You did not describe the amount of potassium bicarbonate amount in grams in your question.
But if you are about 1 gram of potassium bicarbonate it will be 0.0099 moles in one gram of potassium bicarbonate. 0.0199 moles in 2 grams of potassium bicarbonate.
there are two moles produced in potassium nitrate.
224 grams of Oxygen will be in 2 moles of Potassium dichromate.
I believe it is Potassium Hydride. I believe it is Potassium Hydride.
2KClO3 --> 2KCl + 3O2For every 3 moles of oxygen gas produced, 2 moles of potassium chlorate are used.6 moles O2 * (2 moles KClO3 reacted / 3 moles O2 produced) = 4 moles KClO3
First write a balanced chemical equation: 2K + Br2 ---> 2KBR Find the limiting reactant by using the moles of each element and determining which one gives you the smallest number of moles of potassium bromide. 2.92 mol K (2 mol KBr/2 mol K)= 2.92 mol KBr 1.78 mol Br2 (2 mol KBR/1 mol Br2)=3.56 mol KBr potassium is your limiting reactant so the max. number of moles of KBr that can be produced is 2.92 mol of KBr
12 g of potassium is equivalent to 0,307 moles.
there are two moles produced in potassium nitrate.
34,7 moles of potassium 1 356,7 g.
Potassium bicarbonate has ionic bonds.
Four moles of potassium chlorate are needed.
We need 3 moles of potassium perchlorate.
A solution of potassium bicarbonate can be used as fungicide.
The answer is 1 mole potassium chlorate.
No
Since molecules of potassium contain only single potassium atoms, molecules of iodine contain two atoms, and moles of potassium iodide contain one atom of each element, 2.5 moles of iodine are needed to react completely with 5 moles of potassium.
224 g are in two moles of potassium dichromate.
25,3 moles of potassium sulfate hva a mass of 4,4409 kg.