... atoms of at least one other element than the one that is split.
Not at all. Just be consistent with the units of both actual and theoretical yield.
In this case the yield is 77,27 %.
Per the Haber process, increasing the pressure moves the equilibrium position to the right, increasing the yield.
math
Calcium chloride when mixed with ammonium and applied to the soil will increase the absorption of nitrogen by the plant increasing yield from 14 to 15%. This can be applied with a spread as part of the fertilization process.
in the haber process its yield is increased by increasing presure
Glycolysis is a 10 step enzymatically catalyzed reaction which splits up a glucose molecule into two molecules of pyruvate. The process of glycolysis can occur in absence of oxygen. A net yield of 2 ATP is obtained at the end of gylcolysis for every molecule of glucose oxidized.
The purpose of yield management is to maximize profits by anticipating the behavior of consumers. Additional information about yield management can be found on Wikipedia.
Example= Yield to the lord Example 2= the yield sighn
What suggestion would you suggest for a farmers to have a good yield?
If you work it beyond the yield point then you raise the yield point in a process called strain hardening
Not at all. Just be consistent with the units of both actual and theoretical yield.
Although there are special cases such as burning hydrogen in a chlorine atmosphere without oxygen, what you and I would normally call burning is exothermic (i.e. releasing heat) oxidation. The result of burning is therefore a compound (most commonly oxide), not an element.There is a reverse process called reduction where the oxygen is removed from the compound, often at high temperatures. This process can in theory yield a pure element from an oxide. Note though that this is not burning as the heat has to be supplied to the reaction externally (endothermic reaction).
It depends upon what elements X and Y are, but under certain circumstances, it could yield compound XY.
A limiting factor is the factor that stops a process from proceeding as quickly as it could. A limiting factor sets the overall rate of a process. For example, if you are growing crops, increasing the amount of oxygen would increase the yield. The oxygen would be the limiting factor in this case - if there was more of it, the yield of crops will increase, but if there's a lack of it, the yield of crops can't increase, even if you improve other conditions e.g. increase CO2
Haber's process
In this case the yield is 77,27 %.