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The reaction shifts to remove the heat APEX
I think a treadmill is the best example of a non-chemical equilibrium system. A runner runs on a treadmill at the same speed as the tread moves backwards underneath his feet. The position of the runner doesn't change. A stress would be speeding up (or slowing down) the speed of the tread, which would be matched by a change in speed of the runner.
The total number of gas molecules will decrease.
A principle is in fact a set of beliefs, but it is a system that tends to be absolute, as a code of cunduct etc. A "belief" refers to more particular instances
Water vascular system.
All concentrations would change (apex)
The reaction shifts to remove the heat APEX
Le Chatelier's principle says that if a system in chemical equilibrium is disturbed, the system will move in such a way as to nullify that change.
A system of whose equilibrium has been upset will shift to restore equilibrium.
All concentrations would change (apex)
All concentrations would change (apex)
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.
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.
The reaction shifts to remove the heat APEX
The reaction shifts to remove the heat APEX
I think a treadmill is the best example of a non-chemical equilibrium system. A runner runs on a treadmill at the same speed as the tread moves backwards underneath his feet. The position of the runner doesn't change. A stress would be speeding up (or slowing down) the speed of the tread, which would be matched by a change in speed of the runner.