ** 1. ** Reaction Phenomenon ** - When aluminum reacted with oxygen in the air, a layer of dense aluminum dioxide film would be formed on the surface of the aluminum. This film would prevent the aluminum from being further oxided, so the reaction between aluminum and oxygen in the air was not so intense. The surface of the aluminum gradually lost its metallic luster. - If the aluminum foil was heated in oxygen, the aluminum foil would melt, but it would not drip. This was because the melting point of the aluminum dioxide film was very high, and it would hold the molten aluminum and emit a dazzling light during the reaction. 2. ** chemical equation **:<4AI +3O_{2} = 2AI_{2}O_{3}> 3. ** Points to note in the experiment ** - When conducting the experiment of heating the aluminum foil in oxygen, the purity and sufficient supply of oxygen must be ensured. - When heating the aluminum foil, use a suitable heating tool, such as an alcohol lamp, and heat it evenly. ** 3. Experimental design (Comparing the reactions of oxygen with aluminum and aluminum)** 1. ** Experiment Purpose ** - Comparing the intensity of the reaction between aluminum and oxygen, the reaction products, and so on. 2. ** Experiment Steps ** - He took a suitable amount of aluminum foil and a suitable amount of aluminum strip, and polished them to make them bright (to remove the thin film of oxygen on the surface). - Heat the aluminum foil and the aluminum strip separately over the flame of an alcohol lamp (or ignite them in a gas collector filled with oxygen). - Observe and record the intensity of the reaction between the two (such as the reaction of the aluminum strip is more intense, emitting a dazzling white light; the surface of the aluminum foil gradually changes when heated, and it will also emit light when ignited in oxygen, etc.), and the phenomenon during the reaction (such as the combustion of the aluminum strip to form a white solid, the formation of a white aluminum dioxide film on the surface of the aluminum foil, etc.). - After the reaction, the reaction product was analyzed (it could be judged by physical properties such as color and state, or it could be further analyzed by chemical methods). 3. ** Experiment result analysis ** - Based on the intensity of the reaction, it could be judged that the reaction between oxygen and titanium was easier than that of aluminum. - Through the analysis of the reaction products, it could be determined that the reaction between the oxygen and the aluminum formed the aluminum dioxide. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
When there was a small amount of oh-ions, the chemical equation of the reaction between aluminum ions and oh ions was: Al3 ++3OH - =Al(OH)3; when there was an excess of oh-ions, the chemical equation of the reaction between aluminum ions and oh ions was: Al3 ++4OH - = AlO2-+2H2O. When a small amount of oh-ions gradually becomes excessive, the chemical equation of the reaction between aluminum ions and oh ions is: AI (OH)3+OH - = AlO2-+2H2O. The ion equation for the reaction of aluminum with water is: 20H- +2Al+2H2O→ 2AlO2-+3H2. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>
The principle of the reaction between biuret and protein was that biuret could react with copper sulfuric acid to form a purple substance. This might be caused by the peptidic bond structure in the biuret molecules. The nitrogen atom of the peptidic bond would form a purple complex with Cu2 + ions. Because there was also a peptidic bond structure in the protein, such a reaction would also occur. We called the purple reaction between the compound containing the peptidic bond structure and copper sulfuric acid solution "biuret reaction". In other words, as long as the molecules contained a peptidic bond, this characteristic purple reaction would generally occur. It wasn't that biuret reacted directly with the protein, but the reaction between the peptidic bond in the protein and copper ions. It was the same reaction type as biuret and copper ions. It was a " biuret reaction." When carrying out experiments related to the biuret reaction, biuret reagent A was a strong base, and biuret reagent B was copper sulfuric acid. When using it, add A to the protein solution first, shake it up, and then add B. Strong base and copper sulfuric acid can denature the protein, but this does not affect the purple reaction, because the essence of protein degeneration is that the spatial structure is destroyed, causing it to settle and lose its physiological activity. However, the bond structure and the sequence of the protein chain are generally not destroyed. <a href="/?from=ask_words" style="color:red" target="_blank">Read more exciting novels for free</a>