It depends on how it reacts. In its dry powder form, if it touches fire you will get noting more than fire and some smoke. In its highly reactive molten form, however, contact with anything that contains carbon, sugar for example, will cause atom rearrange-ment that produces Carbon Dioxide, Potassium Chloride, Oxygen, and Water.
Potassium Chlorate, when heated gives Potassium Chloride and Oxygen. You can use Manganese Dioxide as a catalyst to speed up the reaction.
Potassium chlorate can be decomposed into potassium chloride and oxygen gas when heated. The chemical equation for this reaction is 2KClO3(s) → 2KCl(s) + 3O2(g).
The name of the compound with the formula KClO3 is "potassium chlorate".
The formula for potassium chlorate is KClO3.
36.62
The reaction between potassium chlorate and oxygen gas generates potassium chloride and oxygen gas. Therefore, the amount of potassium chlorate produced from the reaction is equal to the amount of potassium chlorate that was used, which is 500 grams.
When potassium chlorate is heated, it decomposes into potassium chloride and oxygen gas. This reaction is used to produce oxygen gas in the laboratory.
The reaction shown is a decomposition reaction where potassium chlorate (KClO3) breaks down into potassium chloride (KCl) and oxygen gas (O2). This type of reaction occurs when a compound breaks down into simpler substances.
Potassium Chlorate, when heated gives Potassium Chloride and Oxygen. You can use Manganese Dioxide as a catalyst to speed up the reaction.
Oxygen gas is evolved when potassium chlorate is heated. The thermal decomposition of potassium chlorate releases oxygen gas, leaving behind potassium chloride as a residue. This reaction is commonly used in oxygen-generating experiments and processes.
KClO3 - KCl + O2
2KClO3 ----> 2KCl + 3O2
Despite that potassium chlorate catches on fire when it gets heated in the open, if you put it in a test tube and heat that, instead of burning it will melt into molten form, and this stage of potassium chlorate is extremely reactive, any contact with anything combustible like sugar would cause combustion of it. This is the basis for the famous gummy bear and potassium chlorate experiment. The sugar in the gummy bear would combust on contact with the molten potassium chlorate, resulting in an violent reaction.
When potassium chlorate is heated, it decomposes into potassium chloride and oxygen gas. This reaction is highly exothermic and can be accelerated by adding a catalyst such as manganese dioxide. The released oxygen gas can support combustion, making potassium chlorate a common ingredient in fireworks and matches.
Potassium chlorate is KClO3
The valencies of Potassium hypochlorite, Potassium chlorite, Potassium chlorate, and Potassium perchlorate are +1, +1, +1, and +1 respectively for the potassium ion. The hypochlorite, chlorite, chlorate, and perchlorate anions have valencies of -1, -1, -1, and -1 respectively.
The name of the compound with the formula KClO3 is "potassium chlorate".