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It turns blue due to the fact that youre diluting it with water which in turn reduces its concentration. This effects greatly Le chateliers principal because, redusing concentration, which is a factor in Le Chatelier, shift the equilibrium to the left, whch makes the solution blue.
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The concentrations of reactants and products are modified.
No, this is not necessarily.
The system will rebalance.
All concentrations would change (apex)
A reaction at equilibrium will respond to balance a change - apex (Explanation): The answer is NOT "a new equilibrium ratio will form", because although this is true, it will not necessarily always happen and is not what le chatelier's principle is about. His principle focuses on the reaction changing to cancel out or balance the change in equilibrium. Therefore, this is the correct answer.
I suppose that the principle of Le Châtelier is not applicable in this case.
Le Chetalier's principle predicts a system at equilibrium will change to adapt. If more products are added, the system will react to tend to negate that change, so more reactants would form.
A reaction at equilibrium will respond to balance a change - apex (Explanation): The answer is NOT "a new equilibrium ratio will form", because although this is true, it will not necessarily always happen and is not what le chatelier's principle is about. His principle focuses on the reaction changing to cancel out or balance the change in equilibrium. Therefore, this is the correct answer.
The movement of molecules at equilibrium is determined by Le Chatalier's principle. This basically says that if you change a reaction to favour one side, the equilibrium will try and counteract this change. The three things that can affect an equilibrium is temperature, pressure and concentration.
It turns blue due to the fact that youre diluting it with water which in turn reduces its concentration. This effects greatly Le chateliers principal because, redusing concentration, which is a factor in Le Chatelier, shift the equilibrium to the left, whch makes the solution blue.
All concentrations would change (apex)
All concentrations would change (apex)
To predict is to say what will happen or what you think will happen.
What all the ideal non-real conditions of the Hardy-Weinberg equilibrium predict; no evolution takes place. Mating is assortative, non-random in the real world and sexual selection is at work when assortative mating takes place, thus evolution.
Adding NO to the system at equilibrium would increase the concentration of the NO product. According to Le Chatelier's principle, the system will counteract this change by producing more of the reactants, N2 and O2.