* forward rate = reverse rate
* constant environmental conditions (e.g.: T, P, etc.; otherwise, Le Chatelier's Principle comes into effect)
* closed system
When thermal equilibrium is reached.
equilibrium relates to the body systems becuase, the body has to maintain homeostasis. Which means that equilibrium has reached in your body.
Yes. When dynamic equilibrium is reached.
equilibrium
C2H3O2-(aq) H+(aq) H3O+(aq) OH-(aq) HCN(aq)Those are the choices that could be given, but the answer is HCN. It can't be H+ or OH- because the water is de-ionized and H3O+ is not possible.
Equilibrium solubility is how much of a certain solute is in solution when the system has reached equilibrium. For example, when something like silver chloride (AgCl) is placed in water, none of it goes into solution. But given some time, an equilibrium will be reached where a small amount of AgCl is in solution and is in equilibrium with the insoluble AgCl.
dynamic equilibrium
Equilibrium is reached, the solution is isotonic.
Of course they. If not, they would not be "in solution".If substances of a solution are evenly distributed then they have reached equilibrium.
isotonic solution
equilibrium is reached equilibrium is reached
A super saturated solution is unstable, and wants to precipitate some solute to regain a stable situation. Dissolve something in water at a high temperature in a perfectly clean glass container, until no more dissolves. Cool slowly and the solution becomes unstable because it holds more in solution than is normal at equilibrium at that lower temperature. It is super saturated. A tiny speck of dust or even agitation can provide conditions where the excess can precipitate out as a solid particles in suspension, until the equilibrium concentration of solution is reached, but with clouds of precipitate in there.
A super saturated solution is unstable, and wants to precipitate some solute to regain a stable situation. Dissolve something in water at a high temperature in a perfectly clean glass container, until no more dissolves. Cool slowly and the solution becomes unstable because it holds more in solution than is normal at equilibrium at that lower temperature. It is super saturated. A tiny speck of dust or even agitation can provide conditions where the excess can precipitate out as a solid particles in suspension, until the equilibrium concentration of solution is reached, but with clouds of precipitate in there.
At equilibrium its not changing (any more).
an equilibrium
Particles tend to move from an area where they are more concentrated to an area where they are less concentrated, a process known as diffusion. When the concentration of a solute is the same throughout a system, the system has reached equilibrium.
When a system has reached chemical equilibrium, the concentrations of the reactants and product remain constant.