If actual yield is higher than theoretical yield then it means the required products contains impurities.
A; The amount of product we obtain after a chemical reaction is called yield.There are two types of yield one is actual yield and the other is the theoretical yield .Actual yield is that yield that we obtain originally in a reaction while the theoretical yield is calculated through a chemical equation. Mostly actual yield is less then theoretical yield because of crystallization, filtration,distillation etc
the amount of product obtained over the amount possible multiplied by 100
For any chemical reaction, there is a theoretical yield for the products. The theoretical yield is based on the balanced equation for that reaction. If any of the reactants is present at a lower amount, then your actual yield will be less than the theoretical yield.
All reactants have impurities and those impurities become the limiting factor for the reaction. This means that the actual yield will be lower because there will not be the total measured amount of reactants. Fewer reactants equals lower output.
With 1,5 g of salicylic acid you can obtain theoretically 1,96 g aspirin (acetylsalicylic acid); but in the laboratory (or industry) I remember that the true yield of reaction is a little more than 90 %.
No, competing side reaction is a reson why the actual yield is more than the theoretical yield.
A; The amount of product we obtain after a chemical reaction is called yield.There are two types of yield one is actual yield and the other is the theoretical yield .Actual yield is that yield that we obtain originally in a reaction while the theoretical yield is calculated through a chemical equation. Mostly actual yield is less then theoretical yield because of crystallization, filtration,distillation etc
the amount of product obtained over the amount possible multiplied by 100
For any chemical reaction, there is a theoretical yield for the products. The theoretical yield is based on the balanced equation for that reaction. If any of the reactants is present at a lower amount, then your actual yield will be less than the theoretical yield.
All reactants have impurities and those impurities become the limiting factor for the reaction. This means that the actual yield will be lower because there will not be the total measured amount of reactants. Fewer reactants equals lower output.
Nuclear bomb can mean either fission or fusion bomb. Hydrogen bomb means fusion bomb. The fusion bomb can be built with any yield one wants, just by adding more stages with more fuel. The fission bomb has a theoretical maximum yield that cannot be exceeded.
With 1,5 g of salicylic acid you can obtain theoretically 1,96 g aspirin (acetylsalicylic acid); but in the laboratory (or industry) I remember that the true yield of reaction is a little more than 90 %.
When no more wood is harvested than could be replaced by new planting
Percentage yield is worked out as (amount you got/ amount you could have got) x 100 You should do the calculation in moles so weigh your compound, work out its molar mass and divide the mass by the molar mass to get number of moles. Then you have to work out your maximum theoretical yield - work out how many moles of reactant you started with and check the stoichiometric ratio from your balanced equation to find how many moles you expected to get. In organic reactions a yield of 60% or so is normal. The more steps you went through in your preparation, the lower you would expect your yield to be. Many reactions just do give a low yield anyway, because they are at equilibrium rather than going to completion, like the Haber process.
Practical grammar focuses on how language is actually used in everyday communication, emphasizing spoken language and common structures. Theoretical grammar, on the other hand, is concerned with analyzing language structure and rules in a more abstract and formal manner, often for scholarly or pedagogical purposes.
I do not think so as mitochondria are ancestral to all eukaryotes and produce about 36 ATP per glucose molecule on average. I can not think that the higher yield plant would have more efficient mitochondria as plant yield is tied in with plant reproduction and more resources are given over to this process, not more energy. I could be wrong about this though and if I find anything I will post an amended answer.
a stop sign has 5 more corners than a yield sisn