When reacted with concentrated H2SO4, iodine is oxidized instead of being protenated. The redox produces molecular I2 instead of acidic HI.
Butanol and methanol will react in the presence of heat and concentrated H2SO4 to yield methyl butanoate. This reaction is an esterification reaction, where an alcohol and a carboxylic acid combine to form an ester.
Yes it reacts to form Iron(II) sulfate and hydrogen gas
When aqueous H2SO4 and aqueous NaOH react by double replacement, they form water (H2O) and sodium sulfate (Na2SO4) as products. The reaction is H2SO4 + 2NaOH → 2H2O + Na2SO4.
Sulfuric acid is a strong mineral acid with the chemical formula H2SO4. It is colorless, odorless, and highly corrosive in its concentrated form.
In general, copper will not displace hydrogen from water or from acids, but in the case of hot, concentration H2SO4 a reaction will occur with copper. Why? Because hot, concentrated H2SO4 will act as an oxidizing agent to oxidize the copper to copper cation. HCl cannot do this.
Butanol and methanol will react in the presence of heat and concentrated H2SO4 to yield methyl butanoate. This reaction is an esterification reaction, where an alcohol and a carboxylic acid combine to form an ester.
NaOH can react with H2SO4 to form Na2SO4 and water. Ca(OH)2 can react with H2SO4 to form CaSO4 and water. HF can react with H2SO4 to form H2SO4 + HF -> H2O + SO3 + HF + HF, as well as AlCl3O2H2O can react with H2SO4 to form Al2(SO4)3 +H2O. Mg(OH)2 can react with H2SO4 to form MgSO4 and water.
Yes it reacts to form Iron(II) sulfate and hydrogen gas
When aqueous H2SO4 and aqueous NaOH react by double replacement, they form water (H2O) and sodium sulfate (Na2SO4) as products. The reaction is H2SO4 + 2NaOH → 2H2O + Na2SO4.
Sulfuric acid is a strong mineral acid with the chemical formula H2SO4. It is colorless, odorless, and highly corrosive in its concentrated form.
In general, copper will not displace hydrogen from water or from acids, but in the case of hot, concentration H2SO4 a reaction will occur with copper. Why? Because hot, concentrated H2SO4 will act as an oxidizing agent to oxidize the copper to copper cation. HCl cannot do this.
When ethanol is heated in the presence of concentrated H2SO4, it undergoes dehydration to form ethylene gas. This reaction follows an elimination mechanism where a water molecule is eliminated from ethanol to produce ethylene.
The reaction between MgF2 and H2SO4 will produce MgSO4 and HF as products. MgF2 will react with H2SO4 to form MgSO4 and HF through a double displacement reaction.
Propene can undergo electrophilic addition reaction with concentrated sulfuric acid (H2SO4) to form a sulfonic acid. The double bond in propene reacts with the sulfuric acid to form a carbocation intermediate, which then reacts with the sulfate ion of sulfuric acid to yield the final product.
Sulfur does not react with water under normal conditions. However, when sulfur is in the form of sulfur dioxide (SO2) or hydrogen sulfide (H2S), these compounds can react with water to form sulfuric acid (H2SO4) and sulfurous acid (H2SO3) respectively.
They react to form sulphuric acid. 2 SO2 + 2 H2O + O2 → 2 H2SO4
Ethene is an unsaturated compound so adds up one molecule of sulphuric acid and addition product becomes dissolved in acid but ethane is a saturated compound so does not react and dissolves in sulphuric acid.