Active transport/Facilitated Diffusion where energy is used
Equilibrium shifts towards the higher Ka
Yes. This is based on LeChateliers principle
When the concentration increases, the equilibrium shifts away from the substance. Equilibrium is based on the molarity of the reactants. Increasing concentration increases the amount of that reactant in the solution.
when a system is in equilibrium it is stable and all its parts function smoothly
true
If you increase the amount of a substance, the equilibrium shifts away, if you decrease or get rid of something the equilibrium shifts to it, and if the substance that is changed is on both sides then the equilibrium doesn't shift.
Equilibrium shifts towards the higher Ka
Yes. This is based on LeChateliers principle
When the concentration increases, the equilibrium shifts away from the substance. Equilibrium is based on the molarity of the reactants. Increasing concentration increases the amount of that reactant in the solution.
ceteris paribus this would lead to the equilibrium production decreasing, with the price effect depending on the characteristics of the supply relation.
Temperature affects the conversion value in a CSTR in two ways: 1) it should increase the rate of conversion 2) it should shift the equilibrium of the reaction note that in shifting the equilibrium, it shifts the equilibrium of ALL reactions including side reactions which can be suppressed or promoted If the reaction is nearing equilibrium prior to exiting the reactor, the second effect can be very significant. Increasing the rate of conversion could allow faster throughput in the reactor with the same conversion - unless the effect on equilibrium shift is significant
when a system is in equilibrium it is stable and all its parts function smoothly
madarchode machudda
when a system is in equilibrium it is stable and all its parts function smoothly
Le CHAtelier's principle.
Decide which direction the curve shifts
More Reactants will form!!