I am a little unsure of your question. Reactions can't be acidic, but solutions can be.
When HI dissolves it dissociates into ions. (H+ and I-)
An acid is defined as a donor of H+ so HI dissolved in water is acidic
The reaction between sodium iodide and phosphoric acid forms sodium dihydrogen phosphate, hydrogen iodide gas, and water. It is a double displacement reaction where the ions in the reactants swap partners to form the products. This reaction is commonly used in the synthesis of certain organic compounds.
When a solution of hydrogen peroxide and saturated potassium iodide is mixed with washing up liquid, it produces oxygen gas rapidly due to the reaction between hydrogen peroxide and potassium iodide as a catalyst. The washing up liquid helps to trap the oxygen gas in the form of bubbles, creating a foamy reaction.
When bleach is mixed with potassium iodide, it undergoes a redox reaction. The bleach oxidizes the iodide ions to produce iodine, which can be observed as a brown color. This reaction can be used to test for the presence of bleach in a solution.
The formula for hydrogen iodide is HI.
The symbol for Hydrogen iodide is HI.
The products formed from the reaction between hydrogen iodide and sulfuric acid are hydrogen sulfate (H2SO4) and iodine (I2).
The reaction between hydrogen peroxide and iodine produces oxygen gas and water. This reaction is a chemical reaction that involves the oxidation of iodide ions by hydrogen peroxide.
The reaction between hydrogen and iodine to form hydrogen iodide is a synthesis reaction, also known as a combination reaction. In this type of reaction, two or more reactants combine to form a single product.
There will be no reaction between Hydrogen Iodide and sulphuric acid. If the acid are is dilute a soution of both will be formed, if the acid is concentrated these compounds are immiscible. hydrogen iodide and sulphuric acid are actually a product of a reaction (known as the Bunsen reaction) 2H2O + SO2 + I2 → H2SO4 + 2HI
The reaction between concentrated sulfuric acid and solid potassium iodide does not produce hydrogen iodide. Instead, it generates sulfur dioxide gas, potassium sulfate, and iodine. Therefore, this reaction is unsuitable for obtaining hydrogen iodide.
Hydrogen iodide is made by combining hydrogen gas and iodine vapor in a reaction vessel under controlled conditions. The reaction forms hydrogen iodide gas, which can be further purified and isolated through various methods such as fractional distillation.
hydrogen iode because of its 2hydrogen atoms
When hydrogen iodide breaks down, it forms hydrogen gas and iodine vapor. The reaction is reversible, meaning that hydrogen iodide can reform if hydrogen gas and iodine are combined.
In a water, potassium iodide, What_happens_when_you_react_potassium_iodide_with_hydrochloric_acidsolution, heat is absorbed and an endothermic reaction occurs. No physical changes.
Yes, the reaction of hydrogen gas (H2) with iodine gas (I2) to produce hydrogen iodide gas (2HI) is a combination reaction. In this reaction, two elements (hydrogen and iodine) combine to form a single compound (hydrogen iodide).
When hydrogen peroxide and potassium iodide react, the iodide ions catalyze the decomposition of hydrogen peroxide into water and oxygen. The reaction does not result in a visible color change because no new colored species are formed during the reaction.
No reaction occurs between the acidified hydrogen peroxide and the other halide ions, because the hydrogen ions involved in both cases are in the same group. For a reaction to occur it needed to have an element that is more reactive than hydrogen.