2 H2O2 (aq) ---> 2 H2O (g) + O2 (g)
combustion
A gas as carbon dioxide is easily expanded by heating; hydrogen peroxide is decomposed.
When Hydrogen Peroxide (H2O2) is heated, it produces water (H2O) and Oxygen (O2). The chemical reaction is: 2 H2O2 + heat ---> 2 H2O + O2
Bromthymol Blue, when heated in a solution, indicates carbon dioxide. If there is carbon dioxide in the solution, it will turn bright yellow (when heated).
Supersatured.
H2o2 --> h20 + o2
It means that the concentration of the peroxide is such that for every 1mL of hydrogen peroxide solution, 100mL of oxygen will be produced if fully reduced, catalyzed, exposed to light, heated or decomposed in any manner to the fullest extent. The fullest extent means the end point where every molecule of hydrogen peroxide releases one oxygen atom, and is converted into water.
combustion
A gas as carbon dioxide is easily expanded by heating; hydrogen peroxide is decomposed.
When Hydrogen Peroxide (H2O2) is heated, it produces water (H2O) and Oxygen (O2). The chemical reaction is: 2 H2O2 + heat ---> 2 H2O + O2
The reaction of decomposition is:2 H2O2===========>2 H2O + O2
ko9 l0
Sodium carbonate would be deposited at the bottom of the solution.
Hydrogen Peroxide (H2O2) is a clear, colorless, inorganic liquid with an acidic pH. Because of the complete solubility of Hydrogen Peroxide in water, solutions of a wide range of concentrations can be made. The amount of H2O2 present is expressed as a percent of the solutions weight. Thus, ten pounds of a 35% solution contains 3.5 pounds of Hydrogen Peroxide and 6.5 pounds of water. Under normal conditions, Hydrogen Peroxide is extremely stable with demonstrated losses of less than 1% per year under ambient conditions. Heat and oxygen are generated during peroxide decomposition and even abnormal decomposition is easily handled by properly designed storage and handling systems. However, if severe contamination occurs or the solution is heated to extremely high temperatures, relieving devices may not be able to dissipate the volume of gas generated and the system may be overpressured. Hydrogen Peroxide is not considered explosive, but explosive vapors can be formed when peroxide is mixed with certain organic materials. In addition, Hydrogen Peroxide is not flammable, but does generate large amounts of oxygen during decomposition that supports combustion.
i think it's a combustion reaction because heat is involved. hope it's right
the water will be heated and electrolysed to give hydrogen and oxygen gases
No, a heated solution will saturate faster.