I suppose that the principle of Le Châtelier is not applicable in this case.
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.
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.
I predict that an ion of sodium will have a charge of plus one.
A wave does not have a discrete position, it has an area, a line defining its location maybe, but never a point. You can say that a wave has a focus point (a circular wave has a center) but such a point is not where any part of the wave is - where it was maybe - but not where it now is.The fact that an electron is a wave (we may think of it as one in certain circumstances) ensures that it does not have a definite position.
The shape of the molecule.
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.
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.
In chemistry, Le Chatelier's Principle, also called the Le Chatelier-Braun principle, can be used to predict the effect of a change in conditions on a chemical equilibrium. The principle is named after Henry Louis Le Chatelier and Karl Ferdinand Braun who discovered it independently. It can be summarized as:If a chemical system at equilibrium experiences a change in concentration, temperature, volume, or total pressure, then the equilibrium shifts to partially counter-act the imposed change.It is common to take Le Chatelier's principle to be a more general observation, roughly stated: "Any change in status quo prompts an opposing reaction in the responding system." This principle also has a variety of names, depending upon the discipline using it. See for example Lenz's law and homeostasis.In chemistry, the principle is used to manipulate the outcomes of reversible reactions, often to increase the yield of reactions. In pharmacology, the binding of ligands to the receptor may shift the equilibrium according to Le Chatelier's principle thereby explaining the diverse phenomena of receptor activation and desensitization
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.
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.
Causality
Using partial differential equations, you can estimate how long it will take to get within some difference between equilibrium and near-equilibrium. The mathematics predict that it will take infinite time to reach complete equilibrium, but for us humans we can settle for some difference that is so close as to make no difference to us.
Archimedes Principle
Using records of flood patterns to predict future flooding.
Barometers measure air pressure, and can be used to predict weather conditions
The uncertainty principle was developed by Werner Karl Heisenberg.
In genetical experiments the principle of probability is used to predict the results at !% and 5% probability levels. If a particular character appears in 95 plants out of 100, it is considered as a significant character to be inherited. For reaching more accuracy it may be tested at 1% level.