2KClO3 ---(MnO2)---> 2KCl + 302
**The MnO2 goes over the arrow.
2KClO3 + HEAT = 2 KCl + 3 O2
2KClO3 => 2KCl + 3O2
2KClO3 ----> 2KCl + 3O2
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2 KClO3 ------ 2KCl + 3O2 so 2 moles of KClO3 produces two mole of KCl. Therefore 0.440 moles of potassium chlorate will produce 0.44 moles of KCl - potassium chloride.
KOH + HCl -> KCl + H2O Produces a salt, potassium chloride, and water.
fuel
It produces Potassium nitrate and Lead iodide
When flame tested, Sodium ions range from a yellow to a bright orange flame and Potassium ions give a lilac or light purple flame. Neither the Sulphate nor the Chloride ions should have emission spectra in the visible range.
This reaction is:2 KClO3 = 3 O2 + 2 KCl
2 KClO3 ------ 2KCl + 3O2 so 2 moles of KClO3 produces two mole of KCl. Therefore 0.440 moles of potassium chlorate will produce 0.44 moles of KCl - potassium chloride.
KOH + HCl -> KCl + H2O Produces a salt, potassium chloride, and water.
fuel
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 is essential for plant nutrition and used in fertilizer. Agriculture uses most of the world's production. As a nutrient it is also essential for human life. Potassium chloride can be used as table salt. It is available through foods such as tomatoes, beans, potatoes, bananas and others. Potassium chemicals are used in soap, the manufacture of TV's, in bleaching and in explosives. It also reacts violently with water and produces hydrogen. Potassium Chloride is used in the US for executions by lethal injection
Potassium produces a lilac flame
It produces Potassium nitrate and Lead iodide
Potassium permanganate with hydrogen peroxide produces more pure oxygen than potassium permanganate solution with C12H22O11.
It produces Iodine and other Potassium salt (depending on the oxidizer)
When flame tested, Sodium ions range from a yellow to a bright orange flame and Potassium ions give a lilac or light purple flame. Neither the Sulphate nor the Chloride ions should have emission spectra in the visible range.
It can be argued it does as Potassium is a silvery gray metal. When reacted with water it produces colorless Potassium Hydroxide and colorless hydrogen gas.