3,44 moles H2 react with 1,146 moles NH3. The limiting reactant is hydrogen. O,244 moles N2 remain. 19,5 g NH3 are obtained.
as all the reactants are converted into products and no reactants remain at the end of the reaction
The color of blue litmus in ammonia will remain to be blue . However the color of red litmus will change into blue. This is because of the basic nature of ammonia.
ammonia....'_'
An example of a chemical change where the starting material is used up is the combustion of a piece of paper. When paper is burned, it undergoes a chemical reaction with oxygen in the air, resulting in the production of carbon dioxide, water vapor, and ash. Once all the paper has been completely burned, it is consumed and no longer present.
This single atom remain an atom of krypton !
Concept of limiting reactant is not applicable to the reversible reactions because in these reactions all the reactants are converted into products and no reactants remain at the end of the reaction.
Concept of limiting reactant is not applicable to the reversible reactions because in these reactions all the reactants are converted into products and no reactants remain at the end of the reaction.
as all the reactants are converted into products and no reactants remain at the end of the reaction
In many reactions the original reactants can remain unconsumed. In Chemistry two terms describe these types of situations. Unconsumed reactant is also known as excess reagent. Reagent that is completely consumed before the others is called the limiting reagent.
The color of blue litmus in ammonia will remain to be blue . However the color of red litmus will change into blue. This is because of the basic nature of ammonia.
ammonia....'_'
An example of a chemical change where the starting material is used up is the combustion of a piece of paper. When paper is burned, it undergoes a chemical reaction with oxygen in the air, resulting in the production of carbon dioxide, water vapor, and ash. Once all the paper has been completely burned, it is consumed and no longer present.
Water ice would remain solid in liquid ammonia, because the temperature of the ammonia is well below 0 degrees Celsius, the melting point of ice. At normal atmospheric pressure, ammonia is liquid below minus 33.34 degrees C.
Salt remain as a crystallized residue.
Solids remain as residues.
This single atom remain an atom of krypton !
They remain equal distance from one another